DE2421469A1 - MAGNETIC ENCRYPTION DEVICE FOR DOCUMENTS - Google Patents

Description

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PATENT ADVOCATE?
Dr. - Ing. HANS RUSCHKE Dip! - Ing. OLT RLTTjHKE

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Minnesota Mining and Manufacturing Company, Saint Paul, Minnesota 55IOI (V.St.v.A.)

Magnetic encryption device for documents

This invention relates to magnetic recording methods and, more particularly, to the use of such methods in making out of security documents that have a permanent magnetic and determinable information pattern, ζ · Β · a code pattern, which is particularly useful for the validity of the document and for data processing in general

The ever increasing use of credit cards, airline tickets, share certificates and similar security documents has resulted in a great need for documents, the validity of which can easily be actuated, but which cannot be changed or forged without difficulty.

As used in the present application, the term "security e document "means a type of recording medium that preferably contains at least two pieces of information, namely visible, relating to the intended use of the document relational signs, and a permanent information pattern, such as a code pattern that is usually hidden and difficult to use

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reproduce, so that counterfeiting is difficult or prevented. Some of such security documents contain a magnetizable recording material with which data can be recorded, which can later be read by appropriate devices. The magnetizable material can be used to convey temporary information as well as to authenticate a document and / or to convey other fixed information. In US Pat. No. 3566356 a multipurpose security document is disclosed with magnetic recording, which comprises one or more layers of a composite of magnetizable material with specific Eysteresismerkmalen _β The verification of the document for authenticity is performed by comparing the signal response, if the document to the action of demagnetizing field, with a predetermined range of signal values which are dependent on the hysteresis characteristics of the material. Non-final data can be magnetically recorded in the material using conventional techniques. For such a document, however, specially prepared magnetizable materials must be used

U.S. Patent Nos. 3,052,353 and 3,328,195 are discloses yet further other multilayer magnetic recording media which are responsive to different frequency ranges or where there is short-term information that is easy to erase in one layer and difficult to delete in the other layer erasable information can be recorded. Such media can be used for security documents, whether so far was not suggested, whereby an authenticity check could be carried out in such a way that the presence of a particular, established one Information pattern, e.g. a harvesting pattern, is determined that is in the layer provided for information that is difficult to erase is recorded. However, in this case too, the document can be forged using conventional recording methods can be performed in such a way that such a recorded information code pattern is deleted or changed will.

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The invention provides a security document in which a magnetically determinable fixed information like a code pattern is permanently entered in a way that a Prevents change through the use of traditional practices. The security document is preferably with visible identification which indicate the intended use and a magnetizable recording layer composed of a uniformly dispersed magnetizable material that is magnetically anisotropic. The one planned in several places magnetizable material is physically aligned differently in relation to the alignment of the magnetizable material at a reference point, thereby creating the fixed information pattern is produced.

The invention also provides a method for making a Security document that carries a magnetically detectable permanent information pattern. In this execution fora is a flat material first with a non-magnetizable substrate and on this with a layer of an im substantially uniform dispersion of magnetically anisotropic and magnetizable particles, which can be freely rotated for a short time are · Since particles entered at selected points in the layer are then given a different orientation in relation to the Alignment of the magnetizable particles at a reference point, after which the particles are permanently made immobile, so that a permanently fixed information is created · The flat material is preferably with visible markings that relate to the intended use.

In a preferred embodiment of the invention, the different orientation of the particles at the selected locations in the layer due to the action of magnetic fields on them Causes.

