JPH06286294A - Information carrier and information reproducer handling this carrier - Google Patents

Abstract

PURPOSE:To provide an information carrier, not only difficult to see a pattern, in which an information is recorded, but also difficult to discover the pattern in a codition as it is even by an infrared camera, and an information reproducer, handling the information carrier. CONSTITUTION:An information carrier is constituted of a substrate 2, having at least an infrared ray reflectivity on the surface thereof, a pattern 3, superposed on the substrate 2 and consisting of infrared ray absorbing ink containing an infrared ray absorbing substance reduced in absorption in the area of visible rays, and a reversible layer 4, constituted of a principal constituent consisting of a resin and an organic low molecular substance dispersed in the resin and whose transmission and reflection of infrared rays are changed reversibly depending on a temperature, which laminated sequentially. The substrate and the pattern will never be recognized visually. Further, information in the reversible layer, provided thereon, can not be read by an infrared ray camera in an ordinary case.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an information carrier which can reproduce information by an information reproducing apparatus using infrared rays and an information reproducing apparatus which handles the information carrier.

[0002]

2. Description of the Related Art As an information carrier capable of reproducing information by an information reproducing device using infrared rays, for example, infrared absorption of carbon black or some leuco dyes is carried out on a substrate having infrared reflectivity. There is one in which a pattern is provided with an infrared absorbing ink to which a substance is applied. A so-called bar code pattern, which is composed of a plurality of thin lines, is often used as the shape of the pattern.

Such an information carrier can reproduce information by an information reproducing device using infrared rays. That is, when infrared rays are radiated to a portion of the substrate on which the pattern is provided, the infrared rays are absorbed, and when infrared rays are radiated to a portion of the substrate on which the pattern is not provided, the infrared rays are reflected. Therefore, the information can be reproduced by detecting the reflected light amount of infrared rays and performing a predetermined binarization process or the like.

By the way, since the infrared absorbing substances such as carbon black and leuco dye applied to the infrared absorbing ink have a light absorbing property even in a visible light region, the (bar code) pattern is used in an information reproducing apparatus. The pattern was readable and visible.

Therefore, when the information carrier is an object such as securities or an ID card that requires security, the pattern is visually observed, so that the information carrier tends to be a target of forgery and falsification.

[0006] It should be noted that a black infrared ray transmissive property, which is obtained by mixing process inks having a property of transmitting infrared rays and having an absorption in a visible light region, is prepared, and it is concealed by printing by superimposing it on the above pattern. A method of making a part and hiding the pattern has also been considered (see JP-A-58-134782).

However, when such a method is adopted, the black concealing portion is exposed on the surface, so that it is easy to be restricted by the design, and due to this, the application target is also limited. In addition, the presence of the above-mentioned concealed portion makes it easy to imagine the presence of a barcode pattern, and as with the case where the pattern is visually observed, it has a drawback of being a target of forgery and falsification.

Therefore, the Applicant has ^proposed that Fe ²⁺ and / or C
An infrared absorbing ink (Japanese Patent Application No. 4-258256) composed of a phosphate-based white crystalline powder material containing u ²⁺ and containing phosphorus pentoxide as a main component was proposed. The above infrared absorbing ink has a white color or a light color, and therefore it is almost difficult to see without providing the above-mentioned concealing portion, and thus the above-mentioned drawbacks have been solved.

However, although the above-mentioned proposal can make it difficult to visually recognize the pattern, the presence of the pattern can be clearly seen when viewed with an infrared camera or the like which is becoming easy to obtain in recent years. Sex must also be considered.

[0010]

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is needless to say that it is difficult to visually check a pattern on which information is recorded. An object of the present invention is to provide an information carrier in which it is difficult to find a pattern and an information reproducing device that handles the information carrier.

[0011]

The invention according to claim 1 is characterized in that at least a surface of the substrate has infrared reflectivity,
A pattern consisting of an infrared-absorbing ink containing an infrared-absorbing substance that absorbs little in the visible light region, and a resin and an organic low-molecular substance dispersed in this resin as the main components, and the transmission and reflection of the infrared rays depending on the temperature. Is an information carrier characterized by being formed by sequentially stacking reversible layers that change reversibly.

