Title of Invention	SECURITY ELEMENT FOR SECURING OBJECTS OF VALUE
Abstract	The invention relates to a security element for protecting documents of value, which has magnetic material. Furthermore, the invention relates to a document of value, a transfer material and method for producing such security elements and documents of value as well as a method and an apparatus for checking such a security element or document of value. According to the invention the security element has at least two magnetic materials, wherein the magnetic materials have different coercive field strengths and are applied onto and/or incorporated in the security element in such a manner that their remanence is equally high.

Title of Invention

SECURITY ELEMENT FOR SECURING OBJECTS OF VALUE

Abstract

The invention relates to a security element for protecting documents of value, which has magnetic material. Furthermore, the invention relates to a document of value, a transfer material and method for producing such security elements and documents of value as well as a method and an apparatus for checking such a security element or document of value. According to the invention the security element has at least two magnetic materials, wherein the magnetic materials have different coercive field strengths and are applied onto and/or incorporated in the security element in such a manner that their remanence is equally high.

Full Text	[0001] The invention relates to a security element for protecting documents of value, which has magnetic material. Furthermore, the invention relates to a document of value, a transfer material and method for producing such security elements and documents of value as well as a method and an apparatus for checking such a security element or document of value. [0002] Documents of value within the terms of the invention can be bank notes, but also share certificates, deeds, stamps, checks, admission tickets, tickets, flight tickets, identity cards, visa stickers and the like as well as labels, seals, packagings, security paper or other elements for the product protection. The simplifying designation "document of value" or "security element" will hereinafter therefore always include documents of the stated type. [0003] It is known that bank notes have magnetic material, which is used for the verification of the authenticity of the bank notes. Such magnetic material is for example a component of printing inks and is applied onto the bank notes during the printing of the bank notes. The distribution of the magnetic material produced in the printing can be determined and can be compared to a reference value in order to check the authenticity of the bank notes. It is furthermore known that magnetic material can be contained in security elements applied onto the bank note. Thus for example security threads can have magnetic material, which can also be applied in such a manner that the security threads have a coding which can be used for checking the authenticity of the bank note and/or to determine the type of bank note (currency, denomination). [0004] It is a problem of such security elements or documents of value with magnetic material that the magnetic material and thus codings contained therein can be detected at any time. This results in the danger that the security elements or documents of value can be forged without any major problems, since the distribution of the magnetic material can be imitated due to its easy detectability. [0005] The invention is therefore based on the problem of creating a document of value, a transfer element and a security element which shall be simple to produce and guarantee a high degree of protection from forgery. [0006] It is further the problem of the invention to provide methods for producing such a security element and document of value as well as a method and an apparatus for checking the security element or document of value. [0007] These problems are solved by the features of the independent claims. Developments are subject of the subclaims. [0008] According to the invention the security element has at least two magnetic materials, wherein the magnetic materials have different coercive field strengths and are applied onto and/or incorporated in the security element in such a way that their remanence is equal. [0009] The equal remanence of the magnetic materials is preferably achieved by different layer thicknesses and/or different concentrations of the magnetic materials. [0010] For the magnetic materials according to the invention within the framework of the invention numerous variation possibilities are expedient. Thus the magnetic materials can be provided in certain areas, in particular in the form of characters or patterns, wherein it is especially preferred to apply the different materials directly adjoining each other. [0011] The security element can either be produced directly on the document of value or prepared on a separate substrate. With respect to the material used, the document of value or the separate substrate, on which the security element is located, is in no way restricted. But preferably it is paper or plastic, also in the form of foils. In the case of a separate substrate the security element can be designed, for example, as a self-supporting label, preferably on a plastic substrate. In particular, the security element is designed in the form of a security thread. [0012] Since in some cases it may be difficult to provide the document of value directly with the magnetic materials, therefore, alternatively, it may be expedient to prepare the structure of the security element at least partially on a transfer material. [0013] Therein the magnetic materials of the security element can be applied onto and/or incorporated in a substrate in an endless form, which substrate is or will be connected with a carrier tape. The fastening as a security element on a document of value to be protected is effected with the aid of an adhesive layer, which either is applied onto the document of value or onto the topmost layer of the transfer material. Preferably, for this a hot-melt adhesive is used. In order to determine the outline form of the security element, there either can be provided an adhesive layer only in the areas to be transferred, or the adhesive, such as for example a hot-melt adhesive, is activated only in the areas to be transferred. After the transfer the carrier tape of the transfer material is stripped off and merely the security element remains on the document of value to be secured. [0014] The document of value, onto which the security element is applied, can be, for example, a security paper, a security document, but also product packagings. Other objects of value, for which a protection in terms of security is required, of course can also be provided with the security element according to the invention. [0015] Further advantages and embodiments of the invention are explained in more detail with reference to the Figures. The proportions (in particular layer thicknesses) shown in the Figures do not necessarily correspond to the dimensions present in reality and primarily serve for the improvement of clarity. [0016] For clarity's sake the invention is explained in more detail only with reference to a bank note. But it is obvious that the invention can be used without any problems for the above-mentioned documents of value. [0017] The figures of the accompanying drawings are described as follows : [0018] Figure 1 a bank note with a security element according to the invention, [0019] Figures 2 and 3 various embodiments of the security element according to Figure 1 in cross section, [0020] Figure 4 a further embodiment of a bank note with a security element according to the invention, [0021] Figure 5 an embodiment of an apparatus for checking the security element according to the invention, and [0022] Figure 6 exemplary hysteresis curves of magnetic materials used for the security element according to the invention. [0023] Figure 1 shows a bank note 1 made of paper or plastic, which is provided with a security element 2 in the form of a strip extending over the entire width of the bank note 1. The bank note 1 of course can have further security features, such as watermark, steel gravure print, security thread, luminescent prints, etc. [0024] The security element 2 is disposed on the bank note 1, e. g. printed, bonded, incorporated in the bank note 1 etc. The security element 2 has areas with magnetic materials 3a, 3b, which have different coercive field strengths. However, the remanence resulting for the areas 