JP2002132155A - Label and transfer sheet for manufacturing information recording medium as well as information recording body - Google Patents

Abstract

PROBLEM TO BE SOLVED: To merely necessitate the formation of one area without respectively recording the data to be updated at every use and the data not requiring updating by forming the different areas for both of the data. SOLUTION: A low melting point metal thin-film layer 3 and a rewritable layer 4 are successively laminated on a base material 22 and a colored layer 6 is laminated between the base material 22 and the low melting point metal thin-film layer 3 and a protective layer 7 on the rewritable layer 4 at need, by which the reversible recording on the rewritable layer 4 by utilization of a thermal head, etc., and the irreversible recording on the low melting point metal thin-film layer 3 are made possible.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION The present invention relates to an information recording medium for sequentially storing and using information.
The present invention relates to an information recording medium in which data to be updated is displayed, but data unique to the information recording medium is once displayed and cannot be rewritten. The present invention also relates to a label for producing such an information recording medium and a transfer sheet.

[0002]

2. Description of the Related Art As an information recording medium, an electromagnetic storage means (or recording means) such as a magnetic recording layer, an IC chip, or an optical recording layer is formed on or in a relatively thin sheet-like base material. Various types of cards having a so-called card size (86 mm × 54 mm), which is almost the same as a business card, are used.

Incidentally, information stored in these information recording media and information updated based on the stored information are:
There is inconvenience that is invisible as it is. Of course, this information includes information that could be used fraudulently if known to others, such as a security code, and even if it is not immediately linked to impropriety, such as the balance of a deposit, it may cause problems at a later date. Or privacy information that you do not want others to know.

[0004] However, even in view of such advantages and disadvantages, it is sometimes preferable that the information is visible. For example, on the back of a prepaid card that is used for relatively short-distance transportation, the date of use, the date and time of getting on and off the station, the deducted fare, the current balance, etc. are printed on the back. The current balance can be checked visually. At present, the line is changed each time printing is performed, and the advantage is that the history can be understood.On the other hand, as the number of times of use increases, the number of lines increases, so the character size must be adjusted so that the printed characters fit in the space. Because it is decided small,
Annoying to watch. Normally, information can be written but cannot be erased.

[0005] Alternatively, as another example, a point (usually referred to as a point) calculated by multiplying a selling price by a certain rate when selling an article at a specific store is given to the customer, and the customer is given a point. The accumulated score is displayed on a given score card. In the point card, a recording material that can be written and erased by heat is used, and the display is updated each time writing is performed, so printing with relatively large characters is possible, The problem based on the character size in the previous example has been solved.

However, in any of the above examples, there is a case where it is desired to print information such as a customer's name and a membership number which is different for each card but does not need to be changed each time it is stored. In such a case, in the former example, the space is scarce, and it is impossible to provide an easy-to-view display. In the latter example, the easy-to-view display is possible, but using a writable and erasable recording material. Therefore, there is a possibility that information may be lost during writing or due to careless heating.

[0007] A proposal to solve these problems was
Japanese Patent Application Laid-Open No. 9-198553 discloses a magnetic card provided with (1) a reversible thermosensitive recording coloring portion and (2) a thermal self-coloring recording portion or a thermosensitive destruction recording portion. Describes that it is possible to print update data and the latter (2) to print fixed data.

Using the magnetic card proposed above,
In the portion (2), recording is performed by an irreversible recording method, so that rewriting or erasing is difficult, and the conventional problems are temporarily solved. However, industrially, the sheets for the two different recording portions (1) and (2) are manufactured and formed on the magnetic card, so that the number of steps is increased.

[0009]

Therefore, according to the present invention, as in the above example, data to be updated and data which does not need to be updated are formed in different areas each time they are used, and they are recorded in each area. An object of the present invention is to form a single area without causing the problem to occur.

[0010]

Means for Solving the Problems In order to make it easier to see the recording made on the rewritable layer, the present inventors focused on a metal thin film of a light reflective layer laminated below the rewritable layer. Is composed of a low-melting-point metal, irreversible recording can be performed on such a metal thin film by a heat-sensitive method.Therefore, only one type of portion is laminated on a magnetic card or the like. Record of data to be updated (and thus include erasure of previous data)
And recording of data that does not need to be updated.