The invention according to claim 2 is based on the invention according to claim 1, wherein the infrared absorbing substance contains Fe ²⁺ and / or Cu ²⁺ and contains phosphorus pentoxide as a main component. It is an information carrier characterized in that it is composed of a white crystalline powder material.

The invention according to claim 3 is based on the invention of claim 1, and is an information carrier characterized in that a printing layer is provided on the reversible layer with an infrared ray transmissive ink.

According to a fourth aspect of the present invention, a pattern comprising an infrared absorbing ink containing an infrared absorbing substance having a small absorption in the visible light region on a substrate having at least a surface having infrared reflectivity, a resin, and the resin An information reproducing apparatus for handling an information carrier, which comprises a dispersed organic low-molecular substance as a main component, and a reversible layer whose infrared transmission and reflection change reversibly depending on temperature, is sequentially laminated. A means for heating the reversible layer to be in an infrared transmitting state, a means for injecting infrared rays into the information carrier whose reversible layer is in an infrared transmitting state and detecting the amount of reflected light from the information carrier, and the amount of reflected light From the information carrier, means for reproducing the information recorded on the information carrier, display means for displaying the information, and means for heating the reversible layer to bring it into an infrared reflecting state. That is the information reproducing apparatus.

The invention according to claim 5 is based on the invention according to claim 4, further, the infrared ray is incident on the information carrier whose reversible layer is in the infrared reflecting state and the amount of light reflected from the information carrier is detected. An information reproducing apparatus characterized by comprising:

The embodiments of the present invention will be described in detail below.
FIG. 1 is a partially enlarged view of the information carrier (1) of the present invention,
A pattern (3) composed of an infrared absorbing ink containing an infrared absorbing substance having a small absorption in the visible light region on a substrate (2), a resin and an organic low molecular substance dispersed in the resin as a main component, A reversible layer (4) is formed which reversibly changes the transmission and reflection of infrared rays.
It is also possible to form each layer via an adhesive as needed.

The substrate (2) can be used as a composite of polyvinyl chloride, polyester, polycarbonate, polymethylmethacrylate, plastics such as polystyrene, paper, synthetic paper, etc., alone or in combination.
The substrate (2) is a card, sheet-like physical property required according to the use of the information carrier, for example, strength, rigidity, concealability,
It is possible to select from the above materials in consideration of light opacity and the like. If the substrate alone cannot provide sufficient infrared reflectivity (near infrared region, for example, 60% or more at a wavelength of 780 nm), an infrared reflective layer coated with an infrared reflective substance such as titanium dioxide is formed on the surface. May be.

The pattern (3) made of an infrared absorbing ink containing an infrared absorbing substance having a small absorption in at least the visible light region has a visible light region (wavelength of 380 nm to 70 nm).
(0 nm) has an absorptivity of 20% or less, and in the near-infrared region (wavelength 780 nm), an absorptivity of 60% or more, that is, a layer provided by partially coating an infrared-absorbing ink exhibiting white or light color. is there. The infrared absorbing ink is required to have a small absorption in the visible light region, because the reversible layer concealing property described later is not so large and a pattern may be visually observed in the infrared absorbing ink having a large absorption in the visible light region. Is.

It should be noted that when used in such an infrared absorbing ink
Infrared absorbing material used is Fe ²⁺And / or Cu²⁺
Phosphate white containing phosphorus and containing phosphorus pentoxide as the main component
Color crystal powder material, infrared absorption glass or heat ray absorption
Phosphate glass, sulphate, which is required by crushing and pigmenting glass
Glass-based powder materials such as acid glass can be exemplified.

That is, the invention according to claim 2 is claim 1
Assuming that the information carrier according to
It is characterized in that it is composed of a phosphate-based white crystal powder material containing e ²⁺ and / or Cu ²⁺ and containing phosphorus pentoxide as a main component.

In the invention according to claim 2, the phosphate white crystal powder constituting the infrared absorbing substance contains 20 wt% or more of Fe ²⁺ and / or Cu ^2+, and phosphorus pentoxide (P ₂
O ₅ ) as a crystalline powder, preferably 40 to 70% by weight of the above phosphorus pentoxide, Fe ²⁺ and / or C
A crystal powder containing 30 to 70% of u ²⁺ is desirable.
This phosphate-based white crystal powder is obtained by melting and crystallizing a phosphate-based composition having the above composition to obtain a phosphate-based white crystal and powdering the same. is there. The phosphate white crystal powder may contain the following compounds, if necessary.

