JP2019008165A - Volume hologram laminate, method for manufacturing volume hologram laminate, and information recording medium - Google Patents

Abstract

To provide a volume hologram laminate having a high forgery preventing function and a security function.SOLUTION: The volume hologram laminate has a support layer, a laser engrave layer disposed on one surface of the support layer and developing a color by irradiation with laser light, and a volume hologram layer disposed on a surface of the support layer opposite to the laser engrave layer and having a reproduced image recorded by use of interference fringes. The laser engrave layer has a pattern, and the pattern of the laser engrave layer, at least partially, is the same pattern in the reproduced image of the volume hologram layer.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a volume hologram laminate having a volume hologram layer, a method for producing a volume hologram laminate, and an information recording medium using the same.

  High forgery in information recording media such as gift certificates, securities, stock certificates, etc., magnetic cards such as credit cards, prepaid cards, ID cards, IC cards, tickets, banknotes, passports, identification cards, public competition voting tickets, etc. Prevention functions and security functions are required.

  In recent years, for example, a hologram layer on which interference fringes are recorded is provided on the surface of an information recording medium, and authenticity is identified using a reproduced image displayed by the hologram layer. Has improved. For example, Patent Documents 1 and 2 propose a technique related to a hologram laminate having a base material and a hologram layer disposed on one surface of the base material, and an information recording medium using the same.

  Such a hologram layer can be roughly classified into, for example, a volume hologram layer and a relief hologram layer according to the recording pattern of interference fringes. Specifically, the volume hologram layer can be obtained by causing object light and reference light having the same wavelength to interfere with each other and recording three-dimensional information about the object as interference fringes. One relief hologram layer can be obtained by forming an uneven structure on the surface and recording it as interference fringes. The volume hologram layer has been used and attracted attention in a wide range of fields from the viewpoint that it has a higher diffraction efficiency than that of the relief hologram layer and an advanced manufacturing technique is required. For example, Patent Documents 3 to 7 propose a technique related to a volume hologram laminate having a volume hologram layer and an information recording medium using the same.

  Some hologram laminates having a hologram layer include a laser engraved layer that develops color when irradiated with laser light. For example, in Patent Documents 8 and 9, a hologram stack having a base material, a hologram layer disposed on one surface of the base material, and a laser coloring layer disposed on the surface of the hologram layer opposite to the base material And a technology related to an information recording medium using the same.

JP 2014-153683 A JP 2014-148164 A JP-T-2015-533673 Japanese Patent No. 4807504 Japanese Patent No. 4646097 Japanese Patent No. 4349613 Japanese Patent No. 4605625 JP 2014-156058 A International Publication No. 2012/050223

  As described above, various hologram laminates have been proposed in the past, but further improvements in forgery prevention functions and security functions are required. The main object of the present invention is to provide a volume hologram laminate having a high anti-counterfeiting function and a security function.

  The present invention includes a support layer, a laser engraved layer that is disposed on one surface of the support layer and that develops color when irradiated with laser light, and is disposed on a surface opposite to the support layer of the laser engraved layer, so that interference occurs. A volume hologram laminate having a volume hologram layer on which a reproduced image is recorded by stripes, wherein the laser engraved layer has a pattern, and the pattern of the laser engraved layer is a pattern of the reproduced image of the volume hologram layer And a volume hologram laminate characterized in that at least a part thereof has the same pattern.

  According to the present invention, a volume hologram laminate having a high anti-counterfeiting function can be obtained by having at least a part of the pattern of the reproduced image of the volume hologram layer and the pattern of the laser engraved layer the same pattern. it can. In addition, it is possible to obtain a volume hologram laminate having an excellent security function by determining whether or not the pattern of the reproduced image of the volume hologram layer and the pattern of the laser engraved layer are at least partially the same pattern. be able to.

  In the present invention, the reproduced image of the volume hologram layer is preferably formed within 40 mm above and below the volume hologram layer from at least one surface of the volume hologram layer. When the laser engraving layer is irradiated with laser light through the volume hologram layer, the picture drawn by the color development of the laser engraved layer can be made a clearer picture.

  In this invention, it is preferable to have an overcoat layer in the surface on the opposite side to the said support layer of the said laser engraved layer. By protecting the laser engraved layer, color development due to application of pressure or heat can be suppressed.

  The present invention also includes a support layer, a laser engraved layer that is disposed on one surface of the support layer and that develops color when irradiated with laser light, and a surface opposite to the support layer of the laser engraved layer. From the preparation step of preparing a laminated body having a volume hologram layer on which a reproduction image by interference fringes is recorded, and from the reproduction angle at which the reproduction image of the volume hologram layer can be reproduced, the volume hologram layer is passed through the volume hologram layer. A drawing step of drawing a pattern by irradiating a laser beam to the laser engraved layer, and the laser beam used in the drawing step is irradiated with the laser beam to the laser engraved layer through the volume hologram layer, It has a wavelength reflected by the reproduced image of the volume hologram layer, and is drawn on the laser engraved layer by the drawing process. The picture is at least a portion the pattern of the reproduced image of the volume hologram layer to provide a method of producing a volume hologram laminate, characterized in that the same pattern.

  According to the present invention, by having the drawing step, at least a part of the pattern of the reproduced image of the volume hologram layer and the pattern drawn on the laser engraved layer can be made the same pattern. Thereby, the volume hologram laminated body which has a high forgery prevention function can be obtained. In addition, the volume hologram laminate having an excellent security function by determining whether or not the pattern of the reproduced image of the volume hologram layer and the pattern drawn on the laser engraved layer are at least partially the same pattern It can be.

  In the present invention, the laser light used in the drawing step preferably has a wavelength peak within a range of ± 10 nm of the reproduction wavelength for reproducing the reproduction image of the volume hologram layer. The laser beam irradiated to the laser engraved layer has a wavelength peak in the above-described range, so that the laser beam is selectively reflected in the region where the reproduced image of the volume hologram layer is reproduced, and the laser beam is applied to the laser engraved layer. Light incidence can be blocked more effectively. Therefore, the same pattern as the reproduced image of the volume hologram layer can be more effectively drawn on the laser engraved layer.

  In the present invention, the reproduction angle is preferably 60 ° or less with respect to the normal line of the volume hologram layer. It becomes possible to irradiate a laser beam from a direction perpendicular to the surface of the laser engraved layer, and it is possible to easily draw a pattern on the laser engraved layer. Further, when the volume hologram laminate is visually recognized by hand, the light from the light source on the volume hologram laminate can be diffracted naturally toward the eyes.

  Furthermore, the present invention provides an information recording medium comprising the volume hologram laminate described above.

  According to the present invention, an information recording medium having a high anti-counterfeiting function and an excellent security function can be obtained by having the above-described predetermined volume hologram laminate.

