JPH02252149A - Optical card - Google Patents

Abstract

PURPOSE:To provide the card which is hardly identifiable in kind by visual observation and to eliminate an inconvenience in reading or writing by providing a specific hiding layer to the part of the card from the surface thereof on a reading side to an optical data recording part. CONSTITUTION:The optical card 101 is of a read only type and has the 3-layered structure consisting of, for example, parts A, B, C. The optical card 101 is formed by sticking and laminating the respective parts via adhesive agents 21, 22 to each other. The part A among these parts consists essentially of a transparent protective base material 30 and has a surface 30b on the side opposite to the surface 30a of the base body 30. The hiding layer 34 is formed on the front of this surface 30b so that the inside part B is hardly visible from the reading side. While this layer 34 has the characteristic to sufficiently hide the light of a visible region, the layer has the characteristic to allow the sufficient transmission of the light of an IR region. This card is hardly identifiable in appearance from other cards, such as magnetic cards and IC cards.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention relates to optical power-1 for optically reading out information recorded inside a car 1-1, and particularly relates to an optical power-1 for optically reading out information recorded inside a car 1-5 magnetic card. Alternatively, the present invention relates to a card technology that makes it difficult to distinguish the IC car 1 from other cars such as the IC car 1.

(Prior Art and its Problems) In recent years, the use of cards has rapidly increased. Accordingly, the number of card types has increased. The mainstream is magnetic 1~
In addition to live cards (i.e., magnetic cards), IC cards with larger storage capacity and advanced security features, and optical data recording cards (i.e., optical cards) with storage capacity hundreds of times more than IC cards. ) is attracting attention.

These various cards have in common that a data recording section is provided on a card base material that is rigid enough to be used as a card. In a magnetic cart, a magnetic stripe and in an IC card, a memory within the IC constitute a recording section, and in an optical card, an optical data recording pattern made of a highly reflective material constitutes a recording section. Therefore, it is easy to identify the type of card by observing the appearance based on the difference in these recording parts or parts related thereto. Particularly in optical cards, especially read-only optical cards, a part of the card has very high light reflectivity, so that it can be recognized by looking at it as an optical card.

Incidentally, in order to prevent counterfeiting or misuse of cards, it is desirable to make it difficult to distinguish different types of cards from each other visually. This point is also significant from the point of view of increasing the commercial value of the card.

From the above point of view, in conventional optical cards, since the recording section can be visually observed from the reading side, the type of card can be easily determined by external observation.

SUMMARY OF THE INVENTION An object of the present invention is to provide an optical card that makes it difficult to identify the type of card by viewing with one view.

Another object of the present invention is to provide a technique that makes it possible to easily inspect the quality of elements for making it difficult to identify the type of card.

(Summary of the Invention) In the present invention, a concealing layer is provided between the surface of the car 1 on the reading side and the optical data recording section to make it difficult to see the optical data recording section from the reading side. The hiding layer sufficiently blocks light in the visible range, while having read light transmission characteristics sufficient to enable reading of the optical data storage section. Therefore, the person looking at the card does not know the existence of the pattern of the optical data recording section because of the concealment layer, and cannot immediately identify that it is an optical cart. However, since the concealing layer sufficiently transmits reading light, for example, light in the infrared region, there is no problem in data reproduction.

In particular, in the present invention, the above-described concealing layer is provided on the side of the protective base material that has enough rigidity to handle it alone. Therefore, inspection of the hidden layer,
For example, the light shielding properties in the visible range and the transmission properties of reading light can be easily checked at the stage of the protective substrate, which is a component of the optical card.

(Embodiment 1) The optical card 101 shown in FIG. 1 is a read-only type, and has three parts A.
, B, and C. For convenience of explanation, the three parts A, B, and C are shown separated from each other in the drawing, but the optical card 101 has a structure in which these parts are pasted together and laminated via adhesive layers 21 and 22. It is. The adhesive layers 21 and 22 are made of thermoplastic adhesive,
Its thickness is, for example, about several μm, which is extremely thin compared to the thickness of each component.

Each of the three parts A, B, and C can be inspected or stored independently. Therefore, by stocking parts, it is possible to respond to a wide variety of water lots 1 or to large quantities of orders.

