EP3693181A1 - Identification document and method for producing same - Google Patents

Abstract

The invention relates to an identification document (10) with a substrate (30) and with at least one side of the substrate (30) as an optical marking (18) recognizable security feature, the marking (18) at least one black component (20) and at least one colored Part (22, 24, 26, 28), the black part (20) being visible at least when illuminated with light with normal spectral distribution and the colored part (22, 24, 26, 28) being at least partially visible under UV light Color that can be stimulated to glow is formed, which is essentially only visible when illuminated with UV light. The invention also relates to a method for producing an identification document.

Description

The invention relates to an identification document. The invention further relates to a method for producing an identification document.

Identification documents are an important part of modern societies. Identification documents allow people to be identified and / or specific authorizations for their owners. For example, an identification document can be a passport, an identity card, a driver's license, a bank card, such as a credit card or cash card, labels and / or access cards.

Due to their great importance for everyday life, for example for business interactions and access restrictions, the security against forgery of identification documents is particularly important. For this purpose, identification documents can have one or more security features by means of which the authenticity of the identification document can be checked and which make the forgery and / or manipulation of identification documents more difficult.

In the EP 2 308 687 A1 describes an identification document with a substrate and a laminating film bonded to the substrate. It is proposed to provide at least two optical markings as one security feature in the identification document. With the first marking or with the one security feature, text, number and image data are provided in a first area on the laminating film, which are visible to the naked eye when illuminated by daylight. For the second marking or for the second security feature, a fluorescent substance is arranged on the side of the substrate facing the laminating film. That is to say that the fluorescent substance is essentially arranged on or under the laminating film for an observer to see. In a second area spaced apart from the first area, the surface of the substrate is engraved or scratched in the manner of a gray-scale image. When illuminated with UV light, however, the fluorescent substance arranged above the surface engraving is stimulated to glow, depending on the gray level. Accordingly, fluorescent image data is then visible.

It is an object of the present invention to provide a particularly tamper-proof identification document and a method for producing a particularly tamper-proof and tamper-proof identification document. In particular, by improving the security against manipulation and counterfeiting compared to already known identification documents, advances in counterfeiting and manipulation of identification documents are countered.

These objects are solved by the subject matter of the independent claims. Advantageous refinements and practical developments of the invention are specified in the respective subclaims.

The invention relates to an identification document. The identification document can have a substrate. At least on one side of the substrate, a security feature in the form of an optical marking can be provided. The security feature embodied as an optical marking can also be an optical one Security feature are designated. The marking can have at least one black component and at least one colored component. Preferably, these two parts together form the optical marking or the security feature.

The black component can be designed to be visible at least when illuminated with light with a normal spectral distribution. The colored portion can be at least partially formed by a color that can be excited to shine under UV light, which color is essentially only visible when illuminated with UV light. In particular, the colored portion can thus essentially only be visible when illuminated with UV light.

This is based on the idea that a security feature formed from two parts is significantly more difficult to forge and / or manipulate. For counterfeits, the two components must be matched to one another at least as well as the genuine security feature so that forgery or manipulation is not noticed. In addition, there is the difficulty of manipulating or replicating each part yourself. This is made even more difficult by a partial overlap. In addition, paint that can be excited under UV light is expensive and difficult to obtain. Color matching, in particular to the black component and / or different colors and combinations thereof, is also difficult. In addition, the colored part is not or almost not visible in normal light. Accordingly, a forger or manipulator must first of all recognize that this additional colored component is present in the security feature in order to manipulate or forge it. Overall, the protection against manipulation and forgery is thus significantly increased. A counterfeit can be an unauthorized manufacture of a Be an identification document. A manipulation can relate to the unauthorized modification of an identification document that is genuine in itself.

