JP6575307B2 - Printed matter and manufacturing method thereof - Google Patents

Description

  The present invention relates to a printed matter having a latent image composed of infrared absorbing ink and a concealing layer covering the latent image, and the latent image cannot be read with the naked eye, and is read using infrared rays.

  A printed material in which an infrared-absorbing latent image is covered with an infrared-transmitting concealing layer is known (Patent Document 1). Such a printed material cannot read a latent image with the naked eye, but can read a latent image by photographing with an infrared camera. For this reason, this printed matter is used as a technique for determining the authenticity of securities by using them as securities.

JP 2000-309736 A

  However, for example, when this technology is used for an event admission ticket or an invitation ticket, it is only used to determine the authenticity of the admission ticket or the invitation ticket, and becomes unnecessary after the authenticity determination. It was a thing.

  Therefore, an object of the present invention is to provide a printed matter that can be used for admission management of visitors and organizers after the authenticity determination.

That is, the invention according to claim 1 is a base sheet,
Latent images arranged in an image pattern on this base sheet and composed of infrared absorbing ink,
A release layer aligned with this latent image and superimposed in an image pattern,
A concealing layer disposed over the release layer and composed of an infrared transmissive ink;
A peeling sheet disposed by adhering to the concealing layer;
It is printed matter characterized by comprising.

  Next, the invention according to claim 2 is the printed matter according to claim 1, wherein the concealing layer has a color similar to that of the latent image.

  The invention according to claim 3 is the printed matter according to claim 1, wherein the infrared absorbing ink constituting the latent image is visible light transmissive.

  The invention according to claim 4 is the printed matter according to any one of claims 1 to 3, wherein the base sheet is infrared reflective.

  The invention according to claim 5 is the printed matter according to any one of claims 1 to 4, wherein the latent image has a machine-readable image pattern shape.

The invention according to claim 6 is a latent image printing step of printing a latent image in the form of an image pattern on a base sheet using an infrared absorbing ink,
A release layer forming step in which a release layer is formed by applying a release agent in an image pattern in alignment with the latent image,
A concealing layer printing process in which a concealing layer is printed by covering the release layer using an infrared transmissive and ultraviolet curable ink.
A concealing layer curing step of irradiating ultraviolet rays to cure the ultraviolet curable ink,
A peeling sheet bonding step for bonding the peeling sheet on the masking layer,
It is a manufacturing method of printed matter characterized by comprising.

The invention according to claim 7 is a latent image printing step of printing a latent image in the form of an image pattern on a base sheet using an infrared absorbing ink,
A release layer forming step in which a release layer is formed by applying a release agent in an image pattern in alignment with the latent image,
A concealing layer printing process for printing the concealing layer on the release sheet using an infrared transmissive and ultraviolet curable ink;
Adhering step of adhering the base sheet and the release sheet so that the release layer and the concealment layer face each other, and covering the release layer with the concealment layer,
After this bonding step, a concealing layer curing step of irradiating ultraviolet rays to cure the ultraviolet curable ink,
It is a manufacturing method of printed matter characterized by comprising.

  The printed matter of the present invention comprises a latent image composed of an infrared absorbing ink, and a release layer that is aligned with the latent image and superimposed in an image pattern, and covers both of these and a concealing layer. A peeling sheet is disposed.

  Therefore, first, when this printed matter is affixed to an admission ticket or an invitation ticket for an event or the like, the latent image can be read and photographed by an infrared camera to determine its authenticity.

  After confirming that these admission tickets and invitation tickets are authentic, the latent image can be visualized by peeling the peeling sheet. That is, when the peeling sheet is peeled off, the peeling layer is aligned and superimposed on the latent image, so that the peeling is performed between the latent image and the masking layer. On the other hand, since there is no peeling layer around the latent image, peeling occurs between the peeling sheet and the hiding layer.