The invention will now be described in detail. In the accompanying drawings is the

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Figo1 is a diagrammatic representation of a security document according to the invention,

2 shows a vertical section through part of a security document, the layer of which is differently oriented and contains magnetizable needle-shaped particles,

Figure 3 is a vertical section through part of another Security document, the layer of which is plate-like magnetizable particles between inner printable Contains layers and outer protective layers,

Pigο4 a diagrammatic representation of the manufacture of a Security document according to the invention and the

Pig. 5 shows a greatly enlarged cross-section through the Document according to the invention, which shows the different orientations of the magnetizable particles in a flat Shows material to be used as part of a security document

1 shows a security document 10 which consists of a base 12, a recording layer 14 with uniformly dispersed, magnetically anisotropic and magnetizable particles, and an outer layer 15 which bears visible markings 17. The term "uniformly dispersed ^M is intended to mean that the particle density, that _o, the number of particles per unit area within the layer is approximately constant even when the particles are oriented differently at different locations. The particles have at selected locations 16 and a different Alignment with respect to a reference point, which can be located, for example, at an edge 20 of the document 10. The double-pointed arrows drawn at the selected points 16 and 18 are intended to indicate the direction in which the magnetizable particles can be magnetized without difficulty are slightly magnetized after each sighting and, after the action of a given field, retain the magnetization in the direction of easy magnetization (remanence) than with magnetization in another direction itzigen

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Arrows indicated

In one embodiment of the invention, those at the selected locations 16 and 18 of the recording layer 14 cannot contained magnetizable particles do not have a specific orientation. On the other hand, the magnetizable particles in all those parts of the recording layer 14 outside of the selected locations should be oriented so that they are located in an easily magnetizable direction, such as by the Arrow 22 indicated

A magnetic anisotropy in magnetizable material particles is associated in most cases with some form of anisotropy or with a crystalline one Anisotropy. For example, hexagonal ferrite materials such as barium ferrite are characterized by a high degree of crystallinity Anisotropy. Such materials are in the form of very small ones Platelets easily obtainable, the crystalline anisotropy leading to an easy magnetizability in one to the plane of the Plate leads in a vertical direction. The platelets can easily be made using mechanical and / or magnetic Forces so that the plane of the platelet is parallel to the surface of the layer 14 · In this case the direction would the easy magnetizability run in the direction of arrow 22. The elected positions 16 and 18 are those districts in which the platelets in the layer 14 are upright and rotated in the desired direction, as by the two-pointed ones Arrows shown · The selected locations 16 and 18 can have the same distance from one another in the layer 14 and form a repeating pattern, which in turn defines a permanent signal track from which a predetermined, repetitive signal can be generated · Such a repeating pattern is found in the security document before, which will be described later in connection with FIGS. 4 and 5 will. On the other hand, the selected locations or locations 16 and 18 may be predetermined at a distance at non-repeating ones Places with variable intervals between them or oriented in different directions, as in the Fig.1 shown. It can be predetermined and not itself

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repetitive signal are generated which the places of not repeating selected positions.

2 shows a cross section drawn as enlarged Part of another security document 24 with a non-magnetizable background 26, with a recording layer 28 and a with a printable layer 29 "those with visible characters can be seen · The particles 30 in the recording layer 28 are shown greatly enlarged. The layer 28 contains needle-shaped or elongated. · gamma-F · ^, - particles which are in a flexible binder 31 are uniformly dispersed. the According to the illustration, layer 28 has the base parts 32 and 34 in which the particles 30 are uniform after being sifted are aligned, which runs both parallel to the surface and in the longitudinal extension of the document 24. Since the shape anisotropy is predominant in gamma FeoCU particles, so the direction of easy magnetizability runs parallel to the longitudinal dimension of the particles. The direction of easy magnetizability in the base parts 32 and 34 therefore runs likewise parallel to the surface and to a longitudinal dimension of the document. Part 36 represents a selected point in which the particles 30 are still aligned parallel to the surface of the document 24, but perpendicular to the aligned particles in the underground portions 32 and 34. For reasons the clarity is in parts 32 and 34 and at the chosen one Point 36 shows a sharp transition in the direction of alignment of the particles. Due to the normal divergence of the Magnetic flux, such a transition extends over a distance that is determined by the characteristics of the directed magnetic field.