In the present case, visible can mean that something, in particular a respective part, can be seen with the naked eye. Light with normal spectral distribution can also be referred to as normal light. Light with a normal spectral distribution can be defined, for example, as daylight, white light, and / or light with a spectral distribution mainly or with a predominant proportion in the visible wavelength range. Light with a smaller proportion of radiation in the wavelength range of UV light, as can be the case with daylight, is considered normal light and not UV light. For example, normal light can also correspond to the usual light for illuminating interior areas, such as that generated by ceiling lamps in a building. UV light can accordingly be defined as light or radiation with a predominant proportion in the UV spectral range. UV light is also known as ultraviolet radiation or UV radiation, colloquially also black light. The UV light can in particular be artificially generated light with a high proportion in the UV wavelength range, preferably with a predominant proportion in the UV wavelength range, particularly preferably with a greater proportion in the UV wavelength range than is possible with daylight. UV light can be generated, for example, by a UV lamp or black light lamp.

Color that can be stimulated to glow with UV light is also known as UV color. The stimulable color is stimulated to a visible colored glow under irradiation with UV light. The stimulable color then emits radiation or light with at least a portion in the visible spectral or wavelength range. So the color can be a Acting substance that can be stimulated to glow in color. Under UV light, the glow of the color can be perceived by the human eye as blue, red, green, yellow, magenta, etc., for example.

The substrate can have one or more layers, for example. In particular, the substrate can have or consist of a plastic layer. For example, the substrate can also have a carrier layer, for example made of plastic, and a cover layer, for example made of laminating film. The cover layer can protect the security feature against manipulation and wear as well as environmental influences, but can also have the colored portion. A visible layer of the substrate, such as, for example, the base layer, is preferably white and / or a cover layer, in particular without a printed color, is transparent.

The optical marking can comprise a text, characters and / or an image. In particular, the optical marking can correspond to a photo of the person who is to be identified by the identification document. The optical marking can be a security feature for checking the authenticity of the identification document and / or for determining who should be identified with the identification document. The optical marking can also have further security properties for checking the authenticity. For example, the optical marking can form a hologram, preferably already recognizable in daylight or only recognizable when illuminated with UV light.

The identification document can have further security features in addition to the optical marking. For example, the identification document can be a magnetic strip and / or a Security element, such as a chip, have. The identification document can be designed to store data, in particular electronically, which can be read out, for example on an RFID chip and by means of an RFID reader. In this way, for example, authorizations, access data, identification data and / or data for checking the authenticity of the identification document can be stored.

The identification document can be designed as a card, in particular as a chip card. The identification document can also be referred to as an identification card. The substrate can be essentially card-shaped. The identification document can be personalized with the optical security feature. The security feature cannot be individually personalized either, but merely contain access authorizations, for example. For example, the identification document can show a permissible duration of access to an area or a period of use of a ski lift by the optical security feature. In this way, tamper-proof access authorization can be made possible without actually identifying the owner. However, the optical security feature is preferably designed for an individual owner or person to be identified who can be uniquely determined by the identification document. For example, the security feature can represent a photo of the holder of an identity card.

The colored component and the black component are preferably matched to one another in such a way that these together form a security feature that can be recognized by humans, such as a predetermined geometric shape, a sign and / or an image. In particular, the optical security feature can be an essentially true-color reproduction of a Form a photograph with the two parts under UV light. The coordination between the black component and the colored component can also be referred to as precisely registered. The colored component and the black component preferably match one another in such a way that they together produce a colored image. The optical marking is preferably colored only under UV light and otherwise black and white.

The colored part of the optical marking or the UV color part is preferably at least almost invisible when illuminated with light with normal spectral distribution. This means that in normal daylight the colored part is not or hardly recognizable. The colored portion can be formed, for example, by at least one color that fluoresces or phosphoresces under UV light. The color that can be excited to shine under UV light can preferably be excited with standard UV light (UVA) with, for example, 365 nm wavelength and / or with short-wave UV light (UV-C) with, for example, 254 nm wavelength. The black portion is preferably still visible under UV light.

