JP2759746B2 - Magnetic recording medium and manufacturing method thereof - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a prepaid card,
The present invention relates to a magnetic recording medium such as a D card, a cash card, a point card, a ticket (commuter pass, ticket, coupon), a magnetic card, a magnetic sheet, a magnetic roll paper used for a pass ticket, and a method of manufacturing the same. It is another object of the present invention to provide a magnetic recording medium having an unauthorized use preventing function.

[0002]

2. Description of the Related Art In recent years, prepaid cards, ID cards,
Cash card, point card, ticket (commuter pass,
In the field of magnetic recording media used for applications such as magnetic cards, magnetic sheets, magnetic roll paper, etc. used for tickets, coupons, pass tickets, etc., how to prevent unauthorized use such as counterfeiting, alteration, etc. It is a big theme. Conventionally, many methods have been proposed for imparting an unauthorized use preventing function to this type of magnetic recording medium, and each of these methods is roughly classified into the following two types. First, as a first type of method, there is a method of hiding regular magnetic information so that it cannot be read by a normal method. A second type of method is a method in which identification information for determining whether a magnetic recording medium is a legitimate one is given to the magnetic recording medium itself.

As one of the first types of methods, there is known a method in which a magnetic recording layer is multi-layered, and regular information and dummy information are recorded on different magnetic recording layers. In this method, if the regular information and the dummy information are recorded on the same track, the regular information cannot be read by the normal method because the dummy information is superimposed on the regular information when the information is read. Therefore, unauthorized use can be prevented. Also, as one of the second types of methods, a method of providing a magnetically readable barcode on a magnetic recording medium is known. According to this method, it is possible to determine whether or not the magnetic recording medium is legitimate based on the barcode information, thereby preventing unauthorized use.

[0004]

However, each of these conventional methods for preventing unauthorized use has a drawback and is not a satisfactory method. That is, first, in the magnetic recording medium provided with the unauthorized use prevention function according to the first type of method, once the method of reading the legitimate information has been clarified, a large amount of the magnetic recording medium can be copied. There is a problem that becomes possible. Further, the magnetic recording medium provided with the second type of unauthorized use prevention function has a large amount of magnetic recording medium because the magnetic recording medium itself has information for determining whether the magnetic recording medium is genuine. Although it is difficult to copy or use the medium, there is a problem that it is not possible to cope with unauthorized use due to alteration such as rewriting information of a legitimate medium.

The present invention has been made in view of the above circumstances, and unlike a conventional magnetic recording medium with a forgery prevention function, different forgery prevention information can be recorded on each magnetic recording medium. It is an object of the present invention to provide a magnetic recording medium capable of making it impossible to add or delete information for use, and having a very high forgery prevention capability, and a method of manufacturing the same.

[0006]

According to a first aspect of the present invention, there is provided a magnetic recording medium comprising a magnetic layer formed on a non-magnetic substrate, wherein the magnetic layer comprises a non-magnetic substrate. first become comprises a magnetic layer, Ba each magnetic layer and a binder formed and thereon the side near the second magnetic layer of the
A first magnetic layer having a coercive force of 250 to 5000 Oe, and a second magnetic layer having a coercive force of 100 oersted or less. and, wherein the second magnetic layer, Ri Na to record constants write and erasable, the second
In the magnetic layer, the magnetic particles are mixed with a specific density in a binder.
In the area where the concentration of magnetic particles is high.
Form a protrusion formed by densely, write by the protrusion
And fixed information that cannot be embedded or erased .

According to a second aspect of the present invention, in order to solve the above-mentioned problems, a protrusion formed by densely packed magnetic particles is provided.
And a bar-code pattern is formed .

According to a third aspect of the present invention, there is provided a magnetic recording medium comprising:
Protrusions formed by densely dispersed magnetic particles
When drying the undried binder on the first magnetic layer
According to the magnetic information recorded in the first magnetic layer in advance,
In the binder corresponding to the magnetic field generated by the magnetic layer 1
The magnetic particles are shaded and this shade is
Characterized by being formed by drying the binder .