3a, 3b is equally high. This can be achieved e. g. by a corresponding choice of layer thickness of the areas 3a, 3b and/or by a corresponding choice of concentration of the magnetic materials 3a, 3b in the areas. [0025] Some preferred embodiments are explained in more detail with reference to the Figures 2 and 3, which show the bank note 1 in cross section along the dash-dotted line A - A, so as to illustrate the structure of the security element 2. [0026] According to Figure 2 the paper substrate or plastic substrate of the bank note 1 is provided with a layer 3 with different magnetic materials 3a, 3b in the form of surface areas, characters, patterns, etc. In order to improve the applying of the layer 3, e. g. by printing, in particular for a paper substrate it can be provided that a so-called primer layer is applied onto the paper substrate. The primer layer can be, for example, a colorless plastic layer or an ink layer, the surface of which has an only low roughness. [0027] With certain embodiments, e.g. security elements which when used are subject to a heavy mechanical or chemical load, it is expedient to cover the magnetic materials 3a, 3b with a protection layer 4. The protection layer 4 can be a foil laminated over the security element 2 or a protective lacquer layer. Therein the protective lacquer layer can be applied all-over or in partial areas. For this purpose e.g. UV lacquers, hybrid lacquers, oil-based lacquers or dispersion lacquers of the one- or two-component type can be used. The protective lacquer layer preferably is printed, e.g. by flexographic printing or offset printing. [0028] Likewise, the security element 2 can be a separate element which is adapted to be applied onto the bank note 1. The separate security element 2 can have a structure which corresponds to the structure described with reference to Figure 3. In this case a substrate 5 of the security element 2, e. g. a plastic foil, is bonded to the bank note 1. The substrate 5 of the security element 2 has a layer 3 with magnetic materials 3a, 3b. For this purpose the plastic forming the substrate 5 can be a hot-melt adhesive. For the protection of the layer 3a protection layer 4 can be provided. [0029] Deviating therefrom, in and/or onto the substrate 5 a layer 3 with magnetic materials 3a, 3b can be applied, onto which finally an adhesive layer 6 is applied, by means of which the security element 2 is fastened to the bank note 1. The adhesive used for this purpose can be a hot-melt adhesive. In this case an additional protective layer can be omitted, since such layer is formed by the substrate 5. [0030] In all cases described above instead of onto the security element 2 the adhesive can also be applied onto the bank note 1 in order to fasten the security element 2 to the bank note 1. [0031] A further embodiment of a bank note 1 with security element 2 is shown in Figure 4. The security element 2 at least partially is embedded in the substrate of the bank note 1, so that the security element 2, which e.g. is a. security thread, is visible only in certain areas 2a, so-called „windows". However, the security element 2 can also be completely embedded in the substrate of the bank note 1. In both cases the magnetic materials 3a, 3b can be detected. [0032] The security element 2 can also be designed as a transfer material, with a structure such as described with reference to the Figures 1 to 3. In this case the layer structure is applied in reverse order onto a transfer material. The security element 2 is applied onto the bank note with the help of the transfer material and the transfer material thereafter is entirely or partially removed. [0033] The security element 2 can also be designed as a so-called planchet, which preferably is incorporated in the surface of the bank note substrate. [0034] As described above the security element 2 can be produced directly on the bank note 1 or provided as a separate security element 2 and fastened to the bank note 1. But it can also be provided to provide a separate security element 2, whose structure is not completed until the security element 2 has been fastened to the bank note 1, e.g. is provided with a protection layer. [0035] Fig. 5 shows an embodiment of an apparatus for checking the security element 2 according to the invention. [0036] Figure 5a shows a first magnetizing device 6, which consists of two magnets 6a and 6b. In the shown example the magnets 6a and 6b are arranged with their north poles pointing toward each other. However, it is also possible to arrange the magnets 6a and 6b with their south poles pointing toward each other. Through the gap formed between the magnets 6a and 6b a not shown transportation device can guide the bank notes to be checked with the security element 2 along a transport direction T. The security element 2 preferably has areas adjoining each other with magnetic materials 3a, 3b which have different coercive field strengths, whereas their remanence is equally high. [0037] In Figure 6 exemplary hysteresis curves of magnetic materials 3a and 3b used for the security element 2 according to the invention are shown. As it can be clearly recognized, the first magnetic material 3a has a coercive field strength Ka which is higher than the coercive field strength Kb of the second magnetic material 3b. The remanence R of the two magnetic materials 3a and 3b, however, is equally high, wherein slight deviations are admissible. The used magnetic materials 3a and 3b are magnetically hard materials, which can e. g. be present in the form of pigments, in order to be incorporated in the security element 2 in the above-described manner. The magnetic materials 3a and 3b can for example be Fe3O4 magnet pigments, which are available with different coercive field strengths, e. g. from the company BASF. For example the first magnetic material 3a, with the higher coercive field strength Ka, can have a coercive field strength of 28 kA/m, whereas the second magnetic material 3b, with the lower coercive field strength Kb, can have a coercive field strength of 18 kA/m or 21 kA/m. [0038] The first magnetizing device 6 shown in Figure 5a has a field strength which is higher than the highest coercive field strength of the used magnetic materials 3a and 3b, thus higher than the coercive field strength Ka of the first magnetic material 3a. By this means, during the passage of the bank note or of the security element 2 both the first magnetic material 3a and the second magnetic material 3b are magnetized, so that the magnetic materials 3a and 3b have an orientation ma and mb, corresponding to the orientation of the first magnetizing device 6. [0039] When in the further course the bank note or the security element 2 is transported past a magnet sensor 8, each change of the magnetic field of the security element 2 results in an impulse, which can be evaluated by an evaluation device 9, for example a microcomputer, in order to be able to e g. make statements on the authenticity and/or the type of the bank note. Since, as described above, the remanence of both magnetic materials 3a and 3b is equally high, and since both magnetic materials 3a and 3b have a homogenous orientation ma and mb, the signal 10 provided by the magnet sensor 8 shows impulses only at the start and at the end of the security element 2. [0040] In Figure 5b a second magnetizing device 7 is shown, which consists of two magnets 7a and 7b. In the shown example the magnets 7a and 7b are arranged with their south poles pointing toward each other. Generally, the orientation of the magnets 7a and 7b is to be chosen in such a way that it is contrary to the orientation of the magnets 6a and 6b of the first magnetizing device 6. Through the gap created between the magnets 7a and 7b the not shown transportation device can guide the bank note to be checked with the security element 2 along the transport direction T. The magnetic materials 3a and 3b have the orientation ma and mb described above with reference to Figure 5a. The second magnetizing device 6 has a field strength which is higher than the coercive field strength Kb of the used second magnetic material 3b, but which is lower than the coercive field strength Ka of the first magnetic material 3a. Thereby during the passage of the bank note or of the security element 2 the magnetization of only the second magnetic material 3b is changed, so that the magnetic materials 3a and 3b have a different orientation ma and m'b. The signal 10' provided by the magnet sensor 8 therefore shows additional impulses in the areas of the