  The present invention provides a volume hologram laminate having a high anti-counterfeiting function and a security function, wherein the pattern of the reproduced image of the volume hologram layer and the pattern drawn on the laser engraved layer can be at least partially the same pattern There is an effect that can be provided.

It is a schematic sectional drawing which shows an example of the volume hologram laminated body of this invention. It is a schematic process drawing which shows an example of the manufacturing method of the volume hologram laminated body of this invention. It is explanatory drawing for demonstrating the volume hologram laminated body of this invention. It is explanatory drawing for demonstrating the volume hologram laminated body of this invention. It is explanatory drawing for demonstrating the volume hologram laminated body of this invention. It is explanatory drawing for demonstrating the volume hologram laminated body of this invention. It is a schematic sectional drawing which shows an example of the conventional volume hologram laminated body.

  Hereinafter, the volume hologram laminate, the method for producing the volume hologram laminate, and the information recording medium of the present invention will be described.

A. Volume hologram laminate The volume hologram laminate of the present invention includes a support layer, a laser engraved layer that is arranged on one surface of the support layer and develops color when irradiated with laser light, and the support layer of the laser engraved layer. A volume hologram laminate having a volume hologram layer disposed on the opposite surface and having a reproduced image recorded by interference fringes, wherein the laser engraved layer has a pattern, and the pattern of the laser engraved layer is: The member is characterized in that at least a part of the reproduced image of the volume hologram layer has the same pattern.

  Hereinafter, the volume hologram laminate of the present invention will be described with reference to the drawings. However, the present invention can be implemented in many different modes, and should not be construed as being limited to the description of the embodiments described below. In addition, the drawings may be schematically represented with respect to the width, thickness, shape, and the like of each part as compared with the embodiments for the sake of clarity of explanation, but are merely examples, and the interpretation of the present invention is not limited thereto. It is not limited. In addition, in the present specification and each drawing, elements similar to those described above with reference to the previous drawings are denoted by the same reference numerals, and detailed description may be omitted as appropriate.

  1A and 1B are schematic cross-sectional views showing an example of a volume hologram laminate of the present invention. As illustrated in FIGS. 1A and 1B, the volume hologram laminate 10 of the present invention is disposed on a support layer 1 and one surface of the support layer 1, and a laser engraved that develops color when irradiated with laser light. It has a layer 2 and a volume hologram layer 3 which is disposed on the surface opposite to the support layer 1 of the laser engraved layer 2 and on which a reproduced image is recorded by interference fringes.

  The volume hologram laminate 10 shown in FIG. 1A is an example having an overcoat layer 4 for protecting the laser engraved layer 2 on the surface opposite to the laser engraved layer 2 of the volume hologram layer 3. A volume hologram laminate 10 shown in FIG. 1B is an example having an overcoat layer 4 for protecting the laser engraved layer 2 between the laser engraved layer 2 and the volume hologram layer 3.

  Here, reference numeral 30 shown in FIGS. 1A and 1B denotes a reproduced image reproduced by the interference fringes recorded on the volume hologram layer 3, and reference numeral 20 denotes a picture drawn on the laser engraved layer 2. Point to. In the present invention, “the pattern 20 drawn on the laser engraved layer 2” refers to a pattern defined by the laser engraved layer 2 being colored by the irradiation of laser light. Specifically, for example, when the laser engraving layer 2 is irradiated with the laser light L through the volume hologram layer 3, an uncolored region without being irradiated with the laser light is expressed as “the laser engraving layer 2 It becomes the drawn pattern 20 ". In addition, since detailed description about this point is performed in the description regarding FIG. 2 (a), (b) and FIG. 3 (a), (b), description here is abbreviate | omitted.

  In the present invention, the pattern drawn on the laser engraved layer is characterized in that it is at least partly the same as the pattern of the reproduced image of the volume hologram layer. Here, the “same pattern” refers to a pattern that matches when viewed in plan, or the same pattern that is formed at an overlapping position when viewed in plan. The volume hologram laminate of the present invention having such characteristics can be obtained, for example, as follows. 2A and 2B are schematic process diagrams showing an example of a method for producing a volume hologram laminate of the present invention. In the present invention, first, as shown in FIG. 2A, a laminate in which a support layer 1, a laser engraved layer 2 and a volume hologram layer 3 are laminated is prepared. At this time, it is assumed that predetermined interference fringes are recorded in the volume hologram layer 3. The recording of interference fringes on the volume hologram layer 3 can be performed by a general method, for example, by causing object light having the same wavelength and reference light to interfere with each other. Next, in the present invention, as shown in FIG. 2B, the laser engraving is performed via the volume hologram layer 3 from the reproduction angle at which the reproduced image 30 is reproduced by the interference fringes recorded on the volume hologram layer 3. The layer 2 is irradiated with a laser beam L. At this time, the laser beam L irradiated from the reproduction angle has a wavelength peak equivalent to the wavelength peak of the laser beam used when recording the interference fringes on the volume hologram layer. Therefore, for example, as shown in FIG. 3A, the laser light L irradiated to the laser engraving layer 2 through the volume hologram layer 3 is in the region where the reproduced image 30 is reproduced in the volume hologram layer 3. reflect. On the other hand, the laser light L irradiated to the laser engraved layer 2 through the volume hologram layer 3 is transmitted through the volume hologram layer 3 in a region where the reproduced image 30 is not reproduced, in other words, in a region where no interference fringes are recorded. Then, the light enters the laser engraved layer 2. Then, as shown in FIG. 3B, the laser beam L is transmitted to the laser engraved layer 2 via the volume hologram layer 3 in the region where the reproduced image 30 by the interference fringes recorded on the volume hologram layer 3 is reproduced. Therefore, the region corresponding to the reproduced image 30 in the laser engraved layer 2 is a non-colored region, and this is the pattern 20 drawn on the laser engraved layer 2. Note that the reproduced image 30 in FIGS. 3A and 3B shows the reproduced image 30 reproduced when the volume hologram layer 3 is observed from the reproduction angle.

  The present invention is characterized in that “the pattern drawn on the laser engraved layer is at least partly the same as the pattern of the reproduced image of the volume hologram layer”. “The pattern drawn on the laser engraved layer is at least partly the same as the pattern of the reproduced image of the volume hologram layer”, for example, as shown in FIGS. 3 (a) and 3 (b). The pattern 20 drawn on the layer 2 may be the same as the pattern of the reproduced image 30 of the volume hologram layer 3 or, as shown in FIGS. The drawn pattern 20 may be partially the same as the pattern of the reproduced image 30 of the volume hologram layer 3. In addition, when the pattern 20 drawn on the laser engraved layer 2 is the same pattern as the pattern of the reproduced image 30 of the volume hologram layer 3, for example, the volume hologram lamination of the present invention is performed by the following method, for example. The body can be created. That is, as shown in FIG. 4A, only the region desired to have the same pattern as that of the reproduced image 30 of the volume hologram layer 3 is irradiated with the laser light L through the volume hologram layer 3 to As shown in b), it is possible to obtain a volume hologram laminate in which the pattern drawn on the laser engraved layer 2 is only partly the same as the pattern of the reproduced image 30 of the volume hologram layer 3. 4A and 4B show the reproduced image 30 reproduced when the volume hologram layer 3 is observed from the reproduction angle.