The first to third inventions relate to a label for producing an information recording medium, and the fourth to sixth inventions relate to a transfer sheet for producing an information recording medium. According to a first aspect of the present invention, there is provided a label for producing an information recording medium, wherein a low melting point metal thin film layer and a rewritable layer are sequentially laminated on one side of a base film, and an adhesive layer is laminated on the other side. It is about. According to a second aspect of the present invention, there is provided an information recording medium wherein a coloring layer, a low melting point metal thin film layer, and a rewritable layer are sequentially laminated on one side of a base film, and an adhesive layer is laminated on the other side. It relates to a label for manufacturing. A third invention relates to the label for manufacturing an information recording medium according to the first or second invention, wherein a protective layer is further laminated on the exposed surface of the rewritable layer. A fourth invention is characterized in that a transfer layer having a laminated structure in which a rewritable layer, a low-melting metal thin film layer, and an adhesive layer are sequentially laminated on a peelable surface of a peelable sheet is provided. The present invention relates to a transfer sheet for producing a recording medium. A fifth invention is characterized in that a transfer layer having a laminated structure in which a rewritable layer, a low-melting metal thin film layer, a coloring layer, and an adhesive layer are laminated in this order on the peelable surface of the peelable sheet. And a transfer sheet for manufacturing an information recording medium. A sixth invention is directed to the transfer sheet for manufacturing an information recording body according to the fourth or fifth invention, wherein a protective layer is laminated on the releasable surface side of the transfer layer.

According to a seventh aspect of the present invention, there is provided an information recording apparatus comprising: an information recording layer having a laminated structure in which a low melting point metal thin film layer and a rewritable layer are laminated from a side of the substrate. It is about the body. An eighth invention is that an information recording layer having a laminated structure in which a coloring layer, a low melting point metal thin film layer, and a rewritable layer are laminated on at least a part of the substrate from the substrate side is laminated. It relates to a characteristic information recording medium. The ninth invention is the seventh invention
Alternatively, in the eighth invention, the present invention relates to an information recording body, wherein a protective layer is laminated on an uppermost layer of the information recording layer. A tenth invention is characterized in that at least a part of the base material has an information recording layer in which the label for producing an information recording body according to any one of the first to third inventions is laminated by the adhesive layer. It relates to an information recording medium. The eleventh invention is characterized in that at least a part of the
The present invention relates to an information recording medium according to any one of the sixth to sixth inventions, wherein the transfer layer has an information recording layer laminated by the adhesive layer. In a twelfth aspect based on any of the eighth to eleventh aspects, the base material is a magnetic card,
The present invention relates to an information recording medium characterized by being a C card, an optical card, or a composite card of these various cards.

[0013]

1 and 2 are cross-sectional views of a label for manufacturing an information recording medium according to the present invention. As shown in FIG. 1, the label 1 for manufacturing an information recording medium of the present invention is, in the simplest case, a low melting point metal thin film layer 3 and a rewritable layer 4 sequentially laminated on the upper surface side of a base film 2. The adhesive layer 5 is laminated on the lower surface side of the material film 2. This rewritable layer 4 will be described later,
By using a thermal head or the like, recording and erasing can be performed (that is, a reversible recording layer). Therefore, once recorded portions can be erased and recording can be updated. The low-melting point metal thin film layer 3 is formed by melting or evaporating a part of the thin film by using a thermal head or the like and removing the thin film to form an opening, thereby enabling irreversible recording.

FIG. 2 is a diagram for collectively showing various layers that can be additionally laminated on the label 1 for manufacturing an information recording medium shown in FIG. In the label 1 for manufacturing an information recording medium of the present invention, a colored layer 6 may be laminated between the low melting point metal thin film layer 3 and the base material 2. Due to the presence of the coloring layer 5, the coloring layer can be seen through the opening formed by melting or evaporating a part of the thin film. Therefore, when viewed from the upper surface side, the advantage that the opening is more clearly seen due to the hue difference is obtained. Occurs. Further, the label 1 for manufacturing an information recording medium of the present invention may have a protective layer 7 formed on the uppermost layer. The formation of the protective layer 7 causes friction with printing means such as a thermal head during recording, Other external forces have the advantage of reducing wear, scratches and contamination. The coloring layer 6 and the protective layer 7 do not necessarily need to be provided, and only one of them may be laminated, or both may be laminated. As the label 1 for manufacturing an information recording medium, in addition to the above-described structure described with reference to FIG. 1 or FIG. 2, the base film is the uppermost layer (there may be a protective layer on the upper layer). A structure in which a rewritable layer, a low-melting point metal thin film layer, a coloring layer, an adhesive layer, and the like are sequentially stacked on the lower surface may be available. In addition, a corona discharge treatment or a chemical treatment may be performed between the respective layers for the purpose of improving the adhesive strength, or a primer layer may be interposed.
The corona discharge treatment and / or the chemical treatment and the formation of the primer layer may be used in combination. The same applies to the transfer sheet 11 for manufacturing an information recording medium and the information recording medium 21 thereafter.