security element 2 in which the magnetic materials 3a and 3b adjoin each other. [0041] As is additionally shown in Figure 5b, the second magnetization device 7 can alternatively also be formed by an electromagnet, which generates an alternating magnetic field whose field strength is also higher than the coercive field strength Kb of the used second magnetic material 3b, but which is lower than the coercive field strength Ka of the first magnetic material 3a. Thereby during the passage of the bank note or of the security element 2 only the second magnetic material 3b is demagnetized, so that the first magnetic material 3a still has its orientation ma, whereas the second material 3b no longer has an orientation m"b The signal 10' provided by the magnet sensor 8 therefore in this case additionally shows impulses in the areas of the security element 2 in which the magnetic materials 3a and 3b adjoin each other. However, the impulses are smaller than in the case described beforehand, since the magnetic material 3b no longer has an orientation m"b, and consequently the change of the field strength of the magnetic field of the security element 2 at the borders between the magnetic materials 3a and 3b is smaller. [0042] In Figure 5c an exemplary complete structure of an apparatus for checking the security element 2 according to the invention is shown. The apparatus is composed of the components shown in Figures 5a and 5b, namely the first magnetizing device 6, the second magnetizing device 7, which can be optionally formed by magnets 7a, 7b or by an electromagnet 7, as well as the magnet sensor 8 with the evaluation device 9. By means of a not shown transportation system bank notes 1 or security elements 2 to be checked can be transported along the transport direction T through the apparatus. The magnet sensor 8 generates the signal 10' described above in connection with Figure 5b, which signal is used by the evaluation device 9 for example for checking the authenticity and/or the type (currency, denomination) of the bank note 1. [0043] It is obvious that, deviating from the description so far, a plurality of modifications and variations is possible. [0044] Instead of the described use of two magnetic materials 3a and 3b for the security element 2 also three, four or more materials can be used. In this case it is obvious that for the checking of such a security element three, four or more magnetizing devices have to used, whose field strengths have to be chosen in accordance with the coercive field strengths of the used magnetic materials. Likewise, the magnetizing devices have to be disposed in accordance with their field strength, i. e. viewed in the transport direction, the magnetizing device with the highest field strength has to be disposed in the first place, whereas the magnetizing device with the lowest field strength has to be disposed in the last place. Therein, account must also be taken of the described, respectively contrary orientation of the magnetic field of the used magnetizing devices. [0045] Furthermore, in addition to the mentioned production of the security element by means of printing with inks containing different magnetic pigments, any other production method is possible that permits the selective production of areas with different coercive field strengths, wherein all areas shall have an essentially equally high remanence. Therein the magnetic materials can be applied onto and/or incorporated in the substrate. [0046] Likewise, it is possible to choose any desired size or arrangement of the areas with different coercive field strengths forming the security element, e. g. due to factors resulting from the design of the bank note having the security element. [0047] Likewise, it is possible to arrange the magnetizing devices 6 and 7 deviating from the description so far. The magnets 6a and 6b of the first magnetizing device 6 can for example also be arranged with their north pole and south pole pointing toward each other. In contrast to the magnetization ma, mb shown in Figure 5 a, which is effected parallel to the plane of the bank note or of the security element 2, in this case the resulting magnetization is effected perpendicular to the plane of the bank note or of the security element 2. In the case that also for the second magnetizing device 7 magnets 7a and 7b are used, these have to be arranged contrarily of course, i. e. in this case the south pole has to point toward the north pole. The arrangement of the magnets 6a and 6b or of the magnets 7a and 7b described above can of course also be effected in reverse order, as long as the result is the above-described change of magnetization by the second magnetizing device 7. It is likewise possible - as described above - to form the second magnetizing device 7 by means of an electromagnet with an alternating field. [0048] In the case that the magnetizing devices 6 and 7 are formed by permanent magnets, these can for example consist of SmCo, NdFeB or SrFe and have the described field strengths. [0049] Likewise, it can be provided to eliminate the detectable different orientation ma and mb after the checking of the security feature formed by means of the magnetic materials 3a and 3b, so that a coincidental detection of the security feature is rendered impossible. For this purpose, a deleting process can be effected, in which the different orientations ma and mb are canceled. This can be achieved in such a way that, viewed in the transport direction T, a third magnetizing device (not shown) is disposed downstream from the magnet sensor 8. The third magnetizing device can for example have a field strength which is higher than the highest coercive field strength of the used magnetic materials 3a and 3b, thus higher than the coercive field strength Ka of the first magnetic material 3a. Thereby during the passage of the bank note or of the security element 2 both the first magnetic material 3a and the second magnetic material 3b are magnetized, so that the orientation ma and mb of the magnetic materials 3a and 3b is equal. For this purpose the third magnetizing device can generate a steady or an alternating field alternatively. WE CLAIM: 1. Security element for securing objects of value, wherein the security element has magnetic material, characterized in that at least two magnetic materials (3a, 3b) are present, which have different coercive field strengths (Ka; Kb), whereas their remanence (R) is essentially equally high. 2. Security element as claimed in claim 1, wherein the different magnetic materials (3a, 3b) have different layer thicknesses and/or different concentrations. 3. Security element as claimed in claim 1 or 2, wherein the magnetic materials (3a, 3b) are applied in certain areas, in particular in the form of alphanumeric characters and/or patterns. 4. Security element as claimed in any of claims 1 to 3, wherein the security element (2) is a security thread or a planchet. 5. Transfer material for producing a security element, wherein the transfer material has a carrier material on which at least two magnetic materials (3a, 3b) are disposed, which have different coercive field strengths (Ka; Kb), whereas their remanence (R) is essentially equally high. 6. Transfer material as claimed in claim 5, wherein the carrier material is formed as a hot stamping foil. 7. Method for producing an object of value or security element, wherein - a substrate (1) is provided, - at least two magnetic materials (3a, 3b) are applied onto this substrate (1), which materials have different coercive field strengths (Ka; Kb), whereas their remanence (R) is essentially equally high. 8. A document of value that can be formed from a security paper, a security document or a product packaging and having a security element as claimed in one of claims 1 to 4. 9. A document of value as claimed in claim 8, wherein the security element (2) is a label. ABSTRACT SECURITY ELEMENT FOR SECURING OBJECTS OF VALUE The invention relates to a security element for protecting documents of value, which has magnetic material. Furthermore, the invention relates to a document of value, a transfer material and method for producing such security elements and documents of value as well as a method and an apparatus for checking such a security element or document of value. According to the invention the security element has at least two magnetic materials, wherein the magnetic materials have different coercive field strengths and are applied onto and/or incorporated in the security element in such a manner that their remanence is equally high.