The laser engraved layer in the present invention has a picture drawn by laser light irradiation, and the volume hologram layer has a reproduced image reproduced by recording interference fringes. Furthermore, in the present invention, the pattern of the reproduced image reproduced by the volume hologram layer and the pattern drawn on the laser engraved layer are at least partly the same pattern. Such a volume hologram laminate of the present invention can be obtained by a predetermined method. That is, as shown in FIGS. 2A and 2B, the laser engraving layer 2 is irradiated with laser light through the volume hologram layer 3 having the reproduced image 30, so that the laser engraving layer 2 has a volume. A pattern 20 having at least a part of the same pattern as that of the reproduced image 30 on the hologram layer 3 can be drawn. Here, the laser beam used when drawing a pattern on the laser engraved layer needs to have the same wavelength as the reference beam used when recording interference fringes on the volume hologram layer 3. Furthermore, it is necessary to irradiate the laser beam from an angle at which the reproduced image of the volume hologram layer is reproduced. In the present invention, when the laser beam used when drawing a pattern on the laser engraved layer satisfies the above-described conditions, a reproduced image of the volume hologram layer 3 is obtained as shown in FIGS. 3 (a) and 3 (b). In the region where 30 is reproduced, the laser beam L is reflected, and in the other region, the laser beam L is incident on the laser engraving layer 2 through the volume hologram layer 3, and as a result, is reproduced by the volume hologram layer 3. The pattern of the reproduced image 30 to be reproduced and the pattern 20 drawn by selective color development of the laser engraved layer 2 can be made the same pattern at least partially.
In the present invention, by adopting such a unique method, the volume of the reproduced image reproduced by the volume hologram layer and the image drawn on the laser engraved layer are at least partially the same pattern. It is possible to obtain a hologram laminate. Therefore, for example, when the pattern of the laser engraved layer is drawn without going through the volume hologram layer on which the interference fringes are recorded, or the laser engraved layer on which the predetermined pattern is drawn is peeled off to obtain another volume hologram laminate When used in the above, it is difficult to obtain a volume hologram laminate as in the present invention. Thus, the volume hologram laminate of the present invention has a high anti-counterfeit function.

  By the way, the image of the reproduced image of the volume hologram layer is selectively reproduced at two angles, that is, the irradiation angle of the object light and the irradiation angle of the reference light irradiated when recording the interference fringes. On the other hand, the pattern of the laser engraved layer can be confirmed from an angle other than the two angles described above. Therefore, from the two angles at which the reproduced image of the volume hologram layer is reproduced, both the image of the reproduced image and the image drawn on the laser engraved layer that is partly the same as the image of the reproduced image are displayed. From other angles, only the pattern drawn on the laser engraved layer can be confirmed. In the present invention, the image of the reproduced image of the volume hologram layer itself, the image of the laser engraved layer itself, and the image of the reproduced image of the volume hologram layer and the image of the laser engraved layer are at least partially the same pattern. From the three points, a volume hologram laminate having an excellent security function can be obtained.

  For example, Patent Documents 8 and 9 disclose a hologram laminate in which a hologram layer and a laser engraved layer are laminated. However, the invention according to Patent Document 8 is an invention in which a hologram layer is destroyed when an attempt is made to peel off the hologram layer by providing a thermal adhesive layer between the hologram layer and the laser engraved layer. The invention according to Patent Document 9 is an invention in which the hologram layer and the like are prevented from being damaged by heat generated when the laser engraving layer is irradiated with laser light. Therefore, although Patent Documents 8 and 9 disclose a hologram laminate having a hologram layer and a laser engraved layer, the forgery prevention function and the security function are completely different from the present invention.

  Hereinafter, each structure and use of the volume hologram laminate of the present invention will be described.

1. Structure The volume hologram laminate of the present invention is disposed on the surface opposite to the support layer, the laser engraved layer that is arranged on one side of the support layer, and develops color when irradiated with laser light, and the support layer of the laser engraved layer And a volume hologram layer on which a reproduced image is recorded by interference fringes. Further, the laser engraved layer in the volume hologram laminate of the present invention has a pattern, and the pattern of the laser engraved layer is at least partially the same as the pattern of the reproduced image of the volume hologram layer, To do.

  Hereafter, each structure of the volume hologram laminated body of this invention is demonstrated.

(1) Volume hologram layer The volume hologram layer in the present invention is a member that is disposed on a surface opposite to a support layer of a laser engraved layer, which will be described later, and on which a reproduced image is recorded by interference fringes.

  In the volume hologram layer in the present invention, interference fringes are recorded, and a reproduced image is reproduced by the interference fringes. The volume hologram layer in the present invention is usually a reflective volume hologram layer. Here, the “reflective volume hologram layer” refers to a volume hologram layer that can reproduce a reproduction image by irradiating reproduction light from the surface of the volume hologram layer on the viewer side.

  The reproduced image reproduced by the interference fringes recorded on the volume hologram layer can be designed as appropriate by adjusting the interval and angle of the interference fringes. As a reproduced image of the volume hologram layer, for example, a pattern including characters, figures and the like can be cited.

In the present invention, the reproduction image is reproduced by the interference fringes recorded on the volume hologram layer by irradiating the volume hologram layer with reproduction light from a predetermined angle. Here, “reproducing light” refers to light having the same wavelength as the reference light used when recording interference fringes on the volume hologram layer. The “predetermined angle” corresponds to an angle at which object light and reference light are irradiated in order to record interference fringes on the volume hologram layer. That is, there are two angles at which the reproduction light is irradiated in order to reproduce the reproduction image. Hereinafter, the angle may be referred to as a reproduction angle. The reproduction angle in the present invention corresponds to the angles of object light and reference light irradiated for recording interference fringes. That is, the reproduction angle is ± 0 ° with respect to the object light irradiation angle or the reference light irradiation angle.
Hereinafter, the object light irradiation angle may be referred to as the object light angle, and the reference light irradiation angle may be referred to as the reference light angle.