FIGS. 3 and 4 are cross-sectional views of the transfer sheet for producing an information recording medium of the present invention. As shown in FIG. 3, the transfer sheet 11 for manufacturing an information recording medium of the present invention includes:
In the simplest case, a rewritable layer 4, a low-melting metal thin film layer 3, and an adhesive layer 5 are sequentially laminated as a transfer layer 8 on the lower surface side of a peelable sheet 12 whose lower surface is peelable. The transfer sheet 11 has the side with the adhesive layer 5 on the surface of the adherend, and is usually pressed and heated, so that the transfer layer 8 is applied to the surface of the adherend by the action of the adhesive layer 5. After adhesion and release of pressure and heat, the release sheet 11 is peeled off, and the transfer layer 8 is laminated on the surface of the adherend.

FIG. 4 is a view for collectively showing various layers that can be additionally laminated on the transfer sheet 11 for manufacturing an information recording medium shown in FIG. On the transfer sheet 11 for manufacturing an information recording medium of the present invention, a colored layer 6 may be laminated between the low melting point metal thin film layer 3 and the adhesive layer 5. Due to the presence of the colored layer 5, when viewed from the upper surface side, the colored layer 5 can be seen through an opening formed by melting or evaporating a part of the thin film. Occurs. Further, the protective layer 7 may be formed on the uppermost layer of the transfer layer 8 in the transfer sheet 11 for manufacturing an information recording medium of the present invention. The transfer layer transferred with the protective layer 7 has the same advantages as those of the label 1 caused by the formation of the protective layer 7. The coloring layer 6 and the protective layer 7 do not necessarily need to be provided, and only one of them may be laminated, or both may be laminated.

FIG. 5 is a plan view of an example in which the information recording medium of the present invention is applied to a point card (referred to as a point card), and is provided to a customer from a specific sales chain store or the like. It is an example of things. In the example of FIG. 5, a card 21 as an information recording medium has an information recording layer 9 laminated on a part of a base material 22. In FIG. Recorded to be visible. Note that the position and size of the information recording layer 9 can be set arbitrarily.

Above the card 1 in FIG. 5, the name of the card, the card issue number, and the name of the customer are displayed as fixed information 1.
0a is irreversibly recorded due to the opening of the low melting point metal thin film layer 3, and the expiration date of the card is also irreversibly recorded below as the fixed information 10a. In the center, the cumulative score obtained by accumulating the scores provided to the customer for each sale of the product is reversibly recorded in the rewritable layer 4 together with a phrase indicating the cumulative score, and the latest use of the card is performed. The day (the day on which the latest update score was recorded) is reversibly recorded. In addition, service days such as discount sales days are also recorded reversibly. These are update information 10b to be updated each time. For the service day, the same information is recorded for a certain period of time, and after the service day, it will not be recorded, or the next service day will be
After that, it is usually recorded for a while. Note that information such as characters and phrases in the illustrated example is an example, and can be arbitrarily determined.

By the way, regarding the cross section of the card 21,
A label manufactured using the information recording medium manufacturing label 1 and the information recording medium manufacturing transfer sheet 11 described above, or a layer in which each layer is directly laminated on the base material 22, and the like.
Various forms are possible. Next, referring to FIGS.
2 shows a laminated structure of a cross section of the card 21.

FIG. 6 shows a card 21 having the simplest cross-sectional structure, in which a low melting point metal thin film layer 3 and a rewritable layer 4 are sequentially laminated on the upper surface side of a base material 22. The cross-sectional structure shown in FIG.
As shown in the figure, a protective layer 7 and a colored layer 6 may be laminated,
Either one of these two layers may be laminated, or both may be laminated.

The cross-sectional structure shown in FIGS. 6 and 7 is a form suitable for manufacturing by laminating each layer on the substrate 22 one by one. It can also be manufactured using the label 1 for manufacturing an information recording medium described with reference to FIG. 2 or the transfer sheet 11 for manufacturing an information recording medium. In those cases, the following FIG.
Can be taken as shown in FIG.

FIG. 8 shows a cross-sectional structure of a card 21 suitable for manufacturing a card using the information recording medium manufacturing label 1 of the present invention. As shown in FIG.
Has an information recording layer 9 formed by affixing a label on the upper surface side of a base material 22, and the information recording layer 9 is composed of an adhesive layer 5, a base film 2, a coloring layer 6 , A low melting point metal thin film layer 3, a rewritable layer, and a protective layer 7 are sequentially laminated. Here, both the colored layer 6 and the protective layer 7 may be omitted, only one of them may be laminated, or both may be laminated.

FIG. 9 shows a cross-sectional structure of a card suitable for manufacturing a card 21 using the transfer sheet 11 for manufacturing an information recording medium of the present invention. As shown in FIG. 9, an information recording layer 9 generated by the transfer of the transfer layer is laminated on the upper surface side of the base material 22, and the information recording layer 9 is composed of the adhesive layer 5, A layer 6, a low melting point metal thin film layer 3, a rewritable layer 4, and a protective layer 7 are sequentially laminated. Also in this case, both of the colored layer 6 and the protective layer 7 may be omitted, only one of them may be laminated, or both may be laminated.