Full Text

[0001] The invention relates to a security element for protecting documents of value,
which has magnetic material. Furthermore, the invention relates to a document of value, a
transfer material and method for producing such security elements and documents of value
as well as a method and an apparatus for checking such a security element or document of
value.
[0002] Documents of value within the terms of the invention can be bank notes, but also
share certificates, deeds, stamps, checks, admission tickets, tickets, flight tickets, identity
cards, visa stickers and the like as well as labels, seals, packagings, security paper or other
elements for the product protection. The simplifying designation "document of value" or
"security element" will hereinafter therefore always include documents of the stated type.
[0003] It is known that bank notes have magnetic material, which is used for the
verification of the authenticity of the bank notes. Such magnetic material is for example a
component of printing inks and is applied onto the bank notes during the printing of the
bank notes. The distribution of the magnetic material produced in the printing can be
determined and can be compared to a reference value in order to check the authenticity of
the bank notes. It is furthermore known that magnetic material can be contained in security
elements applied onto the bank note. Thus for example security threads can have magnetic
material, which can also be applied in such a manner that the security threads have a
coding which can be used for checking the authenticity of the bank note and/or to
determine the type of bank note (currency, denomination).
[0004] It is a problem of such security elements or documents of value with magnetic
material that the magnetic material and thus codings contained therein can be detected at
any time. This results in the danger that the security elements or documents of value can be
forged without any major problems, since the distribution of the magnetic material can be
imitated due to its easy detectability.