  In the present invention, the reproduced image recorded on the volume hologram layer is preferably designed at a predetermined position on the volume hologram layer by design. Hereinafter, a description will be given with reference to FIGS. 6A to 6C are explanatory views for explaining the volume hologram laminate of the present invention. In the present invention, for example, as shown in FIG. 6A, it is preferable that the reproduced image 30 of the volume hologram layer is imaged at a predetermined position with respect to the volume hologram layer 3. In particular, as shown in FIG. 6B, the reproduced image 30 of the volume hologram layer is preferably formed at the position of the volume hologram layer. When the laser engraving layer is irradiated with laser light through the volume hologram layer, the picture drawn by the color development of the laser engraved layer can be made a clearer picture. On the other hand, as shown in FIG. 6C, when the reproduced image 30 of the volume hologram layer is imaged at a position away from the volume hologram layer 3, a laser is applied to the laser engraved layer via the volume hologram layer. When irradiated with light, the pattern drawn by the color development of the laser engraved layer may be blurred, resulting in an unclear pattern. Therefore, in the present invention, as shown in FIG. 6A, it is preferable that the reproduced image 30 of the volume hologram layer is imaged at a predetermined position from at least one surface of the volume hologram layer 3. Specifically, a reproduced image formed within 40 mm above and below from at least one of the surface of the volume hologram layer 3 on the laser engraved layer side or the surface of the volume hologram layer opposite to the laser engraved layer. In particular, it is preferable to have a reconstructed image imaged within 20 mm above and below, and it is particularly preferable to have a reconstructed image imaged within 10 mm above and below.

  In the present invention, it is preferable that all the reproduced images are reproduced within the above-described range from at least one surface of the volume hologram layer. In the present invention, when a reproduced image is observed from a direction opposite to the laser engraved layer of the volume hologram layer, the reproduced image is reproduced at a position within a predetermined range from at least one surface of the volume hologram layer. Thus, the pattern of the reproduced image can be observed as a clear pattern. Therefore, for example, in the reproduced image of the volume hologram layer, when the design portion to be drawn on the laser engraved layer is designed to be reproduced at a predetermined position from at least one surface of the volume hologram layer, the volume hologram layer is reproduced. The pattern portion of the image can be a clear pattern, and the pattern drawn on the laser engraved layer can also be a clear pattern. As described above, the “at least one surface of the volume hologram layer” as used herein refers to the surface of the volume hologram layer on the laser engraved layer side or the surface of the volume hologram layer on the opposite side of the laser engraved layer. Of at least one side.

  The volume hologram layer in the present invention usually has transparency. The transparency of the volume hologram layer can be the same as that of a general volume hologram layer, and can be appropriately adjusted according to the use of the volume hologram laminate of the present invention.

  The material used for the volume hologram layer in the present invention can be the same as the material used for a general volume hologram layer, for example, a cured resin layer, a thermoplastic resin layer, a photosensitive layer, or the like. Specific materials used for the volume hologram layer include, for example, thermosetting resins, ionizing radiation curable resins, thermoplastic resin layers, silver salt materials, dichromated gelatin emulsions, photopolymerizable resins, and photocrosslinkable resins. And photosensitive materials such as photoresist, photorefractive materials made of inorganic materials, and photosensitive materials such as photochromic materials. Among them, it contains a binder resin, a photopolymerizable compound, a photosensitive material containing a photopolymerization initiator and a sensitizing dye, a cationic polymerizable compound, a radical polymerizable compound, a photo radical polymerization initiator, and a photo cationic polymerization initiator. Photosensitive materials can be preferably used. Note that the composition and the like of the above-described photosensitive material can be the same as the material described in, for example, Japanese Patent Application Laid-Open No. 2013-068960, and the description thereof is omitted here.

  The volume hologram layer in the present invention may contain other additives as necessary in addition to the above-described materials. In addition, about the additive which can be used for a volume hologram layer, since it can be the same as that of the additive used for a general volume hologram layer, description here is abbreviate | omitted.

  The volume hologram layer in the present invention may be formed over the entire area of one surface of the support layer described later, or may be formed in part. In addition, the volume hologram layer in the present invention may be disposed so as to overlap with a laser engraved layer to be described later in plan view. Specifically, a reproduced image reproduced by interference fringes recorded in the volume hologram layer is used. The laser engraving layer, which will be described later, may be disposed so as to overlap in plan view. Here, “the volume hologram layer is arranged so as to overlap with a laser engraved layer to be described later in plan view” means that it is sufficient that at least a part of the volume hologram layer overlaps with a laser engraved layer to be described later in plan view, Also, “arrangement so that the reproduced image overlaps with a laser engraved layer to be described later in plan view” is sufficient if at least a part of the reproduced image of the volume hologram layer overlaps with a laser engraved layer to be described later in plan view. .

  The thickness of the volume hologram layer in the present invention can be appropriately adjusted according to the use of the volume hologram laminate of the present invention, the material of the volume hologram layer, and the like, and is not particularly limited. Note that the specific thickness of the volume hologram layer can be the same as the thickness of a general volume hologram layer, and thus description thereof is omitted here.

  Examples of the method of forming the volume hologram layer in the present invention include a method of recording interference fringes by causing object light having the same wavelength and reference light to interfere with a volume hologram layer made of a predetermined material. Specifically, as a method of forming the reflective volume hologram layer, there is a method of recording interference fringes by causing object light to be incident from one surface of the volume hologram layer and reference light to be incident from the other surface.

(2) Laser Engraved Layer The laser engraved layer in the present invention is a member that is disposed on one surface of the support layer and that develops color when irradiated with laser light. The laser engraved layer has a pattern drawn by laser light irradiation, and the pattern drawn on the laser engraved layer is at least partially the same as the pattern of the reproduced image of the volume hologram layer. And

  The laser engraved layer in the present invention is a member on which a predetermined pattern is drawn. Examples of the pattern drawn on the laser engraved layer include a pattern including characters and figures.

  The pattern drawn on the laser engraved layer is represented in two dimensions. In addition, the pattern drawn on the laser engraved layer can be observed from any angle, unlike a reproduced image of the volume hologram layer that is observed only from a predetermined angle, that is, a so-called reproduction angle. Therefore, in the present invention, both the pattern of the laser engraved layer and the pattern of the reproduced image of the volume hologram layer are observed from the reproduction angle, and only the pattern of the laser engraved layer is observed from an angle other than the reproduction angle.

  The pattern drawn on the laser engraved layer is a pattern that is at least partially the same as the pattern of the reproduced image of the volume hologram layer. 3 (a), (b), and FIG. 4 (a) that “the pattern drawn on the laser engraved layer is at least partly the same as the pattern of the reproduced image of the volume hologram layer”. , (B), the description is omitted here.

  In the present invention, whether or not the picture drawn on the laser engraved layer is at least partially the same as the picture of the reproduced image of the volume hologram layer can be confirmed by the following method, for example. That is, using a camera or the like with a fixed position, first, reproduction light is incident from a reproduction angle, and a reproduction image of the obtained volume hologram layer is photographed. Next, it can be confirmed by turning off the reconstructed light and taking a picture drawn on the laser engraved layer obtained when the reconstructed image of the volume hologram layer disappears, and determining whether the relative position of the two images is misaligned .