According to a fourth aspect of the present invention, in order to solve the above-mentioned problems, a non-magnetic holding base material has a thickness of 250 to 5,000 elsters.
Comprising the magnetic particles and a binder having a coercive force of the head first magnetic layer was formed comprising, subsequently subjected to magnetic recording in the first magnetic layer and then to the first magnetic layer 100
Magnetic particles having a coercive force below Oersted and a binder
And a magnetic paint for the second magnetic layer containing a solvent
The first magnetic layer generates a bias according to the strength of the magnetic field generated by the first magnetic layer.
The density of the magnetic particles in the magnetic layer
Shape due to dense magnetic particles
Formed protrusions, and then, by evaporation of the solvent,
The magnetic particles in the boiler
Forming a second magnetic layer to give fixed information corresponding to the magnetic information of the first magnetic layer to the second magnetic layer, and further forming an adhesive layer on the second magnetic layer to form a magnetic transfer tape; Then, using the magnetic transfer tape, the first magnetic layer and the second magnetic layer are transferred onto a non-magnetic substrate.

According to a fifth aspect of the present invention, there is provided a method of manufacturing a magnetic recording medium according to the fourth aspect, wherein the protrusions formed by the denseness of the magnetic particles provide
-It forms a chord-like pattern .

[0011]

The second magnetic layer having a low coercive force and the first magnetic layer having a high coercive force are laminated on a non-magnetic substrate, and fixed information which cannot be written or erased is recorded on the second magnetic layer. The presence of the second magnetic layer on which the fixed information is recorded can be visually hidden by the first magnetic layer, and the presence of the fixed information can be hidden. The fixed information given to the second magnetic layer indicates that the magnetic material used in the second magnetic layer is one.
Due to the very low coercive force of less than 00 Oersted,
It cannot be detected by a normal magnetic head. However, the fixed information can be magnetically read by reading with a magnetic head while applying a bias magnetic field. Therefore, by using this fixed information, illegal use such as forgery or falsification of the magnetic recording medium can be prevented. Since normal magnetic recording can be performed on the second magnetic layer having a high coercive force, the magnetic recording medium according to the present invention itself can be used for normal use as a magnetic recording medium.

[0012] The magnetic particles are distributed in a particular shade at the second magnetic layer, the densely by assembling the magnetic particles in a binder of the second magnetic layer to form a projection which is formed, the magnetic particles
Is physically fixed in the second magnetic layer.
This means that fixed information that cannot be written or erased is recorded on the second magnetic layer. Therefore, identification of the magnetic recording medium can be easily performed using this fixed information,
Unauthorized use such as forgery or falsification of the magnetic recording medium can be prevented. Further, since the coercive force of the first magnetic layer is set to a predetermined value within the range of 250 to 5000 Oersted and the coercive force of the second magnetic layer is set to a value of 100 Oersted or less, it is conventionally used for magnetic recording media. It is easy to use the magnetic particles.

According to the method of the present invention, fixed information corresponding to the first magnetic layer can be provided to the second magnetic layer.
That is, when forming the second magnetic layer on the first magnetic layer,
If a magnetic paint containing magnetic particles, a binder and a solvent is applied on the first magnetic layer and the solvent is volatilized , the magnetic particles in the binder match the magnetic information of the first magnetic layer while the solvent evaporates. Magnetic particles in a dark state
Because the dense portion to produce a projection, drying of the binder
Thereafter, the presence of the projections due to the density of the magnetic particles forms the fixed magnetic information of the second magnetic layer. Since the magnetic information to be written in the first magnetic layer can be arbitrarily changed using a magnetic recording element such as a magnetic head, the fixed magnetic information to be formed in the second magnetic layer can be arbitrarily selected. Therefore, for example, it is possible to record individual fixed magnetic information according to each magnetic recording medium. And the second having the fixed information
The second magnetic layer provided with the fixed information and the first magnetic layer on the second magnetic layer are adhered to the non-magnetic base material by using the adhesive layer.
Is obtained.