Hereinafter, materials constituting each part of the information recording medium of the present invention including a card will be described. As the base material 22 of the information recording medium 21, polyvinyl chloride, polyester such as polyethylene terephthalate or polyethylene naphthalate, polycarbonate, polyamide, polyimide, cellulose diacetate, cellulose triacetate, polystyrene, acryl, polypropylene,
In addition to sheets of resin such as polyethylene and ABS, metal sheets such as aluminum and copper, paper, and impregnated paper such as resin or latex, etc., alone or composite sheets can be used. When heat resistance is required,
As the sheet 2, a sheet of an amorphous polyester resin, a blend resin of an amorphous polyester resin and a polycarbonate resin, or the like can be used.

The thickness of the substrate 22 varies depending on the material, but is usually in the range of about 10 μm to 5 mm. The information recording body 21 also serves as a magnetic card, and the base material 22 is
To comply with the standard, the thickness is 0.7
6 mm. When the base material 22 is formed of polyvinyl chloride (hereinafter, referred to as PVC), usually, a white PVC sheet having a thickness of 280 μm is used as a core sheet, two of which are stacked, and a transparent PVC sheet having a thickness of 100 μm is provided on both sides thereof. Are laminated as an oversheet and laminated by hot pressing etc. in a four-layer configuration (total thickness 0.76 mm)
Is usually used. In this case, the magnetic recording layer
By providing the tape in the form of a tape or in advance on the entire surface of the transparent PVC sheet (oversheet), even when the sheet is in the form of a tape, it is pressed into the substrate 22 during lamination by hot pressing or the like, and the surface is integrated smoothly And laminated. In addition, printing may be performed on a surface facing the outside of the core sheet, a surface facing the inside or outside of the oversheet, or the like.

As the low melting point metal thin film layer 3, copper, cadmium, bismuth, tin, or the like, or an alloy thereof can be used. The low melting point referred to herein is preferably 40
0 ° C. or lower, for example, tin is preferable. The low melting point metal thin film layer 3 is formed by physical thin film forming means such as vapor deposition or sputtering, and the thickness of the low melting point metal thin film layer 3 is preferably about 20 nm to 100 nm. If the thickness of the low-melting point metal thin film layer 3 is less than the lower limit, the color of the underlying layer is seen through.

The rewritable layer 4 may be made of any material as long as it can be printed by a thermal printing means such as a thermal head. However, usually, (1) a leuco dye, (2) a polymer / organic low It is composed of one of three types of molecular dispersion system and (3) liquid crystal system.

(1) In the case of a leuco dye system, color development / decoloration is based on a combination of a leuco dye and an acidic compound, and a rewritable layer is formed by a composition in which these compounds are mixed with a polymer binder. There are competitive reaction systems using amphoteric compounds and phase separation systems using long-chain alkyl acidic compounds.

The former competitive reaction system uses a phenolamine salt as an amphoteric compound, and utilizes the fact that the coloring reaction proceeds with a phenol group and the decoloring reaction proceeds with an amino group. Here, as the leuco dye, a triarylmethane-based compound (a crystal violet lactone in this range is well known), a diphenylmethane-based compound, a xanthene-based compound, a spiro-based compound, a fluoran-based compound, or the like is used. At this time, since the speed of the coloring reaction is faster than the speed of the decoloring reaction, the color is fixed in a colored state when heated and rapidly cooled, and is fixed in a decolored state when heated and gradually cooled. .

The latter phase separation system controls the compatibility state and the incompatibility state of the leuco dye and the long-chain alkyl acidic compound by a difference in cooling rate. It is immobilized while being compatible and becomes a colored state,
When heated and gradually cooled in a compatible state, phase separation occurs, the state becomes incompatible, and the color is erased. Here, as the long-chain alkyl acidic compound, a phenol compound having a long-chain alkyl group or a phosphonic acid compound having a long-chain alkyl group can be used. The long-chain alkyl group preferably has 11 or more carbon atoms in the former case and 14 or more carbon atoms in the latter case.

In actual use, the thermal head is usually 1/100 of the temperature, rather than performing special cooling.
After instantaneously heating and heating in the order of 0 seconds,
By cooling at room temperature, "rapid cooling" can be realized, and the above system can be colored. In addition, as for `` cooling down '', if cooling is performed after heating using a heating means having a large heat capacity such as a heat roller, a hot stamp, a heater bar, etc., since a given amount of heat is large, `` gradual cooling '' is realized, Can be erased. In some cases, erasing with a thermal head is also possible by selecting the heating temperature and conditions. In the case of such a leuco rewritable material,
By appropriately selecting the type of leuco dye, black,
It can be colored in various colors such as blue and red.