In particular, it is provided that the black component is formed by an integrated engraving in the substrate. The black component is integrated in the interior of the substrate in such a way that the surfaces of the substrate are mechanically unaffected. The integrated engraving is produced, in particular, in that particles which are designed to absorb energy from a laser beam are introduced into the interior of the substrate as soon as the substrate is manufactured. The particles can for example be designed as soot particles and / or metal oxide particles. When personalizing the identification document, the particles are then heated, preferably with a laser. The particles give off at least part of their thermal energy to the surrounding substrate. The substrate changes the color as a result of the heating and becomes darker, especially black, and can thus represent the black component.

In particular, the substrate carbonizes in the area of heating during the integrated engraving and therefore takes on the black color there. An integrated, engraved black component is particularly resistant to aging, weathering and abrasion. An integrated engraving enables a particularly precise and consistent design of the black component. The integrated engraving of substrates is difficult, particularly in the case of manual counterfeiting, to produce in sufficient, that is to say not recognizable as false, quality.

The integrated engraving is preferably introduced into the substrate by means of a laser, in particular the integrated engraving can be an engraving according to the LPI principle (Laser Protected Image). An LPI engraving is particularly precise and very long-term resistant.

In a further advantageous embodiment of the identification document, it is provided that the colored portion is applied to the substrate by means of D2T2, thermal transfer printing, INK-Jet printing and / or retransfer. The colored part is not created with regular ink, but with color or tine that can be excited to glow under UV light. Other customary methods for printing or color-coding identification cards can also be used, but instead of normal ink or color under UV light, color or ink that can be excited to glow is also used. Accordingly, the colored portion can be generated inexpensively and with little effort and yet be particularly tamper-proof. The black component can also be generated using one of the methods described above, but using normal black ink that is also visible in daylight. Thereby the two parts of the optical identification can easily be generated in one common step.

In a further advantageous embodiment of the identification document, it is provided that the black portion and the colored portion overlap at least in regions to form the optical marking. The overlap can in particular be an overlap, preferably in register, for an observer looking at the surface of the substrate. By overlapping, for example, a colored portion can be made darker or lighter with the black portion in order to achieve a greater range of color distribution. In addition, it is particularly easy to see whether the two parts match or whether the identification document has been forged or manipulated. With the integrated engraving, the two parts are particularly overlapping. The black component is then introduced, for example, into a carrier layer of the substrate, and the colored component is applied to an overlying cover layer, for example in the form of a laminated transfer film.

In a further advantageous embodiment of the identification document, it is provided that the black component and the colored component are at least regionally adjacent to one another. The optical marking can thus form an essentially continuous surface with both parts. Accordingly, both parts can simply be assigned to a single security feature. Adjoining them also makes manipulation and forgery more difficult.

In a further advantageous embodiment of the identification document, it is provided that the black portion comprises gray levels. In the case of grayscale, the black component can be of different density or dark act. A gray level can also be understood, for example, as a partially transparent black component. The gray levels are preferably formed by different intensities of the laser when the absorbing particles are irradiated in the substrate. The higher the intensity of the laser is chosen or the more energy the particles are irradiated in a certain period of time, the darker the part of the substrate surrounding the particles becomes. Gray levels are particularly advantageous when the black and colored parts overlap. Different grayscale, colored areas can then be formed with grayscale. Grayscale also allows the display of shades. In addition, the black portion can be particularly forgery-proof even without the colored portion and can be checked for manipulation, since the gray portion of the black portion can have more details.

The colored portion can also be formed in that the substrate has respective layers with the respective color that can be excited to shine under UV light. These layers can be exposed in a targeted manner, for example by ablation using a laser. However, the colored portion is preferably printed in order to keep the amount of and thus the costs for the color that can be excited under UV light to be low.