The document 24 is provided with a conventional magnetic recording field which is in the longitudinal direction of the document, i.e., in the direction of the orientation of the particles in the underground parts 32 and 34, the particles located in these parts are slightly magnetized and retain them Magnetization to a higher degree at (remanence) than at the selected point 36, at which the particles are oriented differently for the magnetization field. When reproducing the information

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a signal with a high amplitude is generated, which the underground parts 32 and 34, while one of the selected positions 36 corresponding signal with a low amplitude is generated «

The magnetic recording layers used in the security document according to FIG. 2 suitably consist of strips of conventional magnetic recording means which are embedded in or attached to a base, for example a 0.76 mm thick Eredit card material. This material is readily available as 0.66 mm thick sheets of 95 wt.% Polyvinyl chloride - 5 wt.% Polyvinyl acetate. If desired, the printable layer 29 can be omitted by adding a titanium dioxide pigment to the composition of the base, whereby a printable area is created. If furthermore desired, an outer 0.051 mm thick protective layer of 95 wt.% Polyvinyl chloride - 5 wt be bonded with the application of heat to the pigmented layer after it has been written on. The magnetic recording layers generally consist of a mixture of the magnetizable material with a non-magnetizable flexible organic binder together with a suitable solvent, which layers are applied to the substrate and exposed to the action of aligning magnetic fields. In the normal case, such a coating consists of a uniform dispersion of 65% by weight of gamma: E ^< e ₂ 0, - ⁱ particles with a length of approximately 500 nm and a diameter of 100 nm and of 35% by weight of one thermoplastic polyurethane binder together with a suitable solvent. Other compositions suitable for magnetic recording media can of course also be used.

3 shows a greatly enlarged cross section part of another security document 38 with a magnet drawing layer 40, with the printable layers 41 and and with the protective layers 43. In this embodiment, the magnetizable layer 40 contains tiny platelets 44 made of barium ferrite, which in a pliable binder 45 evenly are dispersed. The particles 44 in the layer 40 are

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Exaggerated for the sake of clarity. According to the illustration, the particles 44 are in the base parts 46 and 48 aligned parallel to the surface of the document 38, so that the direction of easier magnetizability is perpendicular to the plane of the document runs, as shown in FIG. 1 by the arrow 22. The particles are at the selected point 50 upright, so that the direction of easy magnetizability at the selected point 50 runs parallel to the plane of the document 38 The greater anisotropy that normally exists in barium ferrite particles as opposed to the elongated (needle & shaped) gamma Fe ^ O ^ particles, and the greater ease with which the particles can be aligned leads to an even larger differential difference in the remanent magnetization as a result of the application of a uniform magnetic field to the magnetic recording layer 40. As already mentioned in connection Executed with the Fig, 2, the transition between the Subsurface portions 46 and 48 and the selected location 50 extend a distance that depends on the features of the aligning Magnetic field is determined

Fig. 4 shows a method for producing a security According to Figures 1, 2 and 3 "where a not." magnetizable material as substrate 52 from a supply roll 54 passed from under a coating device 56 which is a dispersion 57 of magnetizable anisotropic particles in a binder and with suitable solvents contains. In this case, a magnetizable one is applied to the substrate 52 Recording layer 58 applied. A section of layer 58 is then exposed to the action of a magnetic field, generated by an alignment device. In the illustrated embodiment, the alignment device 60 consists suitably from a section of a pre-magnetized permanent magnetic material based on polymer, the barium ferrite platelets contains. This permanent magnetic material is described in US Pat. 2 999 275 described. Via the alignment facility 60 extending away tapes of an oppositely magnetized material 62 and 64. If the layer 58 on the alignment device 60, the

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magnetizable ». Particles at points 59 corresponding to the magnetic fields aligned in a manner to be described. After this, the alignment device 60 is removed to provide a Avoid smearing of the aligned particles when the substrate 52 and the layer 58 are then on a heated rod are passed, with the layer 58 heated and the solvent is vaporized with the result that the magnetizable particles are made permanently immobile *. The heated one Rod 66 is suitably and in a conventional manner electrically heated · If required »the alignment device 60 remain on the substrate 52 and on the layer 58 until the particles have been rendered immobile, for example by heating, whereby an unintentional blurring of the aligned particles is avoided. A printable layer 68, the visible one, is then applied to layer 58 Sign 70 bears the purpose of the document or ID indicate. The printable layer 68 can also consist of a section of self-adhesive tape with the desired indicia is labeled. Similar layers can be applied with heat or other means as desired