  The laser engraved layer in the present invention is colored by laser light irradiation to draw a picture. At this time, the laser engraved layer that is colored or discolored exhibits not only the presence or absence of color development or discoloration, but also the shade of the hue. The shade of the hue can be adjusted by, for example, the amount of laser light incident on the laser engraved layer. The adjustment of the amount of laser light incident on the laser engraved layer is performed by adjusting the brightness of the diffracted light in the reproduced image as described in the section “B. Manufacturing method of volume hologram laminate 1. Preparation step” described later. Can be performed.

  The laser engraved layer in the present invention may be a member that develops color by irradiation with laser light, and preferably has, for example, a material that develops or changes color by the energy of laser light. The material used for the laser engraved layer can be the same as the material used for a general laser engraved layer, and is not particularly limited. For example, a coloring material such as a polycarbonate simple substance, a polycarbonate-based material, a vinyl chloride-based material, a polyester-based material, a mixed material thereof, or a laminated material obtained by laminating layers composed of these materials can be given. In the present invention, the laser engraved layer may contain a plurality of types of color formers. However, when a pattern is drawn by irradiating the laser engraved layer with laser light, a single color former is colored. A monochromatic pattern is preferable. For example, the laser engraved layer can be colored from white to black by irradiation with laser light.

  The thickness of the laser engraved layer in the present invention can be appropriately adjusted according to the material constituting the laser engraved layer, the use of the volume hologram laminate of the present invention, etc. The same can be said. Therefore, the specific description here is omitted.

(3) Support layer The support layer in this invention is a member which supports the volume hologram layer and laser engraved layer which were mentioned above.

  The support layer in the present invention may or may not have transparency. It can select suitably according to the use etc. of the volume hologram laminated body of this invention. Examples of the material used for the support layer include a polycarbonate film, a polyethylene film, a polypropylene film, a polyvinyl fluoride film, a polyvinylidene fluoride film, a polyvinyl chloride film, a polyvinylidene chloride film, an ethylene-vinyl alcohol copolymer film, Polyvinyl alcohol film, polymethyl methacrylate film, polyethersulfone film, polyetheretherketone film, polyamide film, tetrafluoroethylene-perfluoroalkylvinylether copolymer film, polyester film such as polyethylene terephthalate film, resin film such as polyimide film And resin sheets, glassine paper, synthetic paper (polyolefin, polystyrene, etc.), high-quality paper Medium-quality paper, art paper, coated paper, paper, cast coated paper, and the like.

  The thickness of the support layer in the present invention can be appropriately selected according to the use of the volume hologram laminate of the present invention, and is not particularly limited. For example, it can be in the range of 2 μm or more and 2000 μm or less, preferably in the range of 10 μm or more and 1000 μm or less.

(4) Overcoat layer In this invention, it is preferable to have an overcoat layer in the surface on the opposite side to the support layer of a laser engraved layer. The laser engraved layer may develop color when pressure or heat is applied in addition to laser light irradiation. Therefore, by protecting the laser engraved layer with the overcoat layer, it is possible to suppress color development due to application of pressure or heat.

  The overcoat layer in this invention should just be arrange | positioned so that a laser engraved layer may be protected. For example, as shown in FIG. 1A, an overcoat layer 4 may be disposed on the surface of the volume hologram layer 3 opposite to the laser engraved layer 2, as shown in FIG. The overcoat layer 4 may be disposed between the laser engraved layer 2 and the volume hologram layer 3.

  It is preferable that the overcoat layer in the present invention has transparency so that a reproduced image of the volume hologram layer and a picture drawn on the laser engraved layer can be visually recognized. The specific transparency of the overcoat layer is not defined by strict numerical values, and can be determined as appropriate according to the use of the volume hologram laminate of the present invention. The transparent includes colorless and transparent.

  The overcoat layer in the present invention preferably has a low haze value. This is because the reproduced image of the volume hologram layer and the picture drawn on the laser engraved layer can be viewed well. As a haze value of an overcoat layer, it can be in the range of 0.5 or more and 1.5 or less, for example.

  The overcoat layer in the present invention may be, for example, a film substrate or a resin substrate. Examples of the film base include polycarbonate film, polyethylene film, polypropylene film, polyvinyl fluoride film, polyvinylidene fluoride film, polyvinyl chloride film, polyvinylidene chloride film, ethylene-vinyl alcohol film, polyvinyl alcohol film, and polymethyl. Examples include methacrylate films, polyethersulfone films, polyetheretherketone films, polyamide films, tetrafluoroethylene-perfluoroalkyl vinyl ether copolymer films, polyester films such as polyethylene terephthalate films, polyimide films, and the like. Examples of the resin base include acrylic and methacrylic resins such as polymethyl acrylate and polymethyl methacrylate, polyvinyl chloride resin, cellulose resin, silicone resin, chlorinated rubber, casein, various surfactants, metal oxidation Examples include one or a mixture of two or more of the products, epoxy-modified acrylate resins, urethane-modified acrylate resins, acrylic-modified polyesters, and the like.

  The thickness of the overcoat layer in the present invention is preferably a thickness that can exhibit predetermined transparency and can sufficiently protect the laser engraved layer. For example, it is preferably in the range of 0.1 to 500 μm, and more preferably in the range of 0.5 to 200 μm.

(5) Other members The volume hologram laminate of the present invention may have other members as necessary in addition to the members described above.

  Examples of other members in the present invention include an antistatic layer, an adhesive layer or a pressure-sensitive adhesive layer, a release layer, a magnetic recording layer, an IC chip, an optical recording layer, and the like. be able to.

2. Application As a use of the volume hologram laminate of the present invention, it can be used for a member requiring high security such as forgery prevention. Among them, it is suitably used for a member that is desired to be given different information (variable information) for each volume hologram laminate, for example, an information recording medium. Examples of the information recording medium include gift vouchers such as gift certificates, securities, stock certificates, various cards such as magnetic cards and IC cards, tickets, banknotes, passports, identification cards, public competition voting tickets, and the like.

B. Volume hologram laminate manufacturing method The volume hologram laminate manufacturing method of the present invention includes a support layer, a laser engraved layer that is arranged on one surface of the support layer, and that develops color when irradiated with laser light, and the laser engraved layer. A step of preparing a laminate having a volume hologram layer disposed on a surface opposite to the support layer and having a reproduction image recorded by interference fringes recorded thereon, and reproducing the reproduction image of the volume hologram layer A drawing step of drawing a pattern by irradiating the laser engraved layer with a laser beam through the volume hologram layer from a reproducible reproduction angle, and the laser beam used in the drawing step passes through the volume hologram layer. When the laser engraving layer is irradiated with laser light, it is reflected by the reproduced image of the volume hologram layer and the drawing In the method, the pattern drawn on the laser engraved layer by the process is at least partially the same as the pattern of the reproduced image of the volume hologram layer.

