KR20220065348A - Hologram multi-layer sheet - Google Patents

Abstract

The present disclosure relates to a hologram multi-layer sheet and a manufacturing method thereof. The hologram multi-layer sheet includes: a volume hologram sheet; and a surface hologram sheet provided with a basic material and a pattern layer. The surface hologram sheet is located on an opposite direction of a direction where a hologram comes out from the volume hologram sheet based on the volume hologram sheet.

Description

Hologram composite sheet {HOLOGRAM MULTI-LAYER SHEET}

The present disclosure (Disclosure) relates to a hologram composite sheet, and more particularly, to a hologram composite sheet in which a volume hologram sheet and a surface hologram sheet are combined.

Herein, background information related to the present disclosure is provided, and they do not necessarily mean prior art (This section provides background information related to the present disclosure which is not necessarily prior art).

A hologram can hold a single wavelength and a single frequency for a long time, and the phase information of a laser beam with good coherence is recorded to realize various colors, three-dimensional shapes, or dynamic images. Since this is done optically, when copied by an existing color copier or precision scanner, only a part of the optical information is printed. being commercialized. Holograms are divided into volume holograms and surface holograms according to the recording method.

1 is a view showing a conventional method of manufacturing a volume hologram sheet and a method of manufacturing a surface hologram sheet.

Referring to FIG. 1 (a) of manufacturing a volume hologram sheet, the volume hologram master 11 is manufactured by optical recording 10 with a laser, and then the volume hologram sheet is manufactured through a light replication process 12 .

Referring to FIG. 1(b) for manufacturing a surface hologram sheet, a surface hologram master 21 is manufactured by laser processing 20, and then a surface hologram sheet is manufactured through an embossing duplication process 22.

In addition, as prior art for volume holograms, many are described in Korean Patent Application Laid-Open No. 2019-0039207 and Korean Patent Application Laid-Open No. 2016-0002875. As prior art for surface holograms, many are described in Korean Patent Publication No. 1965382, Korean Patent Publication No. 2019054, and Korean Patent Publication No. 1975925. The volume hologram has excellent full-color realization characteristics and can implement a holographic image with a good sense of volume, but has disadvantages in that it has a low viewing angle and an expensive manufacturing process. On the other hand, the surface hologram has high productivity because it can be manufactured at a low cost, but has the disadvantage of color modulation according to the viewing angle. In recent years, productivity has been increased by using a binary-based pattern by CGH (Computer Generated Hologram) as a light pattern used for surface holograms.

In the present disclosure, by combining a volume hologram and a surface hologram, a volume hologram sheet is used for holograms requiring a complex or bulky feeling, and a low-cost surface hologram sheet for simple characters is used to provide an economical and highly useful hologram composite sheet. .

This will be described at the end of 'Specific Contents for Carrying Out the Invention'.

Herein, a general summary of the present disclosure is provided, which should not be construed as limiting the scope of the present disclosure (This section provides a general summary of the disclosure and is not a comprehensive disclosure of its full scope or all of its features).

According to an aspect according to the present disclosure (According to one aspect of the present disclosure), in the hologram composite sheet, a volume hologram sheet; and a surface hologram sheet having a substrate and a pattern layer, wherein the surface hologram sheet is positioned in a direction opposite to the direction in which the hologram is emitted from the volume hologram sheet based on the volume hologram sheet.

According to another aspect according to the present disclosure (According to another aspect of the present disclosure), the steps of preparing a volume hologram sheet and a surface hologram sheet; and bonding the volume hologram sheet and the surface hologram sheet through an adhesive layer so that the surface hologram sheet is positioned in the opposite direction to the direction in which the hologram is emitted from the volume hologram sheet based on the volume hologram sheet; do.

This will be described at the end of 'Specific Contents for Implementation of the Invention'.