The following is an example of the production of a security document described

A 0.10 mm thick sheet of pigmented with TIOP 95 G "w% polyvinyl chloride - 5 wt.% Polyvinyl acetate _e is placed close to an aligning magnetic field source so that extends through * the sheet a substantial magnetic flux. A dispersion of 50 wt,% Bariumferritplättchen (having an average diameter of about 1-5 microns and a length to thickness ratio of about 7 * 1) ι mixed with 50 wt. # A thermosetting resin when heated, such as an isocyanate terminated Uräthanpräpolymer , with a diamine curing agent and with a suitable catalyst is applied to the sheet with a thickness of about 0.58 mm and caused to cure in the presence of the aligning field, whereby a layer is produced which contains a uniform dispersion of the barium ferrite flakes, which selectively on the flow lines of the field

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Are aligned · When using a binding agent with sufficient viscosity, the covering needs during the rest of the part curing in the field, not to remain. Since there are usually no forces to destroy alignment, look for it the particles maintain their alignment. There is generally a curing time before the covering is fully cured of 10 hours at a temperature of 25 ° 0 is required. After curing is complete, the upper pigmented layer can be produced are made by applying a dispersion of TiOp pigment in an identical Uräthaspräpolymer on the layer up to one Thickness of approximately 0.012-0.050 mm. A visible lettering can then be attached to one side, and to one side A transparent protective layer is applied, which prevents the lettering from being changed. The amount of barium ferrite in the Layer can be up to 85% by weight, with a rotation of the Particle is still possible.

FIG. 5 shows the alignment in a greatly enlarged representation magnetizable particles in a flat material, which is a dispersion of magnetically anisotropic particles in one Contains flexible and uncured binder, so that the particles can rotate freely under the action of a magnetic field are.

The sheet 72 is placed in close proximity to an aligning magnetic field source 76 which is a repeating pattern of alternating Magnetic field polarities 77 and 78 contains which PeId is strong enough to cause a rotation of the particles in the material 72 in the direction of the magnetic flux lines. The magnetic field source 76 suitably consists of a section of a pre-magnetize permanent magnetic material based on polymer, as already described. The particles contained in the material 72 are therefore aligned, as shown by the double-headed arrows, so that the sighting of easy magnetizability follows the imprinted flow lines. When using barium ferrite plates the plane of the platelets is of course perpendicular to the double-headed arrows 74- · Subject the alignment of the Particles in the material 72 will harden the binder, whereby

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the particles are permanently held in their orientation «earth the flat material encrypted in this way with printable and protective layers are combined to form a security document. If desired) magnetization areas can be used with relatively narrow boundaries between adjacent districts (FIGS. 3 and 2) are generated in that the distance 78 between the magnetic field source 76 and the sheet 72 is reduced will. An even further reduction in the delimitation widths can be achieved if the sheet 72 is between matching Arranged magnetic field sources or one the magnetic flux concentrating base plate is provided.

The above-described security document according to the invention should be in a validation facility of the action exposed to a substantially rectified magnetic field. that a different magnetization of the particles at the selected points according to the orientation of the particles causes. The differently magnetized selected locations are then sensed for what purpose the document is at a sensor which generates a signal representing the selected positions. This signal is associated with a predetermined Signal patterns compared and the authenticity of the document checked.

At «iner checking the authenticity of a security document Facility, where the selected positions are the same distance from each other, the document will be more constant Speed passed a sensor, with this generates an alternating current signal, the frequency of which corresponds to the distance the chosen places of each other and the transport speed is equivalent to. The validity of the security document is determined in that the generated alternating current signal with a Reference signal is compared that has a predetermined frequency having.