An example of the present invention will be described below with reference to the drawings. FIG. 1 shows an example of a magnetic recording medium according to the present invention, which comprises a card-shaped substrate 1 and a magnetic recording stripe 2 formed on one side of the substrate 1. . The cross-sectional structure taken along the line YY ′ of the magnetic recording medium shown in FIG. 1 is, as shown in FIG.
The magnetic stripe 2 is buried in the groove 3 on the side of the magnetic stripe 2.
Is a magnetic recording medium A comprising a band-shaped adhesive layer 4 on the bottom side of the above and a second magnetic layer 5, a first magnetic layer 6, and a protective film layer 7 sequentially laminated thereon. . Here, since the protective film layer 7 is provided to protect the first magnetic layer 6, it may be omitted in some cases. Further, a colored layer or a metal deposited film may be formed between the first magnetic layer 6 and the protective film layer 7 as needed. Further, in the magnetic recording medium A of this example, the adhesive layer 4, the second magnetic layer 5, the first magnetic layer 6, and the protective film layer 7
Are embedded in the substrate 1 by thermocompression bonding. Further, in the magnetic recording medium of the present invention, as shown in FIG. 2 (b), an adhesive tank 4, a second magnetic layer 5, a first magnetic layer 6, and a protective coating layer 7 are sequentially formed on the upper surface of the base 1 '. The magnetic recording medium B may have a laminated structure.

The substrate 1 has a thickness of about 150 μm to 1 mm and is made of a non-magnetic material such as synthetic paper, wood pulp paper, laminated paper, polyester film, PVC sheet, polyethylene terephthalate, etc., depending on the intended use. An appropriate one may be used. Therefore, a sheet or film made of the above-mentioned material, a generally known material for a magnetic recording medium substrate, or a laminate thereof may be used. As the adhesive layer 4, a hot-melt type adhesive can be used. For example, an adhesive such as a vinyl chloride / vinyl acetate copolymer-based resin, a polyester-based resin, a polyamide-based resin, and a polyurethane-based resin is used alone or in combination. Can be used.

The first magnetic layer 6 is formed by dispersing magnetic particles (magnetic powder or the like) in a binder so as to have a predetermined high coercive force of 250 Oe or more, for example, 250 to 5000 Oe. It has a structure. As the magnetic particles, gamma iron oxide (γ-Fe) having a coercive force of about 250 to 400 Oe
₂ O ₃ ) particles, cobalt-coated gamma iron oxide particles having a coercive force of about 600 to 700 Oe, 1600 to 1
Barium ferrite (Ba) having a coercive force of about 900 Oersted or 2500 to 3000 Oersted
O-6Fe ₂ O ₃ ) particles and the like can be appropriately selected and used. In addition, particles of a known magnetic material such as chromium oxide and strontium ferrite may be used in addition to these materials.

The second magnetic layer 5 has a structure in which, for example, magnetic particles (magnetic powder and the like) having a predetermined low coercive force within a range of 100 Oe or less are distributed in a binder. As the above particles, carbonyl iron powder, zinc ferrite, manganese zinc ferrite, nickel powder, triiron tetroxide, permalloy, sendust, alpalm and the like are appropriately used.

The binder for dispersing and fixing each magnetic particle in the first magnetic layer 6 and the second magnetic layer 5 is as follows:
A binder obtained by adding a small amount of an additive such as a pigment to a binder such as a vinyl chloride / vinyl acetate copolymer resin, a polyurethane resin, a polyester resin, or an epoxy resin can be used. Any known binder may be used as appropriate. In addition, as the additive, an inorganic pigment such as silica or alumina, wax, silicon oil, or the like may be added.