(2) In the polymer / organic low-molecular-weight dispersion system, a rewritable layer is formed by using a composition in which a low-molecular-weight substance such as a fatty acid is uniformly dispersed in a transparent synthetic resin binder having film-forming properties. To form The layer is heated by a thermal head or the like to a temperature higher than the melting point of the low-molecular organic compound, and then cooled to a white turbid state.

As the binder for the synthetic resin, a resin which is transparent, has a film-forming property, and can uniformly disperse and hold a low-molecular organic substance is preferable. For example, polyvinyl chloride, vinyl chloride-vinyl acetate Examples include vinyl chloride resins such as copolymers, vinylidene chloride resins, acrylic resins, and other polyester resins. As the organic low molecular weight substance, various fatty acids and derivatives thereof can be used. Among them, saturated linear fatty acids having 1 carbon atom are preferable.
Those having a melting point in the range of 0 to 30 and a melting point of 30 to 160 ° C. are preferred, and one or two or more kinds can be used. The use of a low-molecular organic substance having a different melting point, for example, monocarboxylic acid and dicarboxylic acid has an advantage that the temperature range for the transparency can be widened.

(3) In the liquid crystal system, a smectic liquid crystal dispersed in a polymer matrix is used.
A polymer composite film is formed and used. In this liquid crystal system, the liquid crystal molecules are brought into a random alignment state or an alignment state by using heat and an electric field, and in these states, the properties of light scattering and light transmission are used, respectively. Further, a dichroic dye can be added for the purpose of improving the contrast and coloring, and a rewritable layer having excellent visibility can be obtained.

Any of the above (1) to (3) can be used according to the application. Among these, the leuco dye system (1) and the liquid crystal system (3) are capable of performing color display, and are therefore more excellent in viewability.

In the information recording medium 21 of the present invention, thermal recording can be performed using a means such as a thermal head or a laser beam capable of performing point heating in accordance with image information. Irreversible recording is performed on the low melting point metal thin film layer 3 and reversible recording is performed on the rewritable layer 4. When a thermal head is used, the energy required for recording on the rewritable layer 4 is reduced. By applying about twice or more energy, recording can be performed on the low melting point metal thin film layer 3. In the rewritable layer 4,
For example, when looking at the static color development characteristics of pressing a heated hot plate to develop color, saturated color development occurs at 100 ° C. On the other hand, the recording on the low melting point metal thin film layer 3 is not changed even by heating at about 200 ° C., and can be performed at about 220 ° C., so that the recording can be performed separately.

The low-melting point metal thin film layer 3 undergoes a change such that the heated portion evaporates to form an opening, melts and is pushed toward the surroundings to form an opening, or the surface becomes rough. Therefore, at the time of optical scanning by the optical reading means, a change in light reflectance causes recording, reading, and reproduction of information. However, for visual confirmation, it is preferable to form an opening.

By the way, when recording is performed on the low melting point metal thin film layer 3, a reaction may take place in the rewritable layer 4. However, in the leuco dye system of the above (1), after the printing, the cooling is performed by slow cooling. The color can be erased, and in the liquid crystal system of the above (3), printing without applying an electric field can prevent the rewritable layer 4 from coloring. In the polymer / organic low-molecular dispersion system (2), the printed portion of the rewritable layer 4 becomes cloudy,
In the recording state, since the printed portion of the lower low melting point metal thin film layer 3 has a visual contrast with the surroundings, the recording on the low melting point metal thin film layer 3 becomes visible. The recording on the low-melting metal thin film layer 3 and the rewritable layer 4 can be performed on any of the label for producing an information recording body, the transfer sheet for producing an information recording body, and the information recording body of the present invention. In the former two cases, the recording may be performed in the state of the label or the transfer sheet, or may be performed after the label is pasted or transferred onto the adherend.

The coloring layer 6 is formed by dissolving or dispersing a coloring agent such as a dye or a pigment in a binder resin, and can be formed using a usual paint or ink. The hue of the colored layer 6 can be appropriately selected,
A hue with high lightness is preferred.

The protective layer 7 protects the exposed surface of the rewritable layer 4 and is preferably made of a resin having transparency, abrasion resistance, abrasion resistance, heat resistance, chemical resistance, stain resistance and the like. ing. As a resin forming the protective layer 7, in addition to a thermoplastic resin such as an acrylic resin, a polyurethane resin,
A thermosetting resin such as an epoxy resin and a melamine resin, and further, an ionizing radiation-curable resin can be used. Specific examples of the ionizing radiation-curable resin include polyurethane acrylate, polyester acrylate, epoxy acrylate, polyether acrylate, and the like. These are polyfunctional or polyfunctional in order to adjust the viscosity or crosslink density of each prepolymer. A monofunctional monomer may be added and used, and if necessary, a known photoreaction initiator and sensitizer may be added and used. In addition, polyene / thiol-based ionizing radiation-curable resins and the like also have excellent abrasion resistance and can be preferably used.