Claims

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Claims (1)

Claims Security document (10, 24, 38) with a magnetizable recording layer (14, 28, 40, 58) which has a uniform contains dispersed, magnetizable and magnetically anisotropic material (30, 44), characterized in that that the magnetizable material (30, 44) at a number of selected positions (16, 18, 36 »50) physically different is aligned with respect to the magnetizable material (30, 44) at a reference point (20), one being magnetic identifiable and permanently fixed information pattern is generated " 2. Security document (10, 24, 38) according to claim 1, characterized in that the magnetizable material consists of barium ferrite particles (44) exists. 3. Security document (10, 24, 38) according to one of the claims 1 or 2, characterized in that the selected locations (16, 18, 36, 50) form a recurring pattern, the one represents permanent signal track from which a predetermined recurring signal can be generated. 4. Security document (1O ₉ 24, 38) according to claim 3, characterized in that the recurring pattern consists of adjacent selected locations, the magnetizable material (30, 44) being physically differently oriented at each location, with a continuously changing permanent signal track is generated, from which a predetermined and continuously changing signal can be generated 5 · security document (10, 24, 38) according to one of claims 1-4, characterized in that the magnetizable material (30, 44) in the remaining part of the layer (32, 34, 46, 409847/1142 a single different orientation outside of the selected locations has than the selected positions » 6 · Security document (10, 24, 38) according to claim 5 »thereby characterized in that each of said selected locations (16, 18, 36, 50) consists of a single section, in which the magnetizable material (30, 44) is physically perpendicular to the orientation of the material in the remainder of the Layer is aligned. 7. Security document (10, 24, 38) according to one of the claims 1-2 or 5-6, characterized in that the selected positions (16, 18, 36, 50) have a non-recurring pattern which represents a permanent signal trace from which a predetermined, non-recurring signal is generated can be. 8. Security document (10, 24, 38) according to one of the claims 1 - 7i characterized in that the document with visible Signs (17 »70) that are characteristic of the intended use of the document. 9 · Method for producing a security document (10, 24, 38) which is a magnetically determinable and permanent having fixed information pattern, according to which method a paper sheet-like material with a non-magnetizable Substrate (12, 26, 52) and with a layer (14, 28, 40, 58) made of a substantially uniform dispersion magnetically anisotropic and magnetizable particles (30, 44) is provided in which the particles are temporarily freely rotatable are, wherein the magnetizable particles (30, 44) in the Layer to be physically aligned, and being after that .- the particles are permanently immobilized, which is is
drive characterized in that the magnetizable particles at said selected points (16, 18, 36, 50) are physically aligned differently than the magnetizable particles at a reference point, whereby said A09847 / 1U2 permanently fixed information pattern is generated 10. The method according to claim 9, characterized in that the magnetizable particles are physically aligned at the selected locations using τοη magnetic fields, 11. Method according to one of claims 9-10, characterized in that that the paper sheet-like material with a Layer (40) is provided, which contains magnetically anisotropic and magnetizable particles of barium ferrite (44). 12 · Method according to one of claims 9-11 »characterized in that that visible signs (17 »70) are affixed to the paper sheet-like material, which for the intended Use of the security document are characteristic. 13 · Device for the production of a security document (10, 24, 38), which with a magnetically detectable and permanently fixed information pattern is provided, which Device has means for producing a paper sheet-like material with a non-magnetizable background (12, 26, 52) and with a layer (14, 28, 40, 58) of a substantially uniform dispersion (57) of magnetic anisotropic and magnetizable particles (30, 44), which particles are at least temporarily freely rotatable, means (60, 66), which cause an alignment of the magnetizable particles (30, 44) in the layer and which then make the particles permanent make immobile, characterized by a means (60) which is selected for the magnetizable particles Places causes a different alignment than at a reference point, creating a permanently fixed information pattern is dared. 14 · Device according to claim 13, characterized in that the means causing a different orientation of the particles consists of a means (60) which exposes the layer at selected points to the action of magnetic fields which the magnetizable particles at the selected locations 409847/1142 physically align. 15 · Device according to one of claims 15-14, characterized by means with which on the paper sheet-like material
visible signs (17 »70) can be attached which are characteristic of the intended use of the security document. £ 09847/1142