In a further advantageous embodiment of the identification document, it is provided that the colored portion is formed by at least two, preferably three colors that can be excited to glow under UV light, the colors glowing in different colors under UV light. As a result, a particularly large number of details can be shown and, in particular, a security feature in the manner of a color photo, but the color photo can only be seen under UV light. In particular, colors of the CMYK color scheme can be used. The key color (black) is preferably not is formed by color that can be excited to glow under UV light, but for example by an integrated engraving in the substrate. The CMY colors (cyan, magenta, yellow) colors are preferably formed by colors that can be excited under UV light. For example, the optical marking can be produced in this way simply using color ribbons with an ink that fluoresces under UV light, it being possible to use a customary color breakdown to control the printer. A clear overlay and / or a laminate is preferably provided over the colored print, which provides protection of the security feature from wear and tear and manipulation. The optical marking can be put together with the different components according to normal methods, the black component also being visible without UV light. According to the usual method, the division of colored images into their different color components according to a color scheme, such as the CMYK scheme.

In a further advantageous embodiment of the identification document, it is provided that the black portion and the colored portion together form a color-correct image when illuminated with UV light. The optical marking visible under UV light can therefore form a color-correct image. For example, it can be seen under UV light that the optical marking corresponds to a color photograph, in particular to a person identified by the identification document. Without UV light, the optical marking can, for example, correspond to a black and white photo.

A second aspect of the invention relates to a method for producing an identification document. The method can have the step of providing a substrate. Furthermore, the method can have the step of providing a template for a security feature recognizable as an optical marking from at least one side of the substrate, wherein the original includes a black portion and a colored portion. The template can be provided electronically, for example, as a print data record or a digitally stored photo. In addition, the method can have the step of generating a black portion of the optical marking as a function of the black portion of the original in such a way that the black portion of the optical marking is visible at least when illuminated with light with normal spectral distribution. Furthermore, the method can have the step of generating a colored part of the optical marking as a function of the colored part of the original in such a way that the at least part of the colored part of the optical marking is only visible when illuminated with UV light. A particularly forgery-proof and tamper-proof identification document is thereby produced.

The method according to the second aspect is particularly suitable for producing the identification document according to the first aspect. The preferred embodiments presented with reference to the respective method according to the invention and their advantages apply accordingly to the identification document according to the invention. The method steps of the method according to the invention are each preferably designed to produce the respective objective components of the identification document.

It is preferably provided in the method to produce the black portion by engraving the substrate using a laser. The black component is preferably generated with gray levels. The method preferably provides for the colored portion to be formed at least partially by printing the substrate with a color that can be excited to glow under UV light.

The template can be a colored image that in a further process step is broken down into a black component, optionally with gray levels, and a colored component. The colored part can be broken down into individual colors, for example into the colored parts of the CYMK color model. The colored component and the black component are then generated accordingly. The disassembly can be carried out using a computing unit designed for this purpose, in particular using a digital template.

In a further advantageous embodiment of the method, it is provided that a colored photograph is provided as a template and the black portion and the colored portion together form an essentially color-correct reproduction of the colored photograph under UV light. The identification document can thus form a copy of a photograph thereon or a copy of a photograph is produced on the identification document or in and / or on the substrate. This copy can only be recognized as having the correct color under UV light. Otherwise, preferably only a black and white image or a black and white print and / or black and white copy of the original can be recognized, for example when illuminated with daylight.

The advantageous embodiments of the identification document can also be advantageous developments of the method and the advantageous embodiments of the method can also be advantageous developments of the identification document.

Further features of the invention emerge from the claims, the figures and the description of the figures. Embodiments of the invention are explained in more detail below with reference to schematic drawings.

It shows:

Fig. 1

in a schematic representation an identification document when illuminated with daylight;

Fig. 2

in a schematic representation according to the identification document Fig. 1 when illuminated with UV light;

Fig. 3

in a schematic representation an embodiment of the identification document in a side sectional view;

Fig. 4

in a schematic representation of a further exemplary embodiment of the identification document in a side sectional view.