[0005] The invention is therefore based on the problem of creating a document of value, a
transfer element and a security element which shall be simple to produce and guarantee a
high degree of protection from forgery.
[0006] It is further the problem of the invention to provide methods for producing such a
security element and document of value as well as a method and an apparatus for checking
the security element or document of value.
[0007] These problems are solved by the features of the independent claims. Developments
are subject of the subclaims.
[0008] According to the invention the security element has at least two magnetic materials,
wherein the magnetic materials have different coercive field strengths and are applied onto
and/or incorporated in the security element in such a way that their remanence is equal.
[0009] The equal remanence of the magnetic materials is preferably achieved by different
layer thicknesses and/or different concentrations of the magnetic materials.
[0010] For the magnetic materials according to the invention within the framework of the
invention numerous variation possibilities are expedient. Thus the magnetic materials can
be provided in certain areas, in particular in the form of characters or patterns, wherein it is
especially preferred to apply the different materials directly adjoining each other.
[0011] The security element can either be produced directly on the document of value or
prepared on a separate substrate. With respect to the material used, the document of value
or the separate substrate, on which the security element is located, is in no way restricted.
But preferably it is paper or plastic, also in the form of foils. In the case of a separate
substrate the security element can be designed, for example, as a self-supporting label,
preferably on a plastic substrate. In particular, the security element is designed in the form
of a security thread.

[0012] Since in some cases it may be difficult to provide the document of value directly
with the magnetic materials, therefore, alternatively, it may be expedient to prepare the
structure of the security element at least partially on a transfer material.
[0013] Therein the magnetic materials of the security element can be applied onto and/or
incorporated in a substrate in an endless form, which substrate is or will be connected with
a carrier tape. The fastening as a security element on a document of value to be protected is
effected with the aid of an adhesive layer, which either is applied onto the document of
value or onto the topmost layer of the transfer material. Preferably, for this a hot-melt
adhesive is used. In order to determine the outline form of the security element, there either
can be provided an adhesive layer only in the areas to be transferred, or the adhesive, such
as for example a hot-melt adhesive, is activated only in the areas to be transferred. After
the transfer the carrier tape of the transfer material is stripped off and merely the security
element remains on the document of value to be secured.
[0014] The document of value, onto which the security element is applied, can be, for
example, a security paper, a security document, but also product packagings. Other objects
of value, for which a protection in terms of security is required, of course can also be
provided with the security element according to the invention.
[0015] Further advantages and embodiments of the invention are explained in more detail
with reference to the Figures. The proportions (in particular layer thicknesses) shown in the
Figures do not necessarily correspond to the dimensions present in reality and primarily
serve for the improvement of clarity.
[0016] For clarity's sake the invention is explained in more detail only with reference to a
bank note. But it is obvious that the invention can be used without any problems for the
above-mentioned documents of value.
[0017] The figures of the accompanying drawings are described as follows :

[0018] Figure 1 a bank note with a security element according to the invention,
[0019] Figures 2 and 3 various embodiments of the security element according to Figure 1
in cross section,
[0020] Figure 4 a further embodiment of a bank note with a security element
according to the invention,
[0021] Figure 5 an embodiment of an apparatus for checking the security element
according to the invention, and
[0022] Figure 6 exemplary hysteresis curves of magnetic materials used for the
security element according to the invention.
[0023] Figure 1 shows a bank note 1 made of paper or plastic, which is provided with a
security element 2 in the form of a strip extending over the entire width of the bank note 1.
The bank note 1 of course can have further security features, such as watermark, steel
gravure print, security thread, luminescent prints, etc.
[0024] The security element 2 is disposed on the bank note 1, e. g. printed, bonded,
incorporated in the bank note 1 etc. The security element 2 has areas with magnetic
materials 3a, 3b, which have different coercive field strengths. However, the remanence
resulting for the areas 3a, 3b is equally high. This can be achieved e. g. by a corresponding
choice of layer thickness of the areas 3a, 3b and/or by a corresponding choice of
concentration of the magnetic materials 3a, 3b in the areas.
[0025] Some preferred embodiments are explained in more detail with reference to the
Figures 2 and 3, which show the bank note 1 in cross section along the dash-dotted line A -
A, so as to illustrate the structure of the security element 2.

[0026] According to Figure 2 the paper substrate or plastic substrate of the bank note 1 is
provided with a layer 3 with different magnetic materials 3a, 3b in the form of surface
areas, characters, patterns, etc. In order to improve the applying of the layer 3, e. g. by
printing, in particular for a paper substrate it can be provided that a so-called primer layer
is applied onto the paper substrate. The primer layer can be, for example, a colorless plastic
layer or an ink layer, the surface of which has an only low roughness.
[0027] With certain embodiments, e.g. security elements which when used are subject to a
heavy mechanical or chemical load, it is expedient to cover the magnetic materials 3a, 3b
with a protection layer 4. The protection layer 4 can be a foil laminated over the security
element 2 or a protective lacquer layer. Therein the protective lacquer layer can be applied
all-over or in partial areas. For this purpose e.g. UV lacquers, hybrid lacquers, oil-based
lacquers or dispersion lacquers of the one- or two-component type can be used. The
protective lacquer layer preferably is printed, e.g. by flexographic printing or offset
printing.
[0028] Likewise, the security element 2 can be a separate element which is adapted to be
applied onto the bank note 1. The separate security element 2 can have a structure which
corresponds to the structure described with reference to Figure 3. In this case a substrate 5
of the security element 2, e. g. a plastic foil, is bonded to the bank note 1. The substrate 5
of the security element 2 has a layer 3 with magnetic materials 3a, 3b. For this purpose the
plastic forming the substrate 5 can be a hot-melt adhesive. For the protection of the layer 3a protection layer 4 can be provided.
[0029] Deviating therefrom, in and/or onto the substrate 5 a layer 3 with magnetic
materials 3a, 3b can be applied, onto which finally an adhesive layer 6 is applied, by means
of which the security element 2 is fastened to the bank note 1. The adhesive used for this
purpose can be a hot-melt adhesive. In this case an additional protective layer can be
omitted, since such layer is formed by the substrate 5.

