JPH03114872A - Print and discriminating method thereof - Google Patents

Abstract

PURPOSE:To color-develop printing information incapable of being discriminated by the naked eye by irradiating ultraviolet rays without using black ink, and to enable discrimination by mixing a photochromic compound with each ink of yellow, cyan and magenta and employing the compound and manufacturing a print. CONSTITUTION:A substrate carrying printing information is provided, where the substrate holds a region having characteristics incapable of being visually discriminated by the naked eye, and the region is composed of the combination of a section including no photochromic compound and a section including the photochromic compound having same visual appearance. Accordingly, when printing information incapable of being discriminated by the naked eye is irradiated with ultraviolet rays or light having other wavelengths, blue is discolored to black through color mixing with mixed ink and identified, and identification is enabled through infrared reflection or absorption detector when absorption takes place in a near infrared or infrared region.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to printed matter having printed information that cannot be discerned with the naked eye, and a method for identifying the same.

[Conventional technology]

A device has been invented that consists of a substrate with printing intelligence. This principle uses, for example, changes in capacitance or magnetic reductance as the scanning head moves across the paper, and special inks such as magnetic or metallic inks can be used to provide such changes. . It is also possible to print on a paper substrate by four-color lithography and use the amount of black ink deposited as an operating variable for the detector. That is, it is impossible to distinguish with the naked eye a black printed area resulting from simultaneous printing of yellow + cyan + magenta and a black printed area resulting from printing with black ink. Conventional yellow, cyan, and magenta inks are infrared transparent, and the carbon black in Lidoblack ink has high infrared absorption, so an infrared reflection/absorption detector can easily distinguish the two black prints on infrared reflective paper. can do. A device for performing such identification includes an infrared emitter designed to emit infrared radiation from the tip and an infrared detector designed to respond to the intensity of reflected infrared radiation at the tip. is commercially available. As a perceptible indication in the device, for example, a lamp or a clear tone can be used to identify the device.
No. 0147).

As mentioned above, in conventional four-color lithographic printing technology,
Black can be printed by using a combination of yellow, cyan, and magenta inks, with virtually no black ink, or by using less color ink and more black ink. With careful control, both can be used to produce prints that appear the same color to the naked eye, but look very different to infrared wavelengths. That is, a printed portion that is identified by infrared absorption can be hidden from the naked eye by the presence of another mark that cannot be identified at non-infrared wavelengths. The reason is that the human eye typically has approximately 38
It has visible light responsivity in the range 0-750nm, with a peak response in the range 500-600nm, and semiconductor infrared emitters and detectors typically have a peak spectral sensitivity in the range 800-11000nm. This is because black lithographic ink exhibits absorption properties at this wavelength, while black colors consisting of yellow, cyan, and magenta inks are transparent to infrared rays.

As an infrared identification device, for example, an audible display is provided by pressing a pen.

In this case, the display may be a visible or olfactory display.

Low absorption in identification is typically caused by 15% in the printed patch.
%, the audible display shows a low tone, the intermediate absorption rate corresponds to a proportion between 15 and 70%,
The audible display indicates a medium tone, and the high absorption rate corresponds to a proportion of black ink of 70% or more, and the audible display indicates a high tone.

[Problem to be solved by the invention]

However, since the conventional techniques described above use black ink, there are restrictions on the color of the ink that can be used. In addition, since the operation of controlling black ink is added,
The disadvantage is that the process is complicated.

Therefore, an object of the present invention is to solve the problems of the conventional products and provide a printed matter and a method for identifying the printed matter that can print in any color in a printed part that cannot be discerned with the naked eye. shall be.

[Means to solve the problem]

Therefore, in the present invention, among the inks used in each printing process of letterpress printing, offset printing, gravure printing, and screen printing, for example, an ink that is a mixture of yellow and magenta, and the mixed ink is irradiated with ultraviolet light. Then, an ink mixed with a photochromic compound that develops a blue color, or an ink mixed with a photochromic compound that absorbs in the near-infrared to infrared region when irradiated with ultraviolet light or light of other wavelengths is prepared. By producing printed matter using ink mixed with the above-mentioned photochromic compound and ink of the same color that is not mixed with it, printed information that cannot normally be identified with the naked eye can be transmitted with two rays of ultraviolet rays or other wavelengths of light. In the case of blue coloring, the color is changed to black by mixing with mixed ink to make it distinguishable, and in the case of absorption in the near-infrared or infrared region, it is made so that it can be identified with an infrared reflection or absorption detector. There is.

That is, the printed matter of the present invention has a substrate carrying printed information, the substrate carrying a region with a property that is not visually discernible to the naked eye, and said region is a photochromic compound that is visually identical on its surface. It is characterized in that it consists of a combination of a region portion that does not contain a photochromic compound and a region portion that contains a photochromic compound.

As the photochromic compound, it is preferable to use a photochromic compound that absorbs in the near-infrared region or infrared region when irradiated with ultraviolet light or light of other wavelengths, or a photochromic compound that develops color when irradiated with ultraviolet light. In this case, it is desirable that the color developed by ultraviolet light irradiation be a color that mixes with the color of the area to become black.

In these cases, the substrate is printed using letterpress printing, offset printing, gravure printing, or screen printing, or a combination thereof, and includes portions printed with ink that does not contain photochromic compounds and portions that are printed with ink that does not contain photochromic compounds. Most typically, it has a portion printed with ink containing.