On the bottom side of the second magnetic layer 5, a ridge-shaped protrusion 5, which is perpendicular to the longitudinal direction of the band-like second magnetic layer 5, is provided.
a are formed at predetermined intervals as shown in FIG. These protrusions 5a are formed so that the magnetic particles in the binder of the second magnetic layer 5 are densely swelled in this portion, and in the second magnetic layer 5, the portion of the protrusion 5a and its portion are formed. Magnetic particles are densely aggregated in the vicinity. Therefore, on the bottom side of the second magnetic layer 5, the protrusions 5a.
A type of magnetic barcode-like pattern is formed. The protective coating layer 7 can be used alone or in combination of acrylic resin, cellulose resin, urethane resin, polyester resin, epoxy resin, vinyl chloride / vinyl acetate copolymer resin, or the like.

FIG. 3 is an enlarged cross-sectional view of the magnetic recording medium of the present invention shown in FIG. 1 along the line XX '. The adhesive layer 4, the second magnetic layer 5, and the first 1 shows a structure in which a magnetic layer 6 and a protective film layer 7 are sequentially laminated.

Next, an example of a method for manufacturing the magnetic recording medium having the above configuration will be described. In this example, an example of a method for manufacturing a magnetic recording medium B after manufacturing a magnetic transfer tape will be described. In order to manufacture the magnetic recording medium B, first, a holding substrate 10 made of a magnetic material as shown in FIG. 4 is used, and a release layer 11 is formed on the holding substrate 10.
A protective film layer 13 is formed on the release layer 11. As the holding base material 10 used here, for example, a polyester film having a thickness of about 5 to 500 μm can be used. Further, as the release layer 11, an acrylic resin, a cellulose resin, a urethane resin, a polyester resin, an epoxy resin, a vinyl chloride / vinyl acetate copolymer resin, or the like can be used alone or in combination.

Next, 250 μm is formed on the protective coating layer 13.
Applying a magnetic coating material having magnetic particles (magnetic powder), a binder and a solvent so as to have a predetermined coercive force in a range of up to 5000 Oersted; evaporating the solvent to dry the magnetic coating material; 15 is formed. At this time, the first magnetic layer 15 may be subjected to a magnetic field orientation treatment to perform a magnetic powder orientation treatment. This magnetic field orientation treatment may be performed using an orientation magnet while the magnetic paint is not dried.

Next, magnetic recording is performed on the first magnetic layer 15 of the magnetic raw material obtained as described above. This magnetic recording may be performed from the front side or the back side of the first magnetic layer 6 by a magnetic head in the same manner as in a normal magnetic recording system. As the magnetic head used at this time, a number of magnetic heads may be arranged in the width direction in accordance with the width of the magnetic material, or one magnetic head having a magnetic core large enough to record the entire width of the magnetic material may be used. May be.

As a result of the magnetic recording, a magnetization reversal pattern as shown in FIG. 4 is formed in the first magnetic layer 15. Then, the second magnetic layer 1 is added to the first magnetic layer 15 of the magnetic material.
6 are laminated. The second magnetic layer 16 is formed by applying a magnetic paint including a magnetic powder having a predetermined coercive force of 100 Oe or less, a binder, and a solvent on the first magnetic layer 15. When the solvent of the magnetic paint is still present, the magnetic powder in the magnetic paint gathers in the vicinity of the interface 17... Of the magnetization reversal by the magnetic recording performed on the first magnetic layer 15. Since the portion becomes a dense portion where the magnetic powder is gathered, a protrusion 16a as shown in FIG. 4 is formed in conformity with the magnetic recording content of the first magnetic layer 15, and thereafter, the second magnetic layer is Drying results in a kind of magnetic barcode-like pattern.

Finally, the adhesive layer 18 is formed on the second magnetic layer 16.
Is formed, a magnetic substrate of the magnetic transfer tape is formed. Then, the magnetic transfer tape 19 is obtained by cutting the magnetic material into a desired width. Next, the magnetic transfer tape 19 is adhered to the non-magnetic substrate 1 ', and then the holding substrate 10 is peeled off as shown in FIG. 4 to obtain the magnetic recording medium B having the structure shown in FIG. Is obtained. In this case, the first magnetic layer 15 shown in FIG.
The first magnetic layer 6 shown in FIG. 2B is formed, the second magnetic layer 5 shown in FIG. 2B is formed by the second magnetic layer 16 shown in FIG. 4, and the protection layer 13 shown in FIG. 2 (b) protective layer 7
Is formed. In order to manufacture the magnetic recording medium A,
This can be achieved by subjecting the magnetic recording medium B to hot-press processing such as hot-roll processing.