Al ₂ O ₃ 2.0 to 10.0 wt% B ₂ O ₃ 1.0 to 30.0 wt% MgO 3.0 to 10.0 wt% ZnO 0 to 3.0 wt% K ₂ O 0 to 15.0 wt% BaO 0 to 10.0 wt% SrO 0 to 1.0 wt% Ni, Co, Se Trace amount

When such a material is used, it has an advantage that the thickness of the pattern can be set thin because of its excellent infrared absorption ability.

Further, although the infrared ray absorbing ability is slightly inferior to the above-mentioned phosphate type white crystal powder, an infrared absorbing substance of a glass type powder material can also be applied.

More specifically, this glass-based powder material is a powder material containing phosphorus pentoxide (P ₂ O ₅ ) as a main component and containing iron oxide and / or copper oxide in an amount of 1.0% by weight or more. Preferably, phosphorus pentaoxide is 35.0% by weight.
It is a glass-based powder material containing 80.0% and 0 to 3.0% of iron oxide and copper oxide, respectively.

If necessary, the glass-based powder material may contain the following compounds. That is,

Al ₂ O ₃ 2.0 to 10.0 wt% B ₂ O ₃ 1.0 to 30.0 wt% MgO 3.0 to 10.0 wt% ZnO 0 to 3.0 wt% K ₂ O 0 to 15.0 wt% BaO 0 to 10.0 wt% SrO 0 to 1.0 wt% Ni, Co, Se Trace amount

Then, the above infrared absorbing material, and
Infrared absorbing ink is obtained by dissolving or dispersing a resin binder such as vinyl chloride-vinyl acetate copolymer resin, saturated polyester, polyurethane elastomer in a solvent, and using this ink, well-known printing means such as letterpress, intaglio, planographic and stencil By printing a pattern such as a bar code, a two-dimensional code, letters and numbers on the above substrate, the film thickness is 1 to 10 μm.
The above pattern set to about m is formed.

In this case, as the solvent, for example, toluene, methyl isobutyl ketone, xylene, cyclohexanol, isobutyl acetate, cyclohexanone, methyl cyclohexanone, glycol derivatives such as ethylene glycol monobutyl ether, or a mixed solvent thereof is applied. it can. The infrared absorbing substance is preferably contained in the infrared absorbing ink composition excluding the solvent in an amount of 80% by weight or less. This is because if the amount exceeds 80% by weight, the pattern becomes matte, infrared rays are reflected on the surface, and the cohesive strength is also limited and the adhesiveness is deteriorated. Further, the resin binder is preferably contained in an amount of 20% by weight or more in the infrared absorbing ink composition excluding the solvent. The infrared absorbing ink may contain a defoaming agent, a lubricant and the like in addition to the above materials.

The above-mentioned pattern has an absorption property in the infrared region but little absorption in the visible light region, so that it is difficult to visually observe, but the existence of the pattern can be clearly seen when viewed with an infrared camera or the like. Therefore, in order to provide security for an infrared camera or the like, the infrared rays are transmitted and reflected depending on the temperature, which is mainly composed of a resin and an organic low-molecular substance dispersed in the resin on the pattern. A reversible layer that changes reversibly is provided.

The main component is a resin and an organic low molecular weight substance dispersed in this resin, and its infrared ray transmission depends on temperature.
The reversible layer (4) whose reflection changes reversibly is described in JP-A-55.
No. 154198, a recording material made of a thermoplastic resin which has a similar refractive index to that of an organic low molecular weight substance, is incompatible with each other, has excellent mechanical strength, and has a good film-forming ability and good transparency. is there. The recording material is heated to a temperature T _1, it becomes transparent state by cooling, heating to high temperature T ₂ than the temperature T _1, the opaque state upon cooling. The cloudiness / transparency was considered to be a reversible reaction only in the visible light region, but the present inventors have found that it is a reversible reaction also in the transmission / reflection in the near infrared region.