As a method for identifying such printed matter, when using a photochromic compound that absorbs in the near-infrared region or infrared region when irradiated with ultraviolet light or light of other wavelengths, the printed matter is irradiated with ultraviolet light or other wavelengths. By irradiating light of other wavelengths and detecting reflection or absorption in the near-infrared or infrared region, it is possible to visually distinguish between an area that does not contain a photochromic compound and an area that contains a photochromic compound, which are the same on the surface. be identified.

When using a photochromic compound that develops color when irradiated with ultraviolet light as the photochromic compound, it does not contain a photochromic compound that visually remains the same on the surface when the printed matter is not irradiated with ultraviolet light due to a color change when the printed material is irradiated with ultraviolet light. The area portion and the area portion containing the photochromic compound are identified.

[Effect]

The ink used in the printed matter and the identification method of the present invention is an ink prepared by mixing the following photochromic compound with yellow, cyan, and magenta inks used in ordinary printing inks. That is, thioindigo, spiropyran (indolinobenzobilane spiropyran, benzothiobilane spiropyran), fulgide, tetrabenzopentacene, azobenzene, spirooxazines, and stilbene derivatives.

A part printed with an ink that does not contain such a photochromic compound and a part printed with an ink that contains such a photochromic compound are printed in such a way that they cannot be distinguished with the naked eye, but they are treated as photochromic compounds. When a photochromic compound having absorption in the near-infrared region or infrared region is used for irradiation with ultraviolet light or light of other wavelengths, when the printed matter is irradiated with ultraviolet light or light of other wavelengths, near-infrared light Since reflection or absorption in the outer or infrared region is different, identification can be made by detecting this reflection or absorption. Furthermore, when a photochromic compound that develops color when irradiated with ultraviolet light is used as the photochromic compound, when the printed material is irradiated with ultraviolet light, the color changes, so that it can be identified by this change.

〔Example〕

Embodiments of the present invention will be described below with reference to the drawings.

Sublimation transfer ink magenta (MSRedG2.41%
, Macrolex R,V,R.

1.29%, BV-570.4%, BV-12.75%
, KT-1133, 15%, MP8F0.06%) 50
weight part, yellow (F.

ran Br1lliant Yellow S
-6GL 2.7%, BV-566,0%, BL-3
22,91%, KT-1118, 39%) and 50 parts by weight of spiropyran, and 5 parts by weight of spiropyran and other inks were prepared and applied in parallel on a paper substrate. Two types of samples of the same color are irradiated with light having a center wavelength of 600 nm as shown by the dotted line in Figure 1, and PR is performed.
ICE 5TERN Manufactured by 5LOAN (LO9An
When irradiated with ``geles)rQuestron,'' it was possible to distinguish between negative display (medium tone, ink only) and positive display (high tone, containing spiropyran).

The above-mentioned identification device is one example, and specifically, discrimination is performed based on the reflection or absorption characteristics of ink.

That is, when irradiated with light having a center wavelength of 600 nm as shown by the dotted line in Fig.
Since absorption increases in the near-infrared region having a center wavelength of 0 nm, it can be determined based on the magnitude of absorption in this region.

[Effects of the Invention] As described above, according to the present invention, printed matter is produced by mixing a photochromic compound with yellow, cyan, and magenta inks used in letterpress, offset, gravure, and screen printing processes. By creating
Printed information that cannot be identified with the naked eye can be made distinguishable without using black ink by irradiating it with ultraviolet light to develop color, or by irradiating it with ultraviolet light or light of other wavelengths to make it distinguishable by near-infrared or near-infrared light. By causing absorption in the infrared region, it becomes possible to identify this with an infrared reflection or absorption detector, and it can be used as printed matter for counterfeit prevention, educational purposes, and recreational (premium) purposes.

[Brief explanation of drawings]

Figure 1 is photochromic Spectrum of light shining on the screen FIG. The mixture of compounds Torr distribution and absorption spectra applicant

Claims (7)

[Claims] (1) having a substrate with printed information, the substrate having a region having a property that is not visibly discernible to the naked eye, the region being visually identical to a portion of the region that does not contain a photochromic compound; and a region containing a photochromic compound. (2) The printed matter according to claim 1, wherein the photochromic compound is a photochromic compound that absorbs in the near-infrared region or infrared region when irradiated with ultraviolet light or light of other wavelengths. . (3) The printed matter according to claim 1, wherein the photochromic compound is a photochromic compound that develops color when irradiated with ultraviolet light. (4) The printed matter according to claim 3, wherein the color developed by irradiation with ultraviolet light is a color that becomes black when mixed with the color of the area. (5) In the printed matter according to any one of claims 1 to 4, the substrate is printed using one or a combination of letterpress printing, offset printing, gravure printing, or screen printing. . The printed matter, characterized in that it has a portion printed with an ink not containing a photochromic compound and a portion printed with an ink containing a photochromic compound. (6) In the method for identifying printed matter according to claim 2 or 5, the printed matter is irradiated with ultraviolet light or light of other wavelengths and the reflection or absorption in the near-infrared or infrared region is detected. The above-mentioned identification method is characterized in that an area portion not containing a photochromic compound and an area portion containing a photochromic compound which are the same on the surface are identified. (7) In the method for identifying a printed matter according to any one of claims 3 to 5, the printed material is irradiated with ultraviolet light and the color changes, so that the photochromic material is visually the same on the surface when not irradiated with ultraviolet light. The above-mentioned identification method is characterized in that an area portion that does not contain a compound and an area portion that contains a photochromic compound are identified.