[0030] In all cases described above instead of onto the security element 2 the adhesive can
also be applied onto the bank note 1 in order to fasten the security element 2 to the bank
note 1.
[0031] A further embodiment of a bank note 1 with security element 2 is shown in Figure
4. The security element 2 at least partially is embedded in the substrate of the bank note 1,
so that the security element 2, which e.g. is a. security thread, is visible only in certain areas
2a, so-called „windows". However, the security element 2 can also be completely
embedded in the substrate of the bank note 1. In both cases the magnetic materials 3a, 3b
can be detected.
[0032] The security element 2 can also be designed as a transfer material, with a structure
such as described with reference to the Figures 1 to 3. In this case the layer structure is
applied in reverse order onto a transfer material. The security element 2 is applied onto the
bank note with the help of the transfer material and the transfer material thereafter is
entirely or partially removed.
[0033] The security element 2 can also be designed as a so-called planchet, which
preferably is incorporated in the surface of the bank note substrate.
[0034] As described above the security element 2 can be produced directly on the bank
note 1 or provided as a separate security element 2 and fastened to the bank note 1. But it
can also be provided to provide a separate security element 2, whose structure is not
completed until the security element 2 has been fastened to the bank note 1, e.g. is
provided with a protection layer.
[0035] Fig. 5 shows an embodiment of an apparatus for checking the security element 2
according to the invention.
[0036] Figure 5a shows a first magnetizing device 6, which consists of two magnets 6a and
6b. In the shown example the magnets 6a and 6b are arranged with their north poles

pointing toward each other. However, it is also possible to arrange the magnets 6a and 6b
with their south poles pointing toward each other. Through the gap formed between the
magnets 6a and 6b a not shown transportation device can guide the bank notes to be
checked with the security element 2 along a transport direction T. The security element 2
preferably has areas adjoining each other with magnetic materials 3a, 3b which have
different coercive field strengths, whereas their remanence is equally high.
[0037] In Figure 6 exemplary hysteresis curves of magnetic materials 3a and 3b used for
the security element 2 according to the invention are shown. As it can be clearly
recognized, the first magnetic material 3a has a coercive field strength Ka which is higher
than the coercive field strength Kb of the second magnetic material 3b. The remanence R of
the two magnetic materials 3a and 3b, however, is equally high, wherein slight deviations
are admissible. The used magnetic materials 3a and 3b are magnetically hard materials,
which can e. g. be present in the form of pigments, in order to be incorporated in the
security element 2 in the above-described manner. The magnetic materials 3a and 3b can
for example be Fe3O4 magnet pigments, which are available with different coercive field
strengths, e. g. from the company BASF. For example the first magnetic material 3a, with
the higher coercive field strength Ka, can have a coercive field strength of 28 kA/m,
whereas the second magnetic material 3b, with the lower coercive field strength Kb, can
have a coercive field strength of 18 kA/m or 21 kA/m.
[0038] The first magnetizing device 6 shown in Figure 5a has a field strength which is
higher than the highest coercive field strength of the used magnetic materials 3a and 3b,
thus higher than the coercive field strength Ka of the first magnetic material 3a. By this
means, during the passage of the bank note or of the security element 2 both the first
magnetic material 3a and the second magnetic material 3b are magnetized, so that the
magnetic materials 3a and 3b have an orientation ma and mb, corresponding to the
orientation of the first magnetizing device 6.
[0039] When in the further course the bank note or the security element 2 is transported
past a magnet sensor 8, each change of the magnetic field of the security element 2 results

in an impulse, which can be evaluated by an evaluation device 9, for example a
microcomputer, in order to be able to e g. make statements on the authenticity and/or the
type of the bank note. Since, as described above, the remanence of both magnetic materials
3a and 3b is equally high, and since both magnetic materials 3a and 3b have a homogenous
orientation ma and mb, the signal 10 provided by the magnet sensor 8 shows impulses only
at the start and at the end of the security element 2.
[0040] In Figure 5b a second magnetizing device 7 is shown, which consists of two
magnets 7a and 7b. In the shown example the magnets 7a and 7b are arranged with their
south poles pointing toward each other. Generally, the orientation of the magnets 7a and 7b
is to be chosen in such a way that it is contrary to the orientation of the magnets 6a and 6b
of the first magnetizing device 6. Through the gap created between the magnets 7a and 7b
the not shown transportation device can guide the bank note to be checked with the
security element 2 along the transport direction T. The magnetic materials 3a and 3b have
the orientation ma and mb described above with reference to Figure 5a. The second
magnetizing device 6 has a field strength which is higher than the coercive field strength
Kb of the used second magnetic material 3b, but which is lower than the coercive field
strength Ka of the first magnetic material 3a. Thereby during the passage of the bank note
or of the security element 2 the magnetization of only the second magnetic material 3b is
changed, so that the magnetic materials 3a and 3b have a different orientation ma and m'b.
The signal 10' provided by the magnet sensor 8 therefore shows additional impulses in the
areas of the security element 2 in which the magnetic materials 3a and 3b adjoin each
other.
[0041] As is additionally shown in Figure 5b, the second magnetization device 7 can
alternatively also be formed by an electromagnet, which generates an alternating magnetic
field whose field strength is also higher than the coercive field strength Kb of the used
second magnetic material 3b, but which is lower than the coercive field strength Ka of the
first magnetic material 3a. Thereby during the passage of the bank note or of the security
element 2 only the second magnetic material 3b is demagnetized, so that the first magnetic
material 3a still has its orientation ma, whereas the second material 3b no longer has an