  For this reason, the masking layer in the shape of the latent image, that is, the image pattern shape, remains on the release sheet. This image pattern-like concealing layer can be read with the naked eye. The release sheet thus formed with the image pattern-like concealing layer can be used for the purpose of entrance management and the like.

  On the other hand, in the base sheet, the latent image and the release layer remain in the shape of the image pattern, and the concealing layer remains around the periphery. For this reason, the image pattern can be read by, for example, an infrared camera, and this base sheet can also be used for purposes such as entrance management. When the infrared absorbing ink constituting the latent image is visible light transmissive, the image pattern can be read with the naked eye.

FIG. 1 relates to a specific example of the present invention, FIG. 1 (a) is a plan view thereof, and FIG. 1 (b) is a cross-sectional view of an essential part taken along line XX of FIG. 1 (a). It is explanatory drawing of the process of reading the latent image of this invention. It is explanatory drawing of the process of peeling the sheet | seat for peeling of this invention. It is explanatory drawing of the process of reading the image pattern of the sheet | seat for peeling after peeling. It is explanatory drawing of the process of reading the latent image after peeling. It is the spectral reflectance curve which irradiated the light to the printing ink film printed on the white paper, and measured the reflectance.

  Next, the printed matter of the present invention will be described using an event admission ticket as an example. FIG. 1A is a plan view thereof, and FIG. 1B is a cross-sectional view of an essential part taken along line XX of FIG.

  As can be seen from FIG. 1, the admission ticket 1 is printed with various information related to the event, and in addition to this, the latent image forming unit 2 is arranged on the base sheet 21. In the latent image forming unit 2, a latent image 22 is disposed on the base sheet 1 of the admission ticket 1, and the latent image 22 is composed of infrared absorbing ink. The latent image 22 is arranged in an image pattern.

  As the base material sheet 21, a material that reflects infrared rays can be preferably used. For example, paper. Moreover, the sheet | seat which permeate | transmits infrared rays may be sufficient. Examples thereof include plastic sheets such as polyethylene terephthalate sheet, polyethylene naphthalate sheet, polycarbonate sheet, polyvinyl chloride sheet, polyvinylidene chloride sheet, polystyrene sheet, polyimide sheet, polyamide sheet, polypropylene sheet, and expanded polypropylene sheet. The thickness may be 50-100 μm. Preferably, it is about 75 μm.

  Further, as the infrared absorbing ink constituting the latent image 22, chromatic process ink generally used for printing can be used. For example, black ink using carbon black as a pigment is used. FIG. 6 is a spectral reflectance curve obtained by irradiating a printing ink film printed on white paper with a light beam and measuring its reflectance. In this reflected light, in addition to the reflected light component by the printing ink film, The component which permeate | transmitted the printing ink film and was reflected by the white paper is contained. In the figure, A indicates a spectral reflectance curve of black ink for general printing (FD Carton ACE black ink manufactured by Toyo Ink Co., Ltd.) using carbon black as a pigment.

  In addition, as the infrared absorbing ink constituting the latent image 22, visible light transmissive ink can be used. For example, an ink using tin-doped indium oxide powder as a pigment. Moreover, the ink which grind | pulverized the heat ray absorption glass and the infrared absorption glass, and was used as the pigment can also be used.

  Note that the image pattern formed by the latent image 22 indicates that the printed material is authentic, and may be an arbitrary pattern as long as it fulfills this function. For example, image patterns such as characters and symbols. Further, in the case of a bar code or two-dimensional code pattern, in addition to the function of ensuring that the printed matter is authentic, the function of displaying various information can be achieved. An example of the two-dimensional code is a QR code (registered trademark). For example, the URL of the event organizer can be displayed by the QR code (registered trademark).

  The latent image 22 can be formed by a printing method such as a gravure printing method or an offset printing method. The thickness of the latent image 22 may be 0.5 to 1.0 μm.