In the magnetic recording medium A or the magnetic recording medium B having the above-described structure, recording and reproduction of magnetic information can be performed on the first magnetic layer 6 using a normal magnetic head. Therefore, it can be used as a magnetic recording medium for normal use. The magnetic recording information applied to the first magnetic layer 6 at the time of manufacture may be erased in advance by DC or AC demagnetization, but it can be rewritten by a normal magnetic recording method without performing this. In addition, it does not hinder normal magnetic recording. If the magnetic information formed on the second magnetic layer 5 is read by a magnetic head while applying a bias magnetic field from the outside, a reproduction output corresponding to the read can be obtained.

By the way, in the magnetic recording media A and B, a kind of bar code-like magnetic pattern consisting of protrusions 5a is formed on the back side of the second magnetic layer 5, and the protrusions 5a Are embedded in the adhesive layer 4 and face the base 1, so that the projections and depressions of the protrusions 5 a do not appear on the surface side of the magnetic stripe 2. Therefore, there is a feature that the presence of the protrusions 5a... And the bar-code-shaped magnetic pattern cannot be distinguished from the outside. Therefore, the magnetic recording media A and B having the above structure have magnetic pattern information which cannot be visually discriminated at all from the outside under the first magnetic layer 6 for performing normal magnetic recording.

Moreover, when the magnetic coating for forming the second magnetic layer 5 is applied and dried, the projections 5a... Can be moved in a state where the magnetic particles can move before the solvent evaporates. The magnetic information recorded on the second magnetic layer 5 is not formed after the formation of the second magnetic layer 5 because the magnetic information cannot be moved after the solvent is evaporated and the magnetic particles are fixed. It becomes fixed information that cannot be written or erased. The magnetic information of the second magnetic layer 5 can be freely selected by appropriately selecting a magnetic recording pattern formed by a magnetic head when the first magnetic layer 6 is manufactured. That is, the same information can be repeatedly formed as in the case of forming fixed information by a printing method, and random information that cannot be formed by a printing method can be formed. When random information is recorded, completely different individual information (fingerprint information and the like) can be added to each card in a magnetic recording medium that is a final product, for example, a magnetic card. That is,
By utilizing the fingerprint information as ID information of the magnetic recording medium, forgery by copying the information of the magnetic recording medium to another magnetic recording medium becomes impossible. Therefore, it is possible to provide the magnetic recording media A and B which cannot be forged or altered.

In the above-described example, an example is described in which the in-plane magnetic recording is performed on the first magnetic layer 6.
Some types of magnetic layers can be perpendicularly magnetized. Therefore, when a perpendicularly magnetizable magnetic layer is used, magnetic recording is performed on the first magnetic layer by perpendicular magnetization, and magnetic information based on the perpendicular magnetization is used. Thus, the fixed information may be given to the second magnetic layer 5.

Example 1 The present invention will be described in more detail with reference to the following examples. A paint for forming a release layer was prepared in the following compounding ratio. Acrylic polyol resin 15 parts by weight Isocyanate curing agent 1 part by weight Silicone oil 1 part by weight Toluene 40 parts by weight Methyl ethyl ketone 40 parts by weight Next, a coating material having the above composition is applied to a 25 μm-thick polyester film holding base material using a gravure coater. And dried to form a release layer having a thickness of 1 μm.

Subsequently, a coating for a protective film was prepared in the following compounding ratio. Nitrocellulose resin 10 parts by weight Polyurethane resin 9 parts by weight Isocyanate curing agent 1 part by weight Toluene 40 parts by weight Methyl ethyl ketone 40 parts by weight Next, a coating for forming a protective film having the above composition is applied on the release layer by a gravure coater and dried. Let the thickness 1μm
Was formed.