Fig. 1 shows a schematic representation of an identification document 10, which is designed, for example, as an identity card. The identification document 10 has a substrate 30. For example, the identification document 10 is designed in credit card format and as a card. The substrate 30 can for example be formed from one or more layers of plastic.

A national emblem 12 is depicted on the identification document 10, which identifies the issuing country and can be designed as a security feature. For example, the national emblem 12 can form a type of hologram when viewed.

Furthermore, characters 14 are formed on the identification document 10, for example in the form of printing. In the present case, for example, the name of the card holder is shown.

In addition, the identification document 10 has, for example, a security element 16, in the present case in the form of a chip. The chip can be used to store respective data assigned to the person, for example electronically readable personal data such as the date of birth of the identifying person, their social security number and / or an ID number. These data are preferably stored in encrypted form and the security element is designed to be protected against manipulation.

The identification document furthermore has an optical marking 18 as a security feature. The optical marking 18 is formed on a surface area of the identification document and essentially corresponds to a photo of the identity card holder.

In Fig. 1 the optical marking is illustrated when illuminated with daylight. In daylight, only the respective black components 20 of the optical marking 18 can be seen or recognized by an observer. In the present case, the black portions 20 depict the contours of the photograph of the identity card holder. The black components 20 can, however, also map a respective light-dark course by means of gray levels. The black parts preferably allow at least to identify the card holder.

Fig. 2 illustrates the identification document 10 when illuminated with UV light, for example by a UV lamp. Be by the UV light Special colors that can be stimulated by UV light, for example fluorescent colors, are stimulated to shine brightly. Thus, for example, a first colored portion 22 of the optical marking 18 is visible to the viewer with the human eye, which is designed as an area and matches the color of an item of clothing of the ID card holder on the photo depicted by the optical marking 18. Furthermore, a second colored portion 24 with a face color of the identity card holder can be seen in the photo. A third colored portion 26 shines with the color of the eyes of the identity card holder and a fourth colored portion 28 with the color of his hair. Each colored portion 22, 24, 26, 28 can shine under UV light with a different color and / or color gradients. Correspondingly, each colored part 22, 24, 26, 28 can be formed by different colors and / or different color parts. The colors used for this are preferably fluorescent.

The optical identifier 18 can therefore represent a color-correct UV image of the identity card holder under UV light. Correct color can in particular mean the essentially correct reproduction of the color of a photo of the ID card holder. However, the color can differ from other representations, especially in terms of intensity and luminosity. This deviation can be similar to the deviation of a photo displayed on a screen compared to the same photo in printed form.

The black components 20 and the colored components 22, 24, 26 and 28 are in particular matched to one another with perfect register. The identification document 10 is therefore particularly forgery-proof and tamper-proof due to the optical identifier 18. In addition, manipulations under UV light, which is already often available at control points, easy to discover. Without UV light, for example in daylight, the colored portions 22, 24, 26 and 28 are barely or not recognizable to the human eye. As a result, the colored portion of the photo or of the optical identifier 18 is initially unknown to the viewer, which makes it even more difficult to take account of manipulations and forgeries.

The black component 20 is preferably introduced into the substrate 30 of the identification document by means of integrated engraving and the colored components 22, 24, 26, 28 are printed, in particular in a laminated transfer film. The combination of two methods for generating a common optical identifier 18 and thus the corresponding security feature means that imitation is particularly difficult. In addition, the black components 20 and the colored components 22, 24, 26, 28 can overlap or cover one another. For a viewer, the luminosity and / or intensity of the colored portions 22, 24, 26, 28 under UV light can thus be changed by the darkness or gray level of the corresponding area of the black portion 20 compared to a color that is not overlaid by UV light . This means that further color gradients and details can be displayed.