Component A mainly includes a transparent protective base material 30. The protective base material 30 has a first surface 30a and a second surface 30b that are parallel to each other, has a thickness of, for example, about 300 to 400 μm, and has enough rigidity to be handled alone. Therefore, various card materials or base materials can be used as the protective base material 30, but materials with high physical strength, excellent transparency, and surface smoothness are particularly preferred. preferable. For example, polycarbonate, acrylic, epoxy, polyethylene terephthalate, polymethyl methacrylate, polysulfone,
Various resins such as polyetherketone, polyetherketone, polyetheretherketone, polyamide, and polyimide can be used.

The first surface 30a side of the protective base material 30 is the reading side on which reading light for reproduction is incident. Therefore, the first page 3
A thin hard coating 1-Jτ 32 is formed on the surface of 0a to prevent scratches or dirt from adhering. Further, a concealing layer 34 is formed on the opposite second surface 30b to make it difficult to see the internal parts B from the reading side. The concealing layer 34 has a property of sufficiently blocking light in the visible range, and a property of sufficiently transmitting light in the infrared range, which is card reading light.

As the hiding layer 34, a black coating film is most suitable. The black coating film has a relatively thin film thickness, has sufficient light-shielding properties against visible light, and is very easy to form. Let us discuss the black-colored concealing layer 34 in more detail. A coating liquid with the following composition was prepared for forming the hiding layer 34.

Spiron Black MH Special N, a black acid dye, 1 part by weight (manufactured by Chuo Gosei Kagaku Co., Ltd.) Vinyl acetate-acrylic copolymer 2 Methanol
2 ethanol
9 Methyl cellosolve 9
This coating liquid is applied to the second surface 3 of the protective base material 30 using a roll coater.
A coating film with a thickness of about 3 μm was obtained by coating on 0b and drying at 00° C. for 5 minutes. The transmittance of the hiding layer 34 made of this coating is 2% at 400-650 nm.
It was about 90% at 830 nm and 84% at 780 nm.

Therefore, it is very difficult to visually see what is below the hiding layer 34, and on the other hand, the optical recording section located below is read and reproduced by irradiating light from a near-infrared semiconductor laser or high-intensity LED. There will be no inconvenience caused. Note that for the concealing layer 34, it is preferable to use a dye as a coloring material from the viewpoint of not causing any inconvenience in reading, but it is also possible to use a finely divided pigment. Further, since the black-colored concealing layer 34 is a single layer, it is very advantageous in manufacturing, but it is also possible to use two layers, for example, two layers of red and blue. Furthermore, it is also possible to mix several coloring materials in order to obtain a black color.

Next, component B including the optical recording section will be explained.

The support base material of component B is, for example, a plastic film 40 with a thickness of about 10 to 50 μm. The plastic film 40, which is a supporting base material, is for supporting the optical recording section, and is made of a material that can sufficiently withstand various treatments during the formation of the light reflective pattern 42 of the optical recording section. The material has high physical strength, excellent smoothness, and
It is preferable that the material has little deformation or expansion when exposed to heat, and also has excellent etching resistance. It can be selected from the materials used for the protective base material 30 described above. For example, a thin film of polyethylene terephthalate is suitable.

A light reflective pattern 42 is supported on one surface of the plastic film 40 via an absorbing layer 43. and,
Plastic film 4 including a light reflective pattern 42
0 is entirely covered with the adhesive layer 21 described above. The pattern 42 includes the preformat 1- as well as the contents of the recorded information. This pattern 42 is created by forming a highly reflective metal or alloy recording layer on the absorption layer 43 on one side of the plastic film 40, and then selectively etching the recording layer using a known photoetching technique. obtain by doing so. Generally, An is used as the material for the recording layer, that is, the pattern 42, but other materials include C11, Ag, All, Ni, Go, Fe,
Cr, Sn, etc. can also be used. The thickness of such a pattern 42 is very thin, for example, about 0.1 μm. Note that the absorption layer 43 is a layer for improving readability by transmitting or absorbing reading light. For example, the absorption layer 43 can be obtained by applying and drying a coating liquid consisting of only a transparent binder made of acrylic resin or a binder, a dye that absorbs reading light, and a solvent.

Here, when manufacturing part B, the plastic film 40 that is the supporting base material is flexible and can be rolled up, so manufacturing is easier than manufacturing into single sheet 1.

Furthermore, there is a component C mainly consisting of the back base material 50.