If necessary, additives such as a surfactant, an antistatic agent, and an ultraviolet absorber may be added to the resin for forming the protective layer 7. Also, a small amount of wax or the like may be added in order to secure the slipperiness of the surface. The protective layer 7 is formed by adding a diluent or a solvent to the protective layer forming resin and mixing or dispersing the diluent or solvent to prepare a protective layer forming coating solution. After applying by the method, UV (ultraviolet) irradiation or E
It can be performed by curing the resin by B (electron beam) irradiation or the like. When an organic solvent is added to the coating solution, it is preferable that after application, first, hot-air drying is performed to remove the organic solvent, and then the resin is cured by irradiation with UV or EB.

The thickness of the protective layer 7 is preferably in the range of 0.5 to 4.0 μm. When the thickness of the protective layer 7 is 0.5 μm
When the thickness is less than m, sufficient abrasion resistance and abrasion resistance cannot be obtained, and when the thickness exceeds 4.0 μm, the abrasion resistance and the like are already sufficient and when printing with a thermal head or the like, ,
In some cases, it may be difficult to apply sufficient heat to the low melting point metal thin film layer 3.

The material forming the adhesive layer 5 is preferably a material that can firmly adhere to the low melting point metal thin film layer 3 or the colored layer 6 or the base material 22. Specifically, vinyl chloride resins, vinyl acetate resins, vinyl chloride-vinyl acetate copolymer resins, acrylic resins, polyester resins, polyurethane resins, polyamide resins, rubber modified products, and the like. Appropriate ones can be selected and used from among them, and these can be used alone or in a mixed system of two or more kinds, and if necessary, a hard resin, a plasticizer, and other additives can be used. .

The label 1 for manufacturing an information recording medium of the present invention includes:
The base film 2 and the transfer sheet 11 for manufacturing an information recording medium of the present invention require a release sheet 12. The “film” in the base film and the “sheet” in the releasable sheet 12 are used separately for distinction only, and are not used properly because they are thin and thick.

The material constituting the base film 2 and the peelable sheet 12 is preferably a material which has mechanical strength, is hardly stretched by heating, and is smooth. Usually, a polyethylene terephthalate (= PET) resin film is often used, but other resin films, metal foils, and paper may be used. When the above material is used as the peelable sheet 12 of the transfer sheet 11 for manufacturing an information recording medium,
A release layer that adheres firmly to the above material but releasably attaches the transfer layer, between the transfer layer and the release sheet, and between the release layer and the transfer layer if there is a release layer Then, a peelable layer that peels off together with the transfer layer may be formed. Note that, depending on the materials constituting the base film 2 and the peelable sheet 12, the peelable layer may not be necessary.

The resin constituting the release layer may be a polyester resin, an acrylic skeleton resin, a vinyl chloride / vinyl acetate copolymer resin, a two-component blend resin of cellulose acetate and a thermosetting acrylic resin, a melamine resin, or a nitro resin. Cellulose resins can be used, and among them, polyester resins are preferred in terms of adhesion. A wax such as polyethylene wax or a silicone resin may be further added to these resins to improve the releasability.

Although the above description has been made with the score card in mind, the present invention can be applied to the following various cards. That is, it is a magnetic card, an IC card (contact type, non-contact type), an optical card, or a composite card of these various cards. The base material 22 of the information recording body 21 may be a magnetic card, an IC card (contact type, non-contact type), an optical card, or a composite card of these various cards. In these cards, irreversible recording on the low-melting-point metal thin-film layer and reversible recording on the rewritable layer can be performed in association with the information recorded on the recording means in those cards.

These cards are used as toll tickets,
Tickets, boarding passes, prepaid cards, entrance tickets, play tickets,
It can be used for a point card, cash card, credit card, ID card, employee ID card, or membership card. Further, the present invention can be applied to an information recording medium having a form other than a card.

[0049]

(Example 1) A transparent polyethylene terephthalate resin film (hereinafter referred to as a PET film) having a thickness of 25 μm was used, and the respective layers were laminated in the following manner, and a label for attaching to a card base material was formed. Manufactured. First,
Sn was formed as a thin film having a thickness of 400 ° on one side of the PET film by a vacuum evaporation method.