Subsequently, a coating material for forming a first magnetic layer was prepared in the following mixing ratio. Barium ferrite (BaO.6Fe2O6) (coercive force 2750 oersted Specific surface area 8 m2 / g) 100 parts by weight Carbon black 3 parts by weight Lecithin 1 part by weight Vinyl chloride / vinyl acetate / vinyl alcohol copolymer 20 parts by weight Polyurethane resin 20 parts by weight Toluene after 60 parts by weight Methyl ethyl ketone 60 parts by weight methyl isobutyl Bed ethyl ketone 60 parts by weight coating of the mixture of the blended composition was dispersed for 8 hours in a ball mill, a polyisocyanate curing agent was added 5 parts by weight, further for 1 hour dispersion, first Was obtained. The coating operation may be performed according to a normal method for manufacturing a magnetic recording medium. That is, it is applied on the protective layer with a gravure coater, and a magnetic field orientation treatment is performed before the coating is dried.
Thereafter, the magnetic layer is dried in a drying apparatus to form a magnetic layer having a thickness of 12 μm, and is wound as a raw material.

Subsequently, a coating material for forming a second magnetic layer was prepared with the following composition. Carbonyl iron powder (coercive force 40 Oersted Specific surface area 1 m ² / g) 100 parts by weight Carbon black 3 parts by weight Lecithin 1 part by weight Vinyl chloride / vinyl acetate / vinyl alcohol copolymer 20 parts by weight Polyurethane resin 20 parts by weight Toluene 60 parts by weight 60 parts by weight of methyl ethyl ketone 60 parts by weight of methyl isobutyl ketone After dispersing the above mixture by a ball mill for 8 hours, 5 parts by weight of a polyisocyanate-based curing agent was added, and the mixture was further dispersed for 1 hour to obtain a magnetic coating material for forming a second magnetic layer. Obtained. The second magnetic layer is formed by applying a coating material for forming a second magnetic layer on the first magnetic layer using a gravure coater and laminating the coating material.

However, before applying the second magnetic layer, that is, before the raw material formed up to the first magnetic layer reaches the gravure coating head for applying the second magnetic layer,
Magnetic recording is performed in advance on the first magnetic layer using a magnetic head. This magnetic head has a head gap of 50 μm.
The recording was performed by applying a pulse current capable of sufficiently recording the first magnetic layer in saturation using the recording magnetic head of (1). Because the web is eventually cut into magnetic tape,
Magnetic recording was performed by arranging recording magnetic heads in the width direction of the raw material so that magnetic recording could be performed on each magnetic tape.

The magnetic recording was performed by the 100 bpi FM method. A barcode pattern corresponding to the magnetic recording was formed on the second magnetic layer and fixed as fixed information. Next, a magnetic coating material for forming a second magnetic layer was applied by a coating head portion, and dried in a drying device to form a second magnetic layer having a thickness of 6 μm. As a result, a bar code pattern was formed and fixed on the second magnetic layer.

Finally, a paint for forming an adhesive layer was prepared according to the following formulation. 5 parts by weight of vinyl chloride / vinyl acetate copolymer resin 15 parts by weight of polyester resin 40 parts by weight of toluene 40 parts by weight of methyl ethyl ketone The above coating composition for adhesion is applied on the second magnetic layer by a gravure coater, and dried to obtain a thick layer. A hot melt adhesive layer having a thickness of 10 μm was formed to obtain a magnetic raw material.

The magnetic raw material obtained in this way was 6.5
The resultant was cut into a tape having a width of mm to obtain a magnetic transfer tape. Using this magnetic transfer tape, the laminate of magnetic layers was thermally transferred to a 100 μm-thick vinyl chloride sheet, and the 25 μm-thick polyester film serving as a holding substrate was peeled off. The thus obtained vinyl chloride sheet with a transfer magnetic layer, a 560 μm-thick vinyl chloride sheet for a center core, and a 100 μm-thick vinyl chloride sheet for an oversheet are superimposed and heated to a thickness of 760 μm. It was compressed and then punched into a card to obtain a magnetic recording medium (card) with a magnetic stripe of JIS standard according to the present invention.