Various characters or designs are printed on this component C. Therefore, as the main backing material 50, it is preferable to use a colored resin, such as white, which provides a good-looking printed pattern. Of course, it is also possible to form colored thin film layers on the upper and lower sides of a card made of transparent or translucent resin. As the back base material 50, for example, a polyester sheet or a vinyl chloride sheet having a thickness of about 300 to 4-00 μm is used.

The above-described adhesive layer 22 is formed on one side of the back base material 50, and a magnetic tape 52 is provided on the periphery of the opposite side.

(Embodiment 2) See FIG. 2. The optical card 102 has a 2N structure consisting of two parts A and C'. By forming the light reflective pattern 42 and the absorbing layer 43 of the optical recording portion on one surface of the back base material 50, this structure eliminates the intermediate component B in the first embodiment. Although there is a difference in that the layer structure is different, this optical card 102 also has a concealing layer 34 on the protective layer 30 side whose first surface 30a side is the reading side. Therefore, the function of the hidden layer 34 can be inspected at the component stage. Furthermore, the effect of the concealing layer 34 itself is similar to that of 1.

(Embodiment 3) See FIG. 3. The optical card 103 has a layered structure consisting of a single component A'. The light reflective pattern 42 of the optical recording section is protected by the base material 3.
This is a structure in which the back base material 50 in the second embodiment is further omitted by forming it on the second surface 30b side of the second embodiment.

In this optical card 103, the second surface 30b side surface of the protective base material 30 including the light reflective pattern 42 is covered with a protective layer 6o which also serves as an absorbing layer. In addition to its function as an absorbing layer, the protective layer 60 also has the function of making visual inspection difficult.

The protective layer 60 can be composed of two layers, an absorption layer and a printing layer, or can be composed of a layer containing both a dye that absorbs reading light and a dye that blocks visible light. Even with this light power of -1 to 103, the concealing layer 34 is
There is. Furthermore, since the concealment Wj 34 is provided on one surface of the protective base material 30 = 11, it is possible to inspect the concealing layer 34 on the protective base material 30 before forming the pattern 42 of the optical data recording section. can.

Although the present invention is particularly effective for read-only optical cards that use recording materials with high light reflectivity, it is not limited thereto, and can also be applied to write-once optical cards.

Furthermore, in each of the embodiments shown in the figures, the concealing layer 34 is formed on one surface of the protective base material 30, but the concealing layer is arranged between the card surface on the reading side and the optical data recording section. Just do it. For example, a concealing layer may be formed on the other side of the protective base material 30, or the protective base material 30 itself may have a function as a concealing layer.

(Effects of the Invention) According to the present invention, since a specific concealing layer 34 is provided between the card surface on the reading side and the optical data recording section, it is difficult to visually identify the type of card. 2. It is possible to provide a new optical card that does not cause any inconvenience when reading or writing.

Moreover, since this optical card has a relatively thick protective base material 30 disposed between the reading side and the optical data recording section, inspection of the concealing layer 34 itself can be checked at the component stage. .

[Brief explanation of drawings]

FIG. 1 is a cross-sectional view showing an example of the 3N structure, and FIG.
FIG. 3 is a cross-sectional view showing an example of a two-layer structure, and FIG. 3 is a cross-sectional view showing an example of a 1M structure. 101.102, 103... Optical card, 30... Protective base material, 30a... First surface, 30b... Second surface, 3
4... Hiding layer, 40... Plastic film (supporting base material), 42... Light reflective pattern, 50...
Back base material.

Claims (1)

[Claims] 1. Having a first surface and a second surface that are parallel to each other, and
There is a protective base material that is rigid enough to handle it alone, and one first surface of the protective base material is the reading side where the reading light enters, and the opposite second surface is the side that reflects light. In an optical card in which an optical data recording section including a sexual pattern is arranged, there is a concealing layer between the card surface on the reading side and the optical data recording section that makes it difficult to see the optical data recording section from the reading side. , wherein the concealing layer sufficiently blocks light in the visible range and has sufficient transmission characteristics for reading light to enable reading of the optical data recording section. 2. The hiding layer is a coating film covering the surface of the protective base material,
The optical card according to claim 1. 3. The optical card according to claim 2, wherein the coating film is blackish. 4. The optical card according to claim 1, wherein the reading light is in an infrared region. 5. The optical data recording section is formed on one surface of a support base material, and the support base material is attached to the second surface side of the protective base material with the optical data recording section side inside. The optical card mentioned.