  The method for producing the volume hologram laminate of the present invention can be illustrated by FIGS. 2 (a) and 2 (b). 2A and 2B can be the same as the contents described in the above section “A. Volume hologram laminate”, and therefore description thereof is omitted here.

According to the present invention, by having the drawing step, at least a part of the pattern of the reproduced image of the volume hologram layer and the pattern drawn on the laser engraved layer can be made the same pattern. Thereby, the volume hologram laminated body which has a high forgery prevention function can be obtained. In addition, the volume hologram laminate having an excellent security function by determining whether or not the pattern of the reproduced image of the volume hologram layer and the pattern drawn on the laser engraved layer are at least partially the same pattern It can be. In addition, about description of a specific effect, since it can be made to be the same as that of the content described in the above-mentioned item of "A. Volume hologram laminated body", description here is abbreviate | omitted.
Hereinafter, the method for producing the volume hologram laminate of the present invention will be described in each step.

1. Preparatory Step The preparatory step in the present invention includes a support layer, a laser engraved layer that is arranged on one surface of the support layer and develops color when irradiated with laser light, and a surface opposite to the support layer of the laser engraved layer And a laminated body having a volume hologram layer on which a reproduced image by interference fringes is recorded.

  In the present invention, the method for forming the support layer, the laser engraved layer, and the volume hologram layer constituting the laminate can be generally the same as a known method, and thus description thereof is omitted here.

  The volume hologram layer in the laminate prepared in the preparation step is a member on which a reproduced image is recorded by interference fringes. For recording the interference fringes on the volume hologram layer, for example, a method of irradiating the volume hologram layer with object light and reference light can be mentioned. Here, the object light angle for irradiating the object light and the reference light angle for irradiating the reference light correspond to a reproduction angle at which a reproduction image of the volume hologram layer can be reproduced. In the present invention, the reproduction angle is preferably within a predetermined range. Specifically, when the normal line of the surface of the volume hologram layer opposite to the laser engraved layer is 0 °, the reproduction angle is preferably closer to 0 °. For example, as shown in FIG. 5, the reproduction angle is preferably 60 ° or less, and more preferably 50 ° or less, with respect to the angle θ formed with the normal line of the volume hologram layer 3. In the present invention, when the reproduction angle is within the above range, the following effects can be obtained. That is, in the present invention, in order to make at least a part the same as the picture of the reproduction image of the volume hologram layer, in the drawing process described later, from the reproduction angle of the reproduction image of the volume hologram layer, through the volume hologram layer, Laser light is irradiated to the laser engraved layer. At this time, since the reproduction angle is within the above range, it becomes possible to irradiate the laser beam from the perpendicular direction to the surface on the volume hologram layer side of the laser engraved layer in the drawing process described later. There is an effect that the pattern can be easily drawn on the layer.

  In the reproduced image of the volume hologram layer, the brightness of diffracted light is usually determined according to the interval and angle of interference fringes. In the present invention, when a laser engraving layer is colored by irradiating a laser beam from a reproduction angle through a volume hologram layer, in the reproduced image reproduced by the volume hologram layer, the region where the brightness of the diffracted light is higher On the other hand, the region where the brightness of the diffracted light is low tends to transmit the laser light while reflecting the light. For this reason, in the reproduced image of the volume hologram layer, the region where the brightness of the diffracted light is higher can suppress the incidence of the laser light to the laser engraved layer and suppress the color development of the laser engraved layer. On the other hand, in the reproduced image of the volume hologram layer, the laser light is incident on the laser engraved layer in the region where the brightness of the diffracted light is lower, and the laser engraved layer can be colored. Therefore, the amount of laser light incident on the laser engraved layer can be adjusted by adjusting the brightness of the diffracted light in the reproduced image of the volume hologram layer, and the color of the laser engraved layer by the laser light can be shaded. Become. Therefore, it can be set as the volume hologram laminated body which has a higher forgery prevention function and a security function. “Diffraction light brightness level” means the degree of reflection of laser light when a predetermined laser light is irradiated from the reproduction angle of the reproduction image of the volume hologram layer. For example, the reflection of the laser light is large The higher the brightness of the diffracted light.

  About the laminated body prepared by a preparatory process, since it can be made to be the same as that of the content described in the term of the said "A. volume hologram laminated body", description here is abbreviate | omitted.

2. Drawing Step The drawing step in the present invention is a step of drawing a pattern by irradiating a laser beam to the laser engraved layer through the volume hologram layer from a playback angle at which a playback image of the volume hologram layer can be played back. The laser light used in the drawing process has a wavelength that is reflected by the reproduced image of the volume hologram layer when the laser engraving layer is irradiated with the laser light through the volume hologram layer. The pattern drawn in Fig. 5 is a pattern that is at least partially the same as the pattern of the reproduced image of the volume hologram layer.

  In the present invention, it is preferable that the laser engraving layer is irradiated with laser light from the reproduction angle at which the reproduction image of the volume hologram layer is reproduced. Since the angle of the laser beam applied to the laser engraved layer is the same as the playback angle, the laser beam is selectively reflected in the region where the playback image of the volume hologram layer is played back and incident on the laser engraved layer. Can be blocked. Therefore, the same pattern as that of the reproduced image of the volume hologram layer can be drawn on the laser engraved layer. Here, “the angle of the laser light applied to the laser engraved layer is the same as the reproduction angle” means that the angle of the laser light applied to the laser engraved layer is, for example, ± 5 ° with respect to the reproduction angle. In particular, it is preferably within a range of ± 2 °.

  Here, the reproduction angle at which the reproduction image of the volume hologram layer is reproduced corresponds to the object light angle of the object light irradiated when recording the interference fringes on the volume hologram layer and the reference light angle of the reference light. Accordingly, there are two reproduction angles at which the reproduction image of the volume hologram layer is reproduced. In the drawing process according to the present invention, the laser engraving layer is irradiated with laser light from the same angle as the reproduction angle. Of the two reproduction angles, the one that is closer to the surface of the volume hologram layer. The laser engraving layer is preferably irradiated with laser light from the same angle as the reproduction angle. The “reproduction angle closer to the surface of the volume hologram layer among the two reproduction angles” is closer to 0 ° when the normal of the volume hologram layer is 0 °. Since it corresponds to the object light angle or the reference light angle and is the same as the contents described in the above section “1. Preparation step”, the description is omitted here.