orientation m"b The signal 10' provided by the magnet sensor 8 therefore in this case
additionally shows impulses in the areas of the security element 2 in which the magnetic
materials 3a and 3b adjoin each other. However, the impulses are smaller than in the case
described beforehand, since the magnetic material 3b no longer has an orientation m"b, and
consequently the change of the field strength of the magnetic field of the security element
2 at the borders between the magnetic materials 3a and 3b is smaller.
[0042] In Figure 5c an exemplary complete structure of an apparatus for checking the
security element 2 according to the invention is shown. The apparatus is composed of the
components shown in Figures 5a and 5b, namely the first magnetizing device 6, the second
magnetizing device 7, which can be optionally formed by magnets 7a, 7b or by an
electromagnet 7, as well as the magnet sensor 8 with the evaluation device 9. By means of
a not shown transportation system bank notes 1 or security elements 2 to be checked can be
transported along the transport direction T through the apparatus. The magnet sensor 8
generates the signal 10' described above in connection with Figure 5b, which signal is used
by the evaluation device 9 for example for checking the authenticity and/or the type
(currency, denomination) of the bank note 1.
[0043] It is obvious that, deviating from the description so far, a plurality of modifications
and variations is possible.
[0044] Instead of the described use of two magnetic materials 3a and 3b for the security
element 2 also three, four or more materials can be used. In this case it is obvious that for
the checking of such a security element three, four or more magnetizing devices have to
used, whose field strengths have to be chosen in accordance with the coercive field
strengths of the used magnetic materials. Likewise, the magnetizing devices have to be
disposed in accordance with their field strength, i. e. viewed in the transport direction, the
magnetizing device with the highest field strength has to be disposed in the first place,
whereas the magnetizing device with the lowest field strength has to be disposed in the last
place. Therein, account must also be taken of the described, respectively contrary
orientation of the magnetic field of the used magnetizing devices.

[0045] Furthermore, in addition to the mentioned production of the security element by
means of printing with inks containing different magnetic pigments, any other production
method is possible that permits the selective production of areas with different coercive
field strengths, wherein all areas shall have an essentially equally high remanence. Therein
the magnetic materials can be applied onto and/or incorporated in the substrate.
[0046] Likewise, it is possible to choose any desired size or arrangement of the areas with
different coercive field strengths forming the security element, e. g. due to factors resulting
from the design of the bank note having the security element.
[0047] Likewise, it is possible to arrange the magnetizing devices 6 and 7 deviating from
the description so far. The magnets 6a and 6b of the first magnetizing device 6 can for
example also be arranged with their north pole and south pole pointing toward each other.
In contrast to the magnetization ma, mb shown in Figure 5 a, which is effected parallel to
the plane of the bank note or of the security element 2, in this case the resulting
magnetization is effected perpendicular to the plane of the bank note or of the security
element 2. In the case that also for the second magnetizing device 7 magnets 7a and 7b are
used, these have to be arranged contrarily of course, i. e. in this case the south pole has to
point toward the north pole. The arrangement of the magnets 6a and 6b or of the magnets
7a and 7b described above can of course also be effected in reverse order, as long as the
result is the above-described change of magnetization by the second magnetizing device 7.
It is likewise possible - as described above - to form the second magnetizing device 7 by
means of an electromagnet with an alternating field.
[0048] In the case that the magnetizing devices 6 and 7 are formed by permanent magnets,
these can for example consist of SmCo, NdFeB or SrFe and have the described field
strengths.
[0049] Likewise, it can be provided to eliminate the detectable different orientation ma and
mb after the checking of the security feature formed by means of the magnetic materials 3a

and 3b, so that a coincidental detection of the security feature is rendered impossible. For
this purpose, a deleting process can be effected, in which the different orientations ma and
mb are canceled. This can be achieved in such a way that, viewed in the transport direction
T, a third magnetizing device (not shown) is disposed downstream from the magnet sensor
8. The third magnetizing device can for example have a field strength which is higher than
the highest coercive field strength of the used magnetic materials 3a and 3b, thus higher
than the coercive field strength Ka of the first magnetic material 3a. Thereby during the
passage of the bank note or of the security element 2 both the first magnetic material 3a
and the second magnetic material 3b are magnetized, so that the orientation ma and mb of
the magnetic materials 3a and 3b is equal. For this purpose the third magnetizing device
can generate a steady or an alternating field alternatively.