After forming a Sn thin film, a reversible recording layer having a thickness of 5 μm and a protective layer having a thickness of 3 μm were sequentially laminated by a gravure coating method using the following compositions. In the following, the notation of “part” is based on mass. (Composition for forming reversible layer) ・ 15 parts of vinyl chloride / vinyl acetate copolymer resin ・ 5 parts of behenic acid (= docosanoic acid) ・ 80 parts of tetrahydrofuran (composition for forming protective layer) ・ 30 parts of acrylic resin ・ Carnauba wax 1 .5 parts ・ Toluene 40 parts ・ Methyl ethyl ketone 40 parts ・ Methyl isobutyl ketone 20 parts

Next, on the side opposite to the side on which the above-mentioned layers were provided, the following compositions were used, each of which was formed by a gravure coating method to a 1 μm thick adhesive layer and a 2 μm thick heat seal layer (= The heat-sensitive adhesive layers were sequentially laminated to obtain a recording material tape. (Composition for forming adhesive layer) ・ Polyester resin 20 parts ・ Vinyl chloride / vinyl acetate copolymer resin 10 parts ・ Toluene 35 parts ・ Methyl ethyl ketone 35 parts (Composition for forming heat seal layer) ・ Vinyl chloride / vinyl acetate copolymer resin 20 parts ・ Acrylic resin 10 parts ・ Ethyl acetate 20 wet ・ Toluene 50 parts

The recording material tape obtained as described above was cut into a required size, and was overlaid on a card base material. For the card base material, between two transparent oversheets (thickness: 100 μm) made of polyvinyl chloride resin
Two white core sheets (thickness: 280 μm) were superimposed, and a sheet in which a total of four sheets were temporarily attached was prepared. On top of this, a cut recording material tape was overlaid so that the heat seal layer was on the lower side. Pasted. The temporarily adhered recording material tape and the card base material are heated at a temperature of 120 ° C., a pressure of 20 kg /
By hot pressing under the condition of cm ² , a recording material tape was embedded in the surface of the card base material to obtain an information recording medium.

When printing was performed on the recording material tape portion of the obtained information recording medium using a thermal head under the condition of 0.5 mJ / dot, the recording on the reversible layer was successfully performed. This record was obtained by applying pressure to a hot plate heated to 90 ° C .;
By contacting for 1 ^{second under} the conditions of ² , the erasure was completed completely. When printing was performed under the condition of 1.0 mJ / dot using a thermal head on the recording material tape portion, Sn
Good recording on the thin film was performed. This record is 90
Even when the hot plate heated to 0 ° C. was brought into contact with the hot plate under the condition of a pressure of 1 kg / cm ² for 1 second, the hot plate was not erased and was irreversible.

[0054]

According to the first aspect of the present invention, irreversible recording on a low-melting-point metal thin film layer and reversible recording on a rewritable layer can be performed on a label or on an adherend to which the label is attached. It is possible to provide a label for manufacturing an information recording medium that can be used. According to the second aspect of the present invention, it has the same effect as the first aspect of the present invention,
It is possible to provide a label for manufacturing an information recording medium capable of increasing the visual contrast of irreversible recording performed on a low-melting-point metal thin film layer. According to the third aspect of the present invention, in addition to the effects of the first or second aspect of the present invention, the durability of the surface, particularly the abrasion resistance and the abrasion resistance, are improved by having the protective layer on the surface. An information recording medium manufacturing label can be provided. According to the fourth aspect of the present invention, there is provided a transfer sheet for manufacturing an information recording medium, which can perform irreversible recording on a low melting point metal thin film layer of a transfer sheet or a transferred transfer layer and reversible recording on a rewritable layer. can do. According to the fifth aspect of the present invention, the same effect as the fourth aspect of the present invention is obtained, and the irreversible process performed on the low melting point metal thin film layer of the transfer sheet or the transferred transfer layer by adding the coloring layer. It is possible to provide a transfer sheet for producing an information recording medium, which can enhance the visual contrast of a natural recording. According to the invention of claim 6, in addition to the effect of the invention of claim 4 or 5, the durability of the surface of the transfer layer to be transferred, especially abrasion resistance, is provided by having the protective layer on the surface. It is possible to provide a transfer sheet for producing an information recording medium having improved scratch resistance.