1 is a view showing a method of manufacturing a conventional volume hologram sheet and a method of manufacturing a surface hologram sheet;
2 is a view showing an example of a hologram composite sheet according to the present disclosure;
3 is a view showing an example of use of the hologram composite sheet according to the present disclosure;
4 is a view showing another example of a hologram composite sheet according to the present disclosure;
5 is a view showing an example of a hologram composite sheet manufacturing method according to the present disclosure.

Hereinafter, the present disclosure will be described in detail with reference to the accompanying drawings (The present disclosure will now be described in detail with reference to the accompanying drawing(s)). Also, in this specification, direction indications such as up/down, up/down, etc. are based on the drawings.

2 is a view showing an example of a hologram composite sheet according to the present disclosure, and FIG. 3 is a view showing an example of use of the hologram composite sheet according to the present disclosure. Figure 2 (a) is a perspective view, Figure 2 (b) is a cross-sectional view taken along AA'.

2(a) and 2(b), the hologram composite sheet 100 is a volume hologram sheet 110, an adhesive layer 120 located under the volume hologram sheet 110, and an adhesive layer 120 located below. It may include a surface hologram sheet 130 .

It is preferable that the surface hologram sheet 130 be positioned in a direction opposite to the direction in which the hologram 111 emerging from the volume hologram sheet 110 is viewed with respect to the volume hologram sheet 110 . As shown in Fig. 2(c), when the surface hologram sheet 130 is positioned in the direction in which the hologram 111 coming out of the volume hologram sheet 110 is visible with respect to the volume hologram sheet 110, from the volume hologram sheet 110 It was confirmed through an experiment that the hologram 111 that came out was difficult to see. On the other hand, when the volume hologram sheet 110 is located in the direction in which the hologram 133 coming out of the surface hologram sheet 130 is visible with respect to the surface hologram sheet 130 as shown in FIG. 2(b) or FIG. 2(c) When the volume hologram sheet 110 is located in the opposite direction to the direction in which the hologram 133 coming from the surface hologram sheet 130 is viewed with respect to the surface hologram sheet 130, both holograms coming out of the surface hologram sheet 130 ( 133) looked good. However, it is not excluded that the surface hologram sheet 130 is positioned in a direction in which the hologram 111 emerging from the volume hologram sheet 110 is viewed with respect to the volume hologram sheet 110 .

Also, the light seen by the hologram 111 from the volume hologram sheet 110 and the light seen by the hologram 133 from the surface hologram sheet 130 are not the same. For example, when the light seen by the hologram 111 emitted from the volume hologram sheet 110 is referred to as first light (eg, visible light) as shown in FIG. 3 , the hologram 133 emitted from the surface hologram sheet 130 is the first As the second light different from the light, it is visible only when light of a specific wavelength range different from the first light or light having a light quantity above a certain level (eg, a smartphone flash or a laser 134 of a certain range of wavelength) is irradiated. can do. Alternatively, the light seen by the hologram 133 from the surface hologram sheet 130 and the light seen by the hologram 111 coming from the volume hologram sheet 110 may be reversed.

Also, there are one or more holograms 111 coming out of the volume hologram sheet 110 , and one or more holograms 133 coming out of the surface hologram sheet 130 , and the holograms 111 and the surface holograms coming out of the volume hologram sheet 110 . The hologram 133 coming out of the sheet 130 may correspond to one another. For example, as shown in FIG. 3 , the hologram 111 coming out of the volume hologram sheet 110 is a plurality of three-dimensional shapes such as dragons, castles, and trees, and the holograms 133 coming out of the surface hologram sheet 130 are dragons, castles and trees. As a character representing , a three-dimensional shape and a character can correspond one-to-one. Therefore, in a state where general light such as visible light is shining, the user sees three-dimensional shapes such as dragons, castles, and trees at the same time. When a three-dimensional image of a castle is illuminated, the character “Castle” appears three-dimensionally, and when a three-dimensional shape of a tree is illuminated, the character “Tree” can appear three-dimensionally, which can be used for educational purposes. Although FIG. 3 shows a reflection type hologram, the present disclosure can also be applied to a transmission type hologram.