WE CLAIM:
1. Security element for securing objects of value, wherein the security element has
magnetic material, characterized in that at least two magnetic materials (3a, 3b) are present,
which have different coercive field strengths (Ka; Kb), whereas their remanence (R) is
essentially equally high.
2. Security element as claimed in claim 1, wherein the different magnetic materials (3a,
3b) have different layer thicknesses and/or different concentrations.
3. Security element as claimed in claim 1 or 2, wherein the magnetic materials (3a, 3b)
are applied in certain areas, in particular in the form of alphanumeric characters and/or
patterns.
4. Security element as claimed in any of claims 1 to 3, wherein the security element (2) is
a security thread or a planchet.
5. Transfer material for producing a security element, wherein the transfer material has a
carrier material on which at least two magnetic materials (3a, 3b) are disposed, which have
different coercive field strengths (Ka; Kb), whereas their remanence (R) is essentially equally
high.
6. Transfer material as claimed in claim 5, wherein the carrier material is formed as a hot
stamping foil.
7. Method for producing an object of value or security element, wherein
- a substrate (1) is provided,

- at least two magnetic materials (3a, 3b) are applied onto this substrate (1), which
materials have different coercive field strengths (Ka; Kb), whereas their remanence (R) is
essentially equally high.
8. A document of value that can be formed from a security paper, a security document or
a product packaging and having a security element as claimed in one of claims 1 to 4.
9. A document of value as claimed in claim 8, wherein the security element (2) is a label.

ABSTRACT

SECURITY ELEMENT FOR SECURING OBJECTS OF VALUE
The invention relates to a security element for protecting documents of value, which
has magnetic material. Furthermore, the invention relates to a document of value, a transfer
material and method for producing such security elements and documents of value as well as
a method and an apparatus for checking such a security element or document of value.
According to the invention the security element has at least two magnetic materials, wherein
the magnetic materials have different coercive field strengths and are applied onto and/or
incorporated in the security element in such a manner that their remanence is equally high.

Documents:

01272-kolnp-2007-abstract.pdf

01272-kolnp-2007-assignment.pdf

01272-kolnp-2007-claims.pdf

01272-kolnp-2007-correspondence others 1.1.pdf

01272-kolnp-2007-correspondence others.pdf

01272-kolnp-2007-description complete.pdf

01272-kolnp-2007-drawings.pdf

01272-kolnp-2007-form 1.pdf

01272-kolnp-2007-form 3.pdf

01272-kolnp-2007-form 5.pdf

01272-kolnp-2007-gpa.pdf

01272-kolnp-2007-international publication.pdf

01272-kolnp-2007-international search report.pdf

01272-kolnp-2007-pct request.pdf

1272-KOLNP-2007-(13-02-2012)-CORRESPONDENCE.pdf

1272-KOLNP-2007-(22-11-2011)-CORRESPONDENCE.pdf

1272-KOLNP-2007-ABSTRACT 1.1.pdf

1272-KOLNP-2007-AMANDED CLAIMS.pdf

1272-KOLNP-2007-ASSIGNMENT.pdf

1272-KOLNP-2007-CORRESPONDENCE.pdf

1272-KOLNP-2007-DESCRIPTION (COMPLETE) 1.1.pdf

1272-KOLNP-2007-DRAWINGS 1.1.pdf

1272-KOLNP-2007-EXAMINATION REPORT REPLY RECIEVED.pdf

1272-KOLNP-2007-EXAMINATION REPORT.pdf

1272-KOLNP-2007-FORM 1-1.1.pdf

1272-KOLNP-2007-FORM 18.pdf

1272-KOLNP-2007-FORM 2.pdf

1272-KOLNP-2007-FORM 3 1.2.pdf

1272-KOLNP-2007-FORM 3-1.1.pdf

1272-KOLNP-2007-FORM 5.pdf

1272-KOLNP-2007-GPA 1.1.pdf

1272-KOLNP-2007-GRANTED-ABSTRACT.pdf

1272-KOLNP-2007-GRANTED-CLAIMS.pdf

1272-KOLNP-2007-GRANTED-DESCRIPTION (COMPLETE).pdf

1272-KOLNP-2007-GRANTED-DRAWINGS.pdf

1272-KOLNP-2007-GRANTED-FORM 1.pdf

1272-KOLNP-2007-GRANTED-FORM 2.pdf

1272-KOLNP-2007-GRANTED-SPECIFICATION.pdf

1272-KOLNP-2007-OTHERS 1.1.pdf

1272-KOLNP-2007-OTHERS 1.2 .pdf

1272-KOLNP-2007-OTHERS 1.3.pdf

1272-KOLNP-2007-PA.pdf

1272-KOLNP-2007-PETITION UNDER RULE 137.pdf

1272-KOLNP-2007-REPLY TO EXAMINATION REPORT 1.1.pdf

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Patent Number

253773

Indian Patent Application Number

1272/KOLNP/2007

PG Journal Number

34/2012

Publication Date

24-Aug-2012

Grant Date

23-Aug-2012

Date of Filing

11-Apr-2007

Name of Patentee

GIESECKE & DEVRIENT GMBH

Applicant Address

PRINZREGENTENSTRASSE 159, 81677, MUNCHEN

Inventors:

#	Inventor's Name	Inventor's Address
1	SCHUTZMANN, JURGEN	KARL-SCHWAIGER-STRASSE 5A, 85276, PFAFFENHOFEN
2	SCHUTT, LOTHAR	HERZOG-WILHELM-STRASSE 15, 85221, DACHAU

PCT International Classification Number

B42D 15/00

PCT International Application Number

PCT/EP2005/010934

PCT International Filing date

2005-10-11

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	10 2004 049 999.3	2004-10-14	Germany