  In the present invention, the laser light irradiated to the laser engraved layer preferably has the same wavelength as the reproduction wavelength for reproducing the reproduction image of the volume hologram layer. Thereby, in the region where the reproduced image of the volume hologram layer is reproduced, the laser beam is reflected on the volume hologram layer, and the same pattern as the reproduced image of the volume hologram layer can be drawn on the laser engraved layer. Here, the “reproduction wavelength for reproducing the reproduction image of the volume hologram layer” refers to the same wavelength as the reference light used when recording interference fringes on the volume hologram layer. Specifically, it means that the wavelength peak at the reproduction wavelength is within a range of ± 10 nm of the wavelength peak of the reference light. Further, “having the same wavelength as the reproduction wavelength” means that the laser light applied to the laser engraved layer has the same wavelength as the reproduction light for reproducing the reproduction image of the volume hologram layer. Specifically, the laser light applied to the laser engraved layer preferably has a wavelength peak within the range of, for example, ± 10 nm of the reproduction wavelength for reproducing the reproduction image of the volume hologram layer, and in particular within the range of ± 5 nm. It is preferable to have a wavelength peak. The laser beam irradiated to the laser engraved layer has a wavelength peak in the above-mentioned range, so that the laser beam is selectively reflected in the region where the reproduced image of the volume hologram layer is reproduced and incident on the laser engraved layer. Can be blocked. In other words, the laser light applied to the laser engraved layer preferably has a wavelength reflected by the reproduced image of the volume hologram layer. Therefore, the same pattern as that of the reproduced image of the volume hologram layer can be drawn on the laser engraved layer.

  In the drawing process according to the present invention, the pattern is drawn by coloring with irradiation of laser light. At this time, the laser light is irradiated through the volume hologram layer from the reproduction angle of the reproduction image of the volume hologram layer. The laser beam is reflected by the volume hologram layer in the region where the reproduced image of the volume hologram layer is reproduced, and the laser beam is transmitted through the volume hologram layer in the region where the reproduced image of the volume hologram layer is not reproduced. Therefore, in the laser engraved layer, the region corresponding to the region where the reproduced image of the volume hologram layer is reproduced is not irradiated with the laser beam, and the region corresponding to the region where the reproduced image of the volume hologram layer is not reproduced. Laser light is irradiated. In the region of the laser engraved layer irradiated with laser light, the material contained in the laser engraved layer develops or changes color. At this time, the laser engraved layer that is colored or discolored exhibits not only the presence or absence of color development or discoloration, but also the shade of the hue. The shade of the hue can be adjusted by, for example, the amount of laser light incident on the laser engraved layer. The amount of laser light incident on the laser engraved layer can be adjusted depending on the brightness of the diffracted light in the reproduced image, as described in the section “1. Preparation step” above.

  The drawing step is a step of drawing a pattern by irradiating the laser engraved layer with laser light. The detailed description of this step is the same as the contents described in “A. Volume hologram laminate (1) Volume hologram layer” and “A. Volume hologram laminate (2) Laser engraved layer”. Therefore, the description is omitted here.

3. Other Steps The method for producing a volume hologram laminate of the present invention only needs to have the above-described preparation step and drawing step, and may have other steps as necessary. As another process, the process of forming an overcoat layer in the surface on the opposite side to the support layer of a laser engraved layer is mentioned, for example.

  The overcoat layer forming step in the present invention may be performed before the drawing step or after the drawing step. For example, as shown in FIG. 1A, when manufacturing a volume hologram laminate 10 in which a support layer 1, a laser engraved layer 2, a volume hologram layer 3 and an overcoat layer 4 are laminated in order, The laser engraved layer 2 is disposed on one surface of the layer 1, and then the volume hologram layer 3 on which interference fringes are recorded in the first step is disposed on the surface of the laser engraved layer 2 opposite to the support layer 1. After that, the laser engraving layer 2 is irradiated with laser light through the volume hologram layer 3 in the drawing process, and then the surface of the volume hologram layer 3 opposite to the laser engraving layer 2 is overcoated in the overcoat layer forming process. The volume hologram laminate 10 can be manufactured by forming a layer. On the other hand, for example, as shown in FIG. 1B, when manufacturing a volume hologram laminate 10 in which a support layer 1, a laser engraved layer 2, an overcoat layer 4 and a volume hologram layer 3 are laminated in order, The laser engraved layer 2 is disposed on one surface of the support layer 1, and then the overcoat layer is formed on the surface opposite to the support layer 1 of the laser engraved layer 2 by the overcoat layer forming step. After the volume hologram layer 3 in which the interference fringes are recorded by the first step is arranged on the surface of the laser engraved layer 2 opposite to the support layer 1, the volume hologram layer 3 is formed on the laser engraved layer 2 through the volume hologram layer 3 by the drawing step. The volume hologram laminate 10 can be manufactured by irradiation with laser light.

  In addition, in the manufacturing method of the volume hologram laminated body 10 shown to Fig.1 (a) mentioned above, the support layer 1, the laser engraved layer 2, the volume hologram layer 3, and the overcoat layer 4 are laminated | stacked in order after an overcoat layer formation process. You may have the process of pressing the compressed laminated body and compressing. On the other hand, in the manufacturing method of the volume hologram laminate 10 shown in FIG. 1B described above, a laminate in which the support layer 1, the laser engraved layer 2, and the overcoat layer 4 are laminated in this order after the overcoat layer forming step. You may have the process of pressing and compressing. As described above, by having the step of pressing and compressing the laminated body in which the predetermined members are laminated, the respective members constituting the compressed laminated body are integrated. Therefore, it becomes difficult to take out each member and the security can be improved.

C. Information recording medium An information recording medium of the present invention is a product having the volume hologram laminate described above.

  FIG. 7A is a schematic plan view showing an example of the information recording medium of the present invention. Moreover, FIG.7 (b) is the AA sectional view taken on the line of Fig.7 (a). As shown in FIGS. 7A and 7B, the information recording medium 100 of the present invention has a volume hologram laminate 10. The volume hologram laminate 10 shown in FIGS. 7A and 7B is the same as the volume hologram laminate 10 described with reference to FIG. Further, the information recording medium 100 of the present invention may have a base material 5. For example, in the information recording medium 100 shown in FIGS. 7 (a) and 7 (b), the base material 5 and a volume hologram laminate are provided. 10 is used as a single member. Furthermore, as shown to Fig.7 (a), (b), in this invention, the printing layer 6 may be arrange | positioned in the same surface as the surface where the volume hologram laminated body 10 of the base material 5 is arrange | positioned. .

  According to the present invention, an image recording medium having a high anti-counterfeit function can be obtained by having at least a part of the pattern of the reproduced image of the volume hologram layer and the pattern drawn on the laser engraved layer the same pattern. Can do. An information recording medium having an excellent security function by determining whether or not the pattern of the reproduced image of the volume hologram layer and the pattern drawn on the laser engraved layer are at least partially the same pattern, can do. In addition, about description of a specific effect, since it can be made to be the same as that of the content described in the term of the said "A. volume hologram laminated body", description here is abbreviate | omitted.