Subsequently, the following evaluation test was performed on the above-mentioned card. When reading was performed by a reproducing magnetic head while applying a bias magnetic field of 1 kG to the magnetic stripe portion, a reproduced signal could be read by a barcode-like pattern fixed to the second magnetic layer. This information corresponded to the magnetic recording information performed on the first magnetic layer before the application of the second magnetic layer. Also, this information could not be added or deleted later. Then, using a recording magnetic head, normal magnetic recording is performed with a recording current capable of sufficiently recording the first magnetic layer in a saturated manner, and reading is performed with a reproducing magnetic head. I was able to.

[0039]

As described above, according to the present invention, the second coercive force having a coercive force of 100 Oersted or less is formed on a nonmagnetic substrate.
And a first magnetic layer having a coercive force of 250 to 5000 Oe are laminated, and fixed information that cannot be written and erased is recorded on the second magnetic layer. The presence of the magnetic layer can be visually hidden by the first magnetic layer, and the presence of fixed information can be hidden. Therefore, by using the fixed information for identifying the magnetic recording medium, it is possible to prevent the magnetic recording medium from being illegally used, such as forgery or falsification. Further, normal magnetic recording can be performed on the second magnetic layer having a high coercive force, so that the magnetic recording medium itself according to the present invention can be used for normal use as a magnetic recording medium.

[0040] The magnetic particles are distributed in a particular shade at the second magnetic layer, since it closely to set the magnetic particles in the second magnetic layer to form a protrusion, physically second magnetic layer the high concentration projection of immobilized magnetic particles, that is, the recording the write and erasable fixed information to the second magnetic layer. Therefore, it is possible to easily identify the magnetic recording medium by using the fixed information, and it is possible to prevent unauthorized use of the magnetic recording medium, such as forgery or falsification. In addition, this fixed information
The protruding parts can be formed in a bar code shape.
-If it is a cord-shaped protrusion, it can be confirmed as fixed information
I will be able to. Further, the coercive force of the first magnetic layer is set to 250
If the coercive force of the second magnetic layer is set to a value equal to or less than 100 Oersted to a predetermined value within the range of -5000 Oersted, magnetic particles conventionally used for magnetic recording media can be used. In addition, since fixed information corresponding to the magnetic information of the first magnetic layer can be provided to the second magnetic layer, a magnetic recording medium having the fixed information can be easily obtained.

Next, according to the method of the present invention, there is provided a method for forming a second magnetic layer having magnetic particles having a coercive force of 100 Oe or less on a first magnetic layer having a coercive force of 250 to 5000 Oe upon which magnetic recording has been performed. Forming magnetic paint, magnetic paint
Before drying, the state according to the magnetic information of the first magnetic layer
The magnetic particles in the magnetic paint are lined up to form a projection by shading.
The protrusions due to the density of the magnetic particles as the magnetic paint dries
Is physically fixed, so that the fixed information can be given to the second magnetic layer, whereby a second magnetic layer provided with the fixed information can be obtained. That is, when forming the second magnetic layer on the first magnetic layer, a magnetic paint containing magnetic particles, a binder and a solvent is applied on the first magnetic layer to evaporate the solvent, If the layer is dried, while the solvent evaporates, the magnetic particles of the second magnetic layer form a density and are dispersedly aggregated and distributed according to the magnetic information of the first magnetic layer. The density of the particles forms the fixed magnetic information of the second magnetic layer. Since the magnetic information to be written in the first magnetic layer can be arbitrarily changed using a magnetic recording element such as a magnetic head, the fixed magnetic information to be formed in the second magnetic layer can be arbitrarily selected. Therefore, for example, fixed magnetic information unique to each magnetic recording medium can be recorded. Further, the method of the present invention can be carried out only by adding a simple magnetic recording device to a conventionally used device for manufacturing a magnetic recording medium, so that no special device or technique is required. It is characterized by high productivity and low cost.

[Brief description of the drawings]

FIG. 1 is a front view showing an example of a magnetic recording medium according to the present invention.