The surface hologram sheet 130 may include a substrate 131 and a pattern layer 132 . The substrate 131 may be formed of a PET or PC material. The pattern layer 132 may be formed of an ultraviolet curing resin. A method of forming the pattern layer 132 on the substrate 131 using an ultraviolet curing resin is described in Korean Patent Registration No. 1975925. However, when creating a hologram shape through the pattern layer 132, the difference in refractive index at the boundary (eg, air) between the pattern layer 132 and other layers must be 0.004 or more. Preferably, it should be 0.01 or more. When the refractive index difference is smaller than that, diffraction due to the refractive index difference is not properly performed, so it is difficult to form a hologram. In the present disclosure, since the pattern layer 132 is in contact with the adhesive layer 120 , the difference in refractive index between the material forming the pattern layer 132 and the material forming the adhesive layer 120 should be 0.004 or more. If the difference in refractive index between the material forming the pattern layer 132 and the material forming the adhesive layer 120 is 0.004 or less, a deposition or coating layer (Al, TiO2, etc.) is applied between the pattern layer 132 and the adhesive layer 120. When formed, an interface is formed on the pattern layer 132 without a difference in refractive index, so that hologram expression is possible. For example, the adhesive layer 120 may be OCA. The adhesive layer 120 is a concept including an adhesive layer.

4 is a view showing another example of the hologram composite sheet according to the present disclosure.

When the surface hologram sheet 130 is positioned on the volume hologram sheet 110, the hologram composite sheet 100 has a surface in order to prevent the hologram 111 coming out of the volume hologram sheet 110 from being seen in the surface hologram sheet 130 direction. The reflective layer 140 may be formed on the pattern layer 132 of the hologram sheet 130 . In this case, the hologram 111 coming out of the volume hologram sheet 110 and the hologram 133 coming out of the surface hologram sheet 130 can be seen by the user at the position shown in FIG. 4 . The clarity of the hologram may be further increased by the reflectance of the reflective layer 140 . However, in this case, in consideration of the reflected image, the image configuration should be designed as a mirroring so that the hologram can also be viewed in the forward direction when reflected. The hologram composite sheet 100 described in FIG. 4 is substantially the same as the hologram composite sheet 100 described in FIGS. 2 to 3 except for those described in FIG. 4 .

5 is a view showing an example of a method for manufacturing a hologram composite sheet according to the present disclosure.

First, the volume hologram sheet 110 and the surface hologram sheet 130 are prepared (S1). Thereafter, the volume hologram sheet 110 and the surface hologram sheet 130 are laminated with an adhesive layer ( 120) through (S2, S2-1). That is, after positioning the surface hologram sheet 130 under the volume hologram sheet 110 as in S2, it can be adhered. Alternatively, as in S2-1, the reflective layer 140 may be added on the surface hologram sheet 130 after the surface hologram sheet 130 is positioned and adhered on the volume hologram sheet 110 (S3). In the processes S1, S2, S2-1 and S3, a roll-to-roll process is possible, thereby increasing productivity. In particular, it is important to align and adhere the volume hologram sheet 110 and the surface hologram sheet 130 so that the hologram coming out of the volume hologram sheet 110 and the hologram coming out of the surface hologram sheet 130 correspond to one another. As an alignment method, you can use the method of aligning the arrangement when laminating by designing it to have the same spacing and arrangement in advance, or the method of inserting an alignment alignment mark and laminating and molding to match using vision equipment. For example, in FIG. 3, a laser was shone on the dragon, because the character "castle" should not be visible.

Hereinafter, various embodiments of the present disclosure will be described.

(1) A hologram composite sheet, comprising: a volume hologram sheet; and a surface hologram sheet having a substrate and a pattern layer, wherein the surface hologram sheet is positioned in a direction opposite to the direction in which the hologram is emitted from the volume hologram sheet based on the volume hologram sheet.

(2) A hologram composite sheet in which a surface hologram sheet is positioned under the volume hologram sheet, and an adhesive layer is positioned between the volume hologram sheet and the surface hologram sheet.