Specific examples of the above thermoplastic resin are: vinyl chloride-vinyl acetate copolymer, vinyl chloride-vinyl acetate-vinyl alcohol copolymer, vinyl chloride-vinyl acetate-maleic acid copolymer, vinyl chloride-acrylate. Vinyl chloride copolymer such as copolymer; polyvinylidene chloride resin; vinylidene chloride-vinyl chloride copolymer, vinylidene chloride copolymer such as vinylidene chloride-acrylonitrile copolymer; polyamide resin; silicone resin; polyacrylate or poly There are methacrylate resins or copolymers thereof, and these can be used alone or in combination of two or more.

The organic low molecular weight substance dispersed in the resin material contains at least one atom of oxygen, sulfur, nitrogen and halogen, has 10 to 40 carbon atoms and has a molecular weight of 100 to 700. And has a melting point of 50-
Organic compounds in the range of 150 ° C. are mentioned, and specific examples thereof include higher alcohols such as alkanols, alkanediols, halogenalkanols and halogenalkanediols; higher aliphatic amines; alkanes, alkenes, alkynes and halogen-substituted products thereof. Cyclic compounds such as cycloalkanes, cycloalkenes, cycloalkynes, saturated carboxylic acids, unsaturated monocarboxylic acids, dicarboxylic acids or their esters, amides, ammonium salts; saturated or unsaturated halogen aliphatics or their esters, Amides, ammonium salts; acrylic carboxylic acids or their esters, amides, ammonium salts; halogenallylcarboxylic acids or their esters, amides, ammonium salts; thioalcohols or their carboxylic acid esters;
There are thiocarboxylic acids or their esters, amides, ammonium salts and the like, and these can be used alone or in admixture of two or more.

Then, an organic solution in which these resin materials and organic low molecular weight substances are dissolved, such as methyl ethyl ketone, methyl isobutyl ketone, chloroform, ethanol, benzene, toluene, tetrahydrofuran, carbon tetrachloride, or a solution in which the above resin materials are dissolved. The organic low molecular weight substance is dispersed in the form of fine particles into a dispersion liquid, which is applied on a pattern made of an infrared absorbing ink containing an infrared absorbing substance having a small absorption in the visible light region described above, and dried to be temperature-dependent. A reversible layer that reversibly changes the transmission and reflection of infrared rays is provided.

In the reversible layer, a dye, an ultraviolet absorber or an infrared absorber may be added to the layer for the purpose of improving its optical properties, and for the purpose of improving the coating property and surface lubricity. A lubricant such as a plasticizer or a surface active agent or a flow aid may be added. Further, a protective layer made of a heat resistant resin or a heat resistant film may be formed on the layer for the purpose of further improving the resistance to reversible reaction of transmission and reflection.

When a reversible layer is provided on the above pattern to make it a reflective state, the pattern cannot be detected even by using an infrared camera, and tampering or alteration of the information can be reliably prevented.

Further, when printing (5) is performed on the reversible layer with the ink having infrared transparency, the visible information can be loaded without affecting the reproduction of the information in the information reproducing apparatus.

Next, an information reproducing apparatus for handling the above information carrier will be described with reference to the drawings. FIG. 2 is an explanatory diagram showing the configuration of an example of the information reproducing apparatus according to the present invention.

In the information reproducing apparatus, the information carrier 1 is left (see FIG. 2).
Information carrying means (not shown) for carrying from the middle A) to the right (B in FIG. 2) and infrared rays (wavelength 780 nm) are incident on the information carrying body in which the reversible layer is in the infrared reflecting state and the above information carrying is carried. As a means for detecting the amount of light reflected from the body (the invention according to claim 5), a laser light source a for irradiating the information carrier with infrared light and a light receiving element b for detecting the infrared light reflected from the information carrier are provided. Infrared irradiation / detection unit 6 and the first heat roller 7 capable of heating the reversible layer of the information carrier up to the temperature T ₁ as means for heating the reversible layer to the infrared transmissive state, and the reversible layer being in the infrared transmissive state. A laser light source that irradiates the information carrier with infrared light and a light receiving that detects the infrared light reflected from the information carrier as means for detecting the amount of reflected light from the information carrier while making the infrared light incident on the information carrier. A second infrared irradiation / detection unit 8 composed of a child, a binarization device for digitally converting the current value from the light receiving element as a means for reproducing the information recorded on the information carrier from the amount of reflected light, and a binary A CRT device as a display means for displaying information from the digitizing device, and a second heat roller 9 capable of heating the reversible layer of the information carrier up to a temperature T ₂ as a means for heating the reversible layer into an infrared reflection state. To have.
The first infrared irradiation / detection unit 6 and the second infrared irradiation /
The detection unit 8 and the first heat roller 7 and the second heat roller 9 may be the same (shared).