  Next, on the latent image 22, a peeling layer 23 is arranged in an image pattern in alignment with the latent image 22. The release layer 23 has a function of easily peeling the latent image 22 and a concealing layer 24 described later, and for example, a silicone release agent can be used. A wax such as polyethylene wax can also be used. The thing whose melting | fusing point is 80-100 degreeC is desirable. When the melting point is less than 80 degrees, peeling between the latent image 22 and the masking layer 24 may be difficult. The thickness of the release layer 23 may be 0.5 to 3.0 μm.

A concealing layer 24 is provided to cover the latent image 22 and the release layer 23. The masking layer 24 needs to be formed of ink that blocks visible light and transmits infrared rays. Further, the concealing layer 24 needs to be easily peelable from the release layer 23 and difficult to peel from the base sheet 1. For this reason, as will be described later, when the peeling sheet 25 is peeled from the base sheet 21, the concealing layer 24 is divided into two types of regions, and the peeling sheet 25 is overlapped with the peeling layer 23. At the same time, the substrate sheet 21 is peeled off. Further, the region that does not overlap the release layer 23, that is, the region in which the concealing layer 24 is in contact with the base material sheet 21 remains on the base material sheet 21.

  Examples of the ink that blocks visible light and transmits infrared light include ink containing a perylene black pigment. In FIG. 6, B shows a spectral reflectance curve obtained by printing an ink containing a perylene-based black pigment on white paper, irradiating the printed ink film with light rays, and measuring the reflectance. The thickness of the masking layer 24 may be 1 to 6 μm. Desirably, it is 2-4 micrometers. Further, as this ink, it is desirable to use an ultraviolet curable ink having an ultraviolet curable resin as a binder.

  A release sheet 25 is detachably bonded to the masking layer 24 from the masking layer 24. The peeling sheet 25 needs to be infrared transmissive. Examples thereof include plastic sheets such as a polyethylene terephthalate sheet, a polyethylene naphthalate sheet, a polypropylene sheet, a polycarbonate sheet, a polyvinyl chloride sheet, a polyvinylidene chloride sheet, a polystyrene sheet, a polyimide sheet, and a polyamide sheet. Cellophane, condenser paper, paraffin paper, and the like may also be used. The thickness may be 2 to 50 μm. Desirably, it is 2-16 micrometers.

  This admission ticket 1 can be manufactured in various steps.

  For example, first, the latent image 22 and the release layer 23 are sequentially formed on the base sheet 21. Next, the masking layer 23 is formed by printing ultraviolet curable ink that blocks visible light and transmits infrared light, and irradiates the ultraviolet light to cure the ink. And this admission ticket 1 can be manufactured by adhere | attaching the sheet | seat 25 for peeling using an adhesive agent.

  Moreover, it is also possible to manufacture by the following method. That is, first, the latent image 22 and the release layer 23 are sequentially formed on the base sheet 21. On the other hand, ultraviolet curable ink that blocks visible light and transmits infrared light is printed on the peeling sheet 25. Then, the base sheet 21 provided with the latent image 22 and the release layer 23 and the release sheet 25 on which the masking layer 24 is printed with the ultraviolet curable ink are faced to each other so that the release layer 23 and the masking layer 24 face each other. The release layer 23 is covered with a concealing layer 24 by bonding. Finally, the entrance ticket 1 can be manufactured by forming the concealing layer 23 by irradiating ultraviolet rays to cure the ink.

  Next, this admission ticket 1 can be used as follows. That is, first, the image pattern of the latent image 22 is read by the infrared information reader 3 such as an infrared camera at the entrance of the event (see FIG. 2). If this image pattern is a predetermined pattern, it can be estimated that this admission ticket 1 is authentic. If the image pattern cannot be read or is different from the predetermined pattern, it is not a genuine admission ticket. Moreover, the admission ticket from which the peeling sheet 25 has already been peeled off is treated as invalid, for example.