2A is a cross-sectional view of the magnetic recording medium shown in FIG. 1 taken along the line YY ′, and FIG. 2B is a cross-sectional view showing another structural example.

FIG. 3 is an enlarged cross-sectional view of the magnetic recording medium shown in FIG. 1, taken along line XX '.

FIG. 4 is a cross-sectional view for describing an example of a method for manufacturing a magnetic recording medium.

[Explanation of symbols]

 A, B Magnetic recording medium, 1, 1 'base, 2 magnetic stripe, 3 groove, 4 adhesive layer, 5 second magnetic layer, 5a protrusion, 6 first magnetic layer, 7 protective film layer, 10 support base Material, 11 release layer, 13 protective film, 15 first magnetic layer, 16 second magnetic layer, 16a protrusion, 17 interface, 18 adhesive layer, 19 magnetic transfer tape.

──────────────────────────────────────────────────続 き Continuation of the front page (51) Int.Cl. ⁶ Identification code FI G11B 5/842 G06K 19/00 B (56) References JP-A-4-3283 (JP, A) JP-A-2-302930 ( JP, A) JP-A-7-117382 (JP, A) JP-A-6-20264 (JP, A) (58) Fields investigated (Int. Cl. ⁶ , DB name) G11B 5/716 B42D 15/10 501 G06K 19/06 G11B 5/80 G11B 5/842

Claims (5)

(57) [Claims] 1. A magnetic recording medium comprising a magnetic layer formed on a non-magnetic substrate, wherein the magnetic layer has a second magnetic layer close to the non-magnetic substrate and a first magnetic layer formed on the second magnetic layer. Each magnetic layer has a binder and a binder.
It comprises a plurality of magnetic particles dispersed secured to said first magnetic layer has a 250 to 5000 Oe in coercive force, the second magnetic layer has the following coercivity 100 oersteds, wherein the second magnetic layer, Ri Na to record constants write and erasable, in the second magnetic layer, especially the magnetic particles in a binder
Distribute at a constant density to create magnetic
Forming a projection formed by the denseness of the conductive particles,
A magnetic recording medium comprising fixed information that cannot be written or erased . 2. A projection formed by densely packed magnetic particles.
2. The magnetic recording medium according to claim 1 , wherein a bar-code-like pattern is formed . 3. The magnetism in a binder of the second magnetic layer.
Uniform magnetic particles as protrusions formed by dense particles
Drying the dispersed undried binder on the first magnetic layer
The recording was performed on the first magnetic layer formed beforehand.
Corresponds to the magnetic field generated by the first magnetic layer according to the magnetic information
The magnetic particles in the binder
The shading is fixed by drying the binder.
Claim 1 or 2, characterized by being used as a
3. The magnetic recording medium according to claim 1. 4. A non-magnetic holding base material having a thickness of 250 to 5,000
Forming a first magnetic layer comprising magnetic particles having a Rousted coercive force and a binder, performing magnetic recording on the first magnetic layer, and then forming a magnetic layer on the first magnetic layer;
Magnetic particles having a coercive force of 100 Oersted or less
A magnetic paint for the second magnetic layer comprising an undercoat and a solvent.
Applied, depending on the strength of the magnetic field generated by the first magnetic layer
Produces shading in the distribution of magnetic particles in the magnetic layer in the binder
To concentrate the magnetic particles in the area where the concentration of the magnetic particles is high.
Formed protrusions, and then the solvent evaporates
Fix the magnetic particles in the binder in a specific shaded state
Forming fixed information corresponding to the magnetic information of the first magnetic layer to the second magnetic layer by forming the second magnetic layer, and further forming an adhesive layer on the second magnetic layer to form a magnetic layer. A method for manufacturing a magnetic recording medium, comprising: forming a transfer tape; and transferring the first magnetic layer and the second magnetic layer onto a non-magnetic substrate using the magnetic transfer tape. 5. A projection formed by densely packed magnetic particles.
The method for manufacturing a magnetic recording medium according to claim 4 , wherein a bar-code-like pattern is formed .