According to the invention of claim 7, it is possible to provide an information recording medium capable of performing irreversible recording on the low melting point metal thin film layer and reversible recording on the rewritable layer. According to the eighth aspect of the present invention, the same effect as that of the seventh aspect of the present invention is obtained, and the visual contrast of the irreversible recording performed on the low-melting point metal thin film layer is enhanced by including the coloring layer. It is possible to provide an information recording medium capable of performing the following. Claim 9
According to the present invention, in addition to the effects of the invention according to claim 7 or 8, an information recording medium having improved surface durability, particularly abrasion resistance and scratch resistance, by having a protective layer on the surface. Can be provided. According to the tenth aspect of the present invention, since the information recording body manufacturing label according to any one of the first to third aspects is laminated on the base material, the information recording body manufacturing label is With the laminated structure, it is possible to provide an information recording medium having the effects of the corresponding invention of any one of claims 7 to 9. According to the eleventh aspect of the present invention, the transfer layer according to any one of the fourth to sixth aspects of the present invention is laminated on the base material. An information recording medium having the effects of any one of the seventh to ninth aspects can be provided. According to the twelfth aspect of the invention, in addition to the effects of the eighth aspect, the base material may be a magnetic card, an IC card,
Or an optical card, or a composite card of these various cards, irreversible recording on the low melting point metal thin film layer and reversible recording on the rewritable layer in association with the information recorded on the recording means in these cards Can be provided.

[Brief description of the drawings]

FIG. 1 is a sectional view of a label for manufacturing an information recording medium.

FIG. 2 is a sectional view of another label for manufacturing an information recording medium.

FIG. 3 is a cross-sectional view of a transfer sheet for manufacturing an information recording medium.

FIG. 4 is a cross-sectional view of another transfer sheet for manufacturing an information recording medium.

FIG. 5 is a plan view of the information recording medium.

FIG. 6 is a sectional view of an information recording medium.

FIG. 7 is a sectional view of another information recording medium.

FIG. 8 is a sectional view of an information recording body obtained by laminating labels.

FIG. 9 is a cross-sectional view of an information recording body obtained by transferring a transfer sheet.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 Label for producing information recording medium 2 Base film 3 Low melting point metal thin film layer 4 Rewritable layer 5 Adhesive layer 6 Coloring layer 7 Protective layer 8 Transfer layer 9 Information recording layer 10 Information (10a; fixed information, 10b; update information) DESCRIPTION OF SYMBOLS 11 Transfer sheet for information recording body manufacture 12 Peelable sheet 21 Information recording body (card) 22 Base material

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) B44C 1/165 B44C 1/165 K G09F 3/10 G09F 3/10 J G11B 23/40 G11B 23/40 Z F-term (reference) 2C005 HB01 HB04 HB07 HB09 HB13 HB14 JA01 JA06 JA11 JA26 JC02 JC05 JC06 KA01 KA06 KA10 KA37 KA48 LA03 LA20 LA30 LB08 LB25 3B005 EB01 FB01 FB11 4F100 AB01B12 AK11G12 AK11A21KJ AR00C AR00D AR00E AS00E AT00A BA04 BA05 BA06 BA07 BA10D BA10E CB00 EH66 EJ91E GB90 HB00E JA04B JG06A JL00C JL05 JL10E JL11D JL12D JL14E JM02B

Claims (12)

[Claims] 1. A label for producing an information recording medium, comprising: a low melting point metal thin film layer and a rewritable layer sequentially laminated on one side of a base film, and an adhesive layer laminated on the other side. 2. An information recording medium manufacturing method, wherein a coloring layer, a low melting point metal thin film layer, and a rewritable layer are sequentially laminated on one side of a base film, and an adhesive layer is laminated on the other side. For labels. 3. The label according to claim 1, wherein a protective layer is further laminated on the exposed surface of the rewritable layer. 4. An information recording apparatus comprising: a transfer layer having a laminated structure in which a rewritable layer, a low-melting metal thin film layer, and an adhesive layer are sequentially laminated on a peelable surface of a peelable sheet. Transfer sheet for body production. 5. A transfer layer having a laminated structure in which a rewritable layer, a low-melting metal thin film layer, a coloring layer, and an adhesive layer are laminated in this order on a peelable surface of a peelable sheet. Transfer sheet for producing information recording medium. 6. The transfer sheet for producing an information recording medium according to claim 4, wherein a protective layer is laminated on the releasable surface side of the transfer layer. 7. An information recording medium, comprising: an information recording layer having a laminated structure in which a low melting point metal thin film layer and a rewritable layer are laminated from the substrate side on a substrate. 8. An information recording layer having a laminated structure in which a colored layer, a low melting point metal thin film layer, and a rewritable layer are laminated on at least a part of the substrate from the substrate side. Information recording body to be. 9. The information recording medium according to claim 7, wherein a protective layer is laminated on an uppermost layer of the information recording layer. 10. The method according to claim 1, wherein at least a part of the substrate is provided.
4. An information recording body, wherein the label for producing an information recording body according to any one of the above-mentioned items 3 has an information recording layer laminated by the adhesive layer. 11. The method according to claim 4, wherein at least a part of the substrate is provided.
7. An information recording body, wherein the transfer layer according to any one of items 6 to 6 has an information recording layer laminated by the adhesive layer. 12. The information recording medium according to claim 8, wherein the base material is a magnetic card, an IC card, an optical card, or a composite card of these various cards.