And what was confirmed with the genuine entrance ticket 1 peels the sheet | seat 25 for peeling at this entrance. In the peeling process, as described above, the masking layer 24 is divided into two types of regions. That is, as shown in FIG. 3, the peeling layer 23 masking layer 24 _first region superimposed on the peeled from the base sheet 21 with the peeling sheet 25. The area that is not superimposed on the peeling layer 23, i.e., the masking layer 24 _{and second} region concealing layer 24 is in contact with the base sheet 21 remains on the base sheet 21.

  The release sheet 25 thus peeled off from the base material sheet 21 is handed to, for example, an attendant, and the base material sheet 21 remaining after peeling off the release sheet 25 can be left on the organizer side at the entrance window. .

Image pattern masking layer 24 ₁ is release layer 23 remaining on the release sheet 25, i.e., is directly reflected in the image pattern of the latent image 22, moreover, the color the masking layer 24 ₁ that blocks visible light Therefore, it can be read by the information reading device 4 such as a camera. For this reason, when the image pattern of the peeling sheet 25 handed to the visitors represents the URL of the organizer, it is possible to access the organizer's home page by taking a picture with a camera of a smartphone, for example. . In addition, when this image pattern displays points related to services or services of the organizer or supporters, it can be used as a service ticket or a point ticket for receiving the service. Of course, this image pattern can be read with the naked eye. In this case as well, it can be recorded as an event entry record.

Further, the remaining base sheet 21 a release sheet 25 is peeled off, since the infrared absorbing the latent image 22 and the concealing layer 24 ₂ of the periphery is left, the infrared information reading device 3, The image pattern of the latent image 22 can be read (see FIG. 5). When the latent image 22 is composed of a visible light transmittance of the ink, because there is a contrast between the latent image 22 and the concealing layer 24 ₂ of the surroundings, to read an image pattern of the latent image 22 by the naked eye It is also possible. For this reason, when this base material sheet 21 remains on the organizer side, it can be used for event attendee management and used as a reference for the next event or as a material for a trend survey.

  The present invention has been described above by taking an event admission ticket as an example, but it is obvious that the present invention can be used for any other purpose.

1: Admission ticket 2: Latent image forming part 21: Substrate sheet 22: Latent image 23: Release layer 24: Concealing layer
25: Release sheet 3: Infrared information reader 4: Information reader

Claims (7)

A base sheet;
Latent images arranged in an image pattern on this base sheet and composed of infrared absorbing ink,
A release layer aligned with this latent image and superimposed in an image pattern,
A concealing layer disposed over the release layer and composed of an infrared transmissive ink;
A peeling sheet disposed by adhering to the concealing layer;
A printed matter comprising:   The printed matter according to claim 1, wherein the concealing layer has a color similar to a latent image.   The printed matter according to claim 1, wherein the infrared absorbing ink constituting the latent image is visible light transmissive.   The printed matter according to claim 1, wherein the base sheet is infrared reflective.   The printed matter according to claim 1, wherein the latent image has a machine-readable image pattern. A latent image printing process for printing a latent image in an image pattern on a base sheet using an infrared absorbing ink,
A release layer forming step in which a release layer is formed by applying a release agent in an image pattern in alignment with the latent image,
A concealing layer printing process in which a concealing layer is printed by covering the release layer using an infrared transmissive and ultraviolet curable ink.
A concealing layer curing step of irradiating ultraviolet rays to cure the ultraviolet curable ink,
A peeling sheet bonding step for bonding the peeling sheet on the masking layer,
A method for producing printed matter, comprising: A latent image printing process for printing a latent image in an image pattern on a base sheet using an infrared absorbing ink,
A release layer forming step in which a release layer is formed by applying a release agent in an image pattern in alignment with the latent image,
A concealing layer printing process for printing the concealing layer on the release sheet using an infrared transmissive and ultraviolet curable ink;
Adhering step of adhering the base sheet and the release sheet so that the release layer and the concealment layer face each other, and covering the release layer with the concealment layer,
After this bonding step, a concealing layer curing step of irradiating ultraviolet rays to cure the ultraviolet curable ink,
A method for producing printed matter, comprising:

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