Next, reproduction of information in the information reproducing apparatus configured as described above will be described with reference to the flowchart of FIG.

First, the information carrier is moved to the lower part of the first infrared irradiation / detection unit of the information reproducing apparatus, and infrared light having a wavelength of 780 nm is incident on the information carrier to detect the reflected light amount (claim 5). Invention described / S1). Next, the information carrier is moved while being in pressure contact with the first heat roller 7, and the reversible layer is heated to be in the infrared transmitting state (S2), and then moved to the lower part of the second infrared irradiation / detection section to carry the above information carrier. Infrared rays are incident on the body and the amount of reflected light is detected (S3). The reflected light quantity (voltage value) was binarized and the recorded information was reproduced and displayed on the CRT device (S4). Finally, the information carrier is attached to the second heat roller 7
After being moved while being pressed into contact with the reversible layer to heat the reversible layer to be in an infrared reflecting state (S5), the information carrier was carried out of the information reproducing apparatus.

When the predetermined amount of reflected light cannot be obtained as a result of the infrared ray incident at S1, it is considered that the information carrier has been forged and tampered with, and the information carrier is not processed after that. Take it out.

[0043]

According to the information carrier of the present invention, a pattern composed of an infrared absorbing ink containing an infrared absorbing substance having a small absorption in the visible light region is formed on the substrate having at least the surface having infrared reflectivity by visual observation. There is nothing to do. Further, a reversible layer whose main component is a resin provided thereon and an organic low-molecular substance dispersed in this resin and whose infrared ray transmission and reflection are reversibly changed depending on temperature is Information cannot be read by an infrared camera.

The information reproducing apparatus which handles the information reproduces information after heating the reversible layer of the information carrier so that the reversible layer of the information carrier can transmit infrared rays, and further heats the reversible layer of the information carrier to reflect infrared rays. After making it possible, it can be carried out.

[0045]

【Example】

<Example 1> First, an infrared absorbing ink containing an infrared absorbing substance having a small absorption in the visible light region is produced.

A cupric-containing phosphate-based composition having the following composition was melted and crystallized to obtain a cupric-containing phosphate-based white crystalline compound.

[Copper-containing phosphate-based composition] P ₂ O ₅ 50.0 parts by weight CuO 49.5 parts by weight ZnO 0.5 parts by weight

Regarding this compound, a copper tube (CuK
When X-ray diffraction was performed using α), the diffraction angle (2θ)
= 28.14, 30.07, 30.34, and 44.01 have strong peaks, and it is confirmed that they are crystallized.

Next, the cupric-containing phosphate-based white crystal was crushed into a powder, and this was used as an infrared absorbing pigment to prepare an ink having the following composition.

[Composition of infrared absorbing ink] Pigment (cupric acid-containing phosphate white crystal compound) 30 parts by weight Vinyl acetate vinyl resin (trade name Elex A manufactured by Sekisui Chemical Co., Ltd.) 10 parts by weight Saturated polyester (Toyo Spinning Co., Ltd. product name Byron 103) 5 parts by weight Polyurethane elastomer 12 parts by weight (Nippon Polyurethane Industry Co., Ltd. product name N-2304) Isocyanate curing agent 3 parts by weight Triethylenediamine 0.5 parts by weight Solvent (toluene / methyl isobutyl ketone) 60 parts by weight

This infrared absorbing ink has an absorptance of 1 in the visible light region (wavelength 380 nm to 700 nm).
0% or less, but 80 in the near infrared of 780 nm
Absorption of at least%.

Next, a bar code pattern was printed using the above ink on the card-like substrate made of polyethylene and having infrared reflectivity.