  Hereinafter, the configuration and use of the information recording medium of the present invention will be described.

1. Configuration The information recording medium of the present invention has a volume hologram laminate. In addition, the information recording medium of the present invention includes a substrate disposed on the surface of the volume hologram layer on the support layer side, and a printed layer disposed on the same surface as the surface on which the volume hologram laminate of the substrate is disposed. You may have.

  Hereinafter, each configuration in the information recording medium of the present invention will be described.

(1) Volume hologram laminate The volume hologram laminate in the present invention is opposite to the support layer, the laser engraved layer that is arranged on one surface of the support layer and develops color when irradiated with laser light, and the support layer of the laser engraved layer. The volume hologram layer is arranged on the side surface and has interference fringes recorded, the laser engraved layer has a pattern drawn by laser light irradiation, and the volume hologram layer reproduces the reproduced image by the interference fringes The pattern drawn on the laser engraved layer is characterized in that at least a part is the same as the pattern of the reproduced image of the volume hologram layer.

  The volume hologram laminate used for the information recording medium of the present invention can be the same as the contents described in the above section “A. Volume hologram laminate”, and therefore description thereof is omitted here.

(2) Printed layer In this invention, the printed layer may be arrange | positioned on the same surface as the surface where the volume hologram laminated body of the base material is arrange | positioned.

  The printed layer in the present invention can have information different from that of the volume hologram laminate. Examples of information that the print layer has include character information such as characters, symbols, marks, illustrations, characters and other designs, company names, product names, sales points, catch phrases, and the like.

  Examples of the material constituting the printing layer include general printing ink. Examples of the printing ink include a material containing a colorant such as a pigment or a dye and a binder resin.

  The printed layer in the present invention is usually disposed on the same surface as the surface on which the volume hologram laminate of the substrate is disposed. Here, “the same surface as the surface on which the volume hologram laminate of the substrate is disposed” may be at any position as long as it is the substrate surface on which the volume hologram layer is disposed. That is, the printing layer may be disposed at a position that does not overlap the volume hologram laminate on the substrate surface, or may be disposed at a position that overlaps the volume hologram laminate on the substrate surface. When the print layer is disposed at a position overlapping the volume hologram laminate on the substrate surface, the print layer is, for example, on the surface opposite to the substrate of the volume hologram laminate and the volume hologram laminate. It may overlap or may overlap the volume hologram laminate between the volume hologram laminate and the substrate. When the print layer and the volume hologram layer overlap, the entire print layer may overlap the volume hologram laminate, or a part of the print layer may overlap the volume hologram laminate.

  The thickness of the printing layer in the present invention can be appropriately adjusted according to the use of the information recording medium of the present invention, and is not particularly limited. Therefore, the description about the thickness of a printing layer is abbreviate | omitted.

  Examples of the method for forming a printing layer in the present invention include general printing methods such as offset printing, gravure printing, flexographic printing, letterpress printing, screen printing, ink jet printing, sublimation transfer printing, and melt transfer printing. Further, the printing layer may be formed by a transfer method.

(3) Base material The base material in this invention is a member which supports the volume hologram laminated body and printing layer which were mentioned above.

  As shown in FIG. 7B, the substrate in the present invention may be used as the same member as the support layer 1 in the volume hologram laminate, and although not shown, it is different from the support layer in the volume hologram laminate. It may be the body.

  In addition, about the base material in this invention, since it can be made to be the same as that of the content described in the said "A. Volume hologram laminated body 1. Structure (3) Support layer" description, description here is abbreviate | omitted.

(4) Other members The information recording medium of the present invention may have other members as needed in addition to the members described above.

  Examples of other members in the present invention include an antistatic layer, an adhesive layer or a pressure-sensitive adhesive layer, a release layer, a magnetic recording layer, an IC chip, an optical recording layer, and the like. be able to.

2. Uses Examples of the use of the information recording medium of the present invention include gift certificates, securities, stock certificates, etc., various cards such as magnetic cards, IC cards, tickets, banknotes, passports, identification cards, public competition voting tickets, etc. Is mentioned.

  The present invention is not limited to the above embodiment. The above-described embodiment is an exemplification, and the present invention has any configuration that has substantially the same configuration as the technical idea described in the claims of the present invention and that exhibits the same effects. Are included in the technical scope.

DESCRIPTION OF SYMBOLS 1 ... Support layer 2 ... Laser engraved layer 3 ... Volume hologram layer 4 ... Overcoat layer 10 ... Volume hologram laminated body 100 ... Information recording medium

Claims (7)

A support layer, a laser engraved layer that is disposed on one surface of the support layer and develops color when irradiated with laser light, and is disposed on a surface opposite to the support layer of the laser engraved layer, and is reproduced by interference fringes. A volume hologram laminate having a volume hologram layer on which is recorded,
The laser engraved layer has a pattern,
The volume hologram laminate, wherein the pattern of the laser engraved layer is at least partly the same as the pattern of the reproduced image of the volume hologram layer.   2. The volume hologram according to claim 1, wherein the reproduced image of the volume hologram layer forms an image within 40 mm above and below the volume hologram layer from at least one surface of the volume hologram layer. Laminated body.   The volume hologram laminate according to claim 1, further comprising an overcoat layer on a surface of the laser engraved layer opposite to the support layer. A support layer, a laser engraved layer that is disposed on one surface of the support layer and develops color when irradiated with laser light, and is disposed on a surface opposite to the support layer of the laser engraved layer, and is reproduced by interference fringes. Preparing a laminate having a volume hologram layer on which is recorded,
A drawing step of drawing a pattern by irradiating the laser engraved layer with a laser beam through the volume hologram layer from a reproduction angle at which a reproduction image of the volume hologram layer can be reproduced;
The laser beam used in the drawing step has a wavelength reflected by the reproduced image of the volume hologram layer when the laser engraving layer is irradiated with the laser beam through the volume hologram layer,
The method of manufacturing a volume hologram laminate, wherein the pattern drawn on the laser engraved layer by the drawing step is at least partly the same as the pattern of the reproduced image of the volume hologram layer.   The volume hologram laminate according to claim 4, wherein the laser beam used in the drawing step has a wavelength peak within a range of ± 10 nm of a reproduction wavelength for reproducing a reproduction image of the volume hologram layer. Production method. The reproduction angle is an angle formed with the normal line of the volume hologram layer.
The method for producing a volume hologram laminate according to claim 4 or 5, wherein the volume hologram laminate is 60 ° or less.   An information recording medium comprising the volume hologram laminate according to any one of claims 1 to 3.