(3) A hologram composite sheet in which the refractive index difference between the material forming the pattern layer and the material forming the adhesive layer is 0.004 or more.

(4) The adhesive is OCA hologram composite sheet.

(5) A surface hologram sheet is positioned on the volume hologram sheet, and a hologram composite sheet including a reflective layer on the surface hologram sheet.

(6) A hologram composite sheet in which a hologram is visible in a first light in the volume hologram sheet, a hologram is visible in a second light in the surface hologram sheet, and the first light and the second light are different.

(7) The first light is visible light, and the second light is a laser of a specific wavelength.

(8) A hologram composite sheet in which there is one or more holograms from the volume hologram sheet, and at least one hologram comes from the surface hologram sheet, and the holograms coming out of the volume hologram sheet and the holograms coming out of the surface hologram sheet correspond one-to-one.

(9) preparing a volume hologram sheet and a standard hologram sheet; and bonding the volume hologram sheet and the surface hologram sheet through an adhesive layer so that the surface hologram sheet is positioned in the opposite direction to the direction in which the hologram is emitted from the volume hologram sheet based on the volume hologram sheet.

(10) The volume hologram sheet and the surface hologram sheet are one or more holograms coming out of the volume hologram sheet, and at least one hologram coming out of the surface hologram sheet, so that the holograms coming out of the volume hologram sheet and the holograms coming out of the surface hologram sheet correspond one-to-one. A method of manufacturing a hologram composite sheet for bonding

According to the present disclosure, a hologram composite sheet in which a volume hologram sheet and a surface hologram sheet are combined can be obtained.

Hologram composite sheet: 100
Volumetric Hologram Sheet: 110
Adhesive layer: 120
Surface Hologram Sheet: 130
Reflective layer: 140

Claims (10)

In the hologram composite sheet,
volumetric hologram sheet; And
Including; a surface hologram sheet having a substrate and a pattern layer;
A hologram composite sheet in which the surface hologram sheet is located in the opposite direction to the direction in which the hologram is emitted from the volume hologram sheet based on the volume hologram sheet. According to claim 1,
A surface hologram sheet is positioned below the volumetric hologram sheet,
A holographic composite sheet in which an adhesive layer is positioned between a volume hologram sheet and a surface hologram sheet. 3. The method of claim 2,
A hologram composite sheet in which the refractive index difference between the material forming the pattern layer and the material forming the adhesive layer is 0.004 or more. 3. The method of claim 2,
The adhesive is a holographic composite sheet of OCA. According to claim 1,
A surface hologram sheet is positioned on the volume hologram sheet,
A holographic composite sheet comprising a reflective layer on a surface hologram sheet. According to claim 1,
In the volume hologram sheet, the hologram is visible in the first light,
In the surface hologram sheet, the hologram is visible in the second light,
The first light and the second light are different hologram composite sheets. 7. The method of claim 6,
The first light is visible light, and the second light is a laser of a specific wavelength. According to claim 1,
one or more holograms emerging from the volumetric hologram sheet,
at least one hologram emanating from the surface hologram sheet;
A hologram composite sheet in which the hologram emitted from the volume hologram sheet and the hologram emitted from the surface hologram sheet correspond one-to-one. In the hologram composite sheet manufacturing method,
preparing a volume hologram sheet and a surface hologram sheet; And
Adhering the volume hologram sheet and the surface hologram sheet through an adhesive layer so that the surface hologram sheet is positioned in the opposite direction to the direction in which the hologram is emitted from the volume hologram sheet based on the volume hologram sheet; A method of manufacturing a hologram composite sheet comprising a. 10. The method of claim 9,
one or more holograms emerging from the volumetric hologram sheet,
one or more holograms emerging from the surface hologram sheet,
A method for manufacturing a hologram composite sheet in which a volume hologram sheet and a surface hologram sheet are adhered so that a hologram emitted from the volume hologram sheet and a hologram emitted from the surface hologram sheet correspond one-to-one.

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