[Reversible Layer-Forming Composition] Behenic acid (7 parts by weight) Eicosane diacid (1 part by weight) 1,4-cis cyclohexanedicarboxylic acid (0.7 parts by weight) 1,4-transcyclohexanedicarboxylic acid ( 0.3 parts by weight) 100 parts by weight in total in brackets Vinyl chloride-vinyl acetate-vinyl alcohol copolymer 300 parts by weight (Sekisui Chemical Co., Ltd. trade name Eslec A) Isocyanate 30 parts by weight (Asahi Kasei Corp. Curing agent Product name Duranate 24A-100) Triethylenediamine (curing accelerator) 3 parts by weight Toluene 300 parts by weight Tetrahydrofuran 1200 parts by weight

The reversible layer forming composition was printed on the entire surface of a substrate having a bar code pattern printed thereon to obtain an information carrier.

In the information carrier according to Example 1, it was difficult to visually confirm the existence of the bar code pattern, and it was difficult to recognize the bar code pattern even by using the infrared camera. In addition, it was possible to reproduce information using the information reproducing apparatus.

<Example 2> On the information carrier obtained in Example 1, a portion was printed using an infrared ray transmissive yellow process ink (trade name FDOL manufactured by Toyo Ink Mfg. Co., Ltd.),
A print layer was provided.

In the information carrier according to Example 2, it was difficult to visually confirm the existence of the bar code pattern, and it was difficult to confirm the bar code pattern even by using the infrared camera. In addition, it was possible to reproduce information using the information reproducing apparatus.

[0058]

As described above, according to the information carrier of the present invention, it is needless to say that it is difficult to visually check the pattern on which the information is recorded, and the pattern can be found by the infrared camera as it is. Have difficulty. Further, in the information reproducing apparatus, it is possible to reproduce the information by causing the pattern to appear in the apparatus.

Therefore, in a normal state, it is possible to add security to the infrared camera and the like.

[0060]

[Brief description of drawings]

FIG. 1 is a sectional view of an information carrier according to the present invention.

FIG. 2 is an explanatory diagram of an information reproducing apparatus according to the present invention.

FIG. 3 is a block diagram of an information reproducing apparatus according to the present invention.

FIG. 4 is a flowchart of the information reproducing apparatus according to the present invention.

[Explanation of symbols]

 1 Information Carrier 2 Substrate 3 Pattern 4 Reversible Layer 5 Printing Layer 6 First Infrared Irradiation / Detection Section 7 First Heat Roller 8 Second Infrared Irradiation / Detection Section 9 Second Thermal Roller 10 Information Reproducing Device

Front page continued (72) Inventor Nagahisa Matsudaira 1-5-1, Taito, Taito-ku, Tokyo Toppan Printing Co., Ltd.

Claims (5)

[Claims] 1. A pattern comprising an infrared absorbing ink containing an infrared absorbing substance having a small absorption in a visible light region on a substrate having at least a surface having infrared reflectivity, a resin, and an organic low molecule dispersed in the resin. An information carrier comprising, as a main component, a reversible layer in which infrared rays are reversibly transmitted and reflected reversibly depending on temperature. 2. The infrared absorbing material is Fe ²⁺ and / or C
The information carrier according to claim 1, which is composed of a phosphate-based white crystalline powder material containing u ^{2+ and} having phosphorus pentoxide as a main component. 3. The information carrier according to claim 1, wherein a printing layer is provided on the reversible layer with an infrared ray transmissive ink. 4. A pattern comprising an infrared-absorbing ink containing an infrared-absorbing substance having a small absorption in the visible light region on a substrate having at least a surface having infrared reflectivity, a resin and an organic low molecule dispersed in the resin. An information reproducing apparatus for handling an information carrier, comprising: a reversible layer whose main component is a substance and whose infrared transmission and reflection reversibly change depending on temperature. Means for heating the material to an infrared transmitting state, a means for injecting infrared rays into the information carrier whose reversible layer is in the infrared transmitting state and detecting the amount of reflected light from the information carrier, and recording from the amount of reflected light on the information carrier An information reproducing apparatus comprising: a means for reproducing the recorded information, a display means for displaying the information, and a means for heating the reversible layer to bring it into an infrared reflecting state. 5. The device according to claim 4, further comprising means for causing infrared rays to be incident on the information carrier whose reversible layer is in an infrared reflecting state and for detecting an amount of light reflected from the information carrier. Information reproduction device.