In principle, the colored portions 22, 24, 26, 28 can also have a color gradient and / or a color mixture. As is usual with printing, new color tones can be combined from several basic colors, in the present case with colors that can be excited by UV light. As a result, the optical identifier 18 can be particularly detailed and lifelike and thus also particularly safe. The CYMK color scheme is suitable, for example, the CYM components being formed by color that can be excited with UV light and the K component by an integrated engraving.

The resolution of the optical identifier 18 can be, for example, 300 dpi or more. In this way, photos can be reproduced in a particularly true-to-detail manner, which makes it easier to check the authenticity of the identification document 10 and to identify the ID card holder and makes forgeries more difficult.

The optical identifier 18 can have significantly more details, areas and gradations than is illustrated schematically in the figures. In particular, color gradients and / or brightness gradients can also be provided as a colored component. The brightness of the same colors per se can also be different in different areas, in particular due to an at least partial superimposition of the black component 20.

Fig. 3 shows an embodiment of the identification document 10 in a schematic side sectional view with a preferred plan view direction 32. The plan view direction 32 is the direction in which a user preferably views the identification document 10. According to the exemplary embodiment, the colored portions 22, 24, 26, 28 are arranged next to one another when viewed from the top view direction 32. The colored portions 22, 24, 26, 28 can, however, in an example not shown, also be arranged one above the other from the perspective of the top view direction 32, that is to say in layers. Furthermore, the colored components 22, 24, 26, 28 are arranged in particular in register over the black component 20.

Fig. 4 shows a further embodiment of the identification document 10 in a schematic side sectional view with the plan view direction 32. According to the embodiment, the colored portions 22, 24, 26, 28 are arranged in layers one above the other. The colored portions 22, 24, 26, 28 can, in an example not shown, from the perspective of the top view direction 32 but also be arranged one above the other. Furthermore, the colored portions 22, 24, 26, 28 are arranged partially overlapping over the black portion 20.

Above the colored portions 22, 24, 26, 28 of the identification document 10 according to FIG Fig. 3 or 4 , that is to say from the perspective of the top view direction 32 in front of the colored portions 22, 24, 26, 28, a cover layer can additionally be arranged or applied.

Claims (10)

Identification document (10) with a substrate (30) and with at least one side of the substrate (30) as an optical marking (18) recognizable security feature, the marking (18) at least one black component (20) and at least one colored component (22, 24, 26, 28), the black component (20) being visible at least when illuminated with light with normal spectral distribution, and the colored component (22, 24, 26, 28) at least partially by a color that can be excited to glow under UV light is formed, which is essentially only visible when illuminated with UV light, the black portion (20) being formed by an integrated engraving in the substrate (30). Identification document (10) according to claim 1, wherein the integrated engraving is formed by carbonizing the substrate (30) at least in certain areas. Identification document (10) according to Claim 1 or 2, the colored portion (22, 24, 26, 28) being applied to the substrate (30) by means of D2T2, thermal transfer printing, INK-Jet printing and / or retransfer. Identification document (10) according to one of the preceding claims, wherein
the black component (20) and the colored component (22, 24, 26, 28) overlap at least in some areas to form the optical marking (18). Identification document (10) according to one of the preceding claims, wherein
the black component (20) and the colored component (22, 24, 26, 28) adjoin one another at least in some areas. Identification document (10) according to one of the preceding claims, wherein
the black component (20) and the colored component (22, 24, 26, 28) are designed in register with one another. Identification document (10) according to one of the preceding claims, wherein
the colored portion (22, 24, 26, 28) is formed by at least two, preferably three colors that can be excited to glow under UV light, the colors glowing in different colors under UV light. Identification document (10) according to one of the preceding claims, wherein
the black component (20) and the colored component (22, 24, 26, 28) together form an image of the correct color when illuminated with UV light. A method for producing an identification document (10) comprising at least the following steps: - providing a substrate (30); - Providing a template for a security feature recognizable as an optical marking (18) from at least one side of the substrate (30), the template having a black component and a colored component; - Generating a black component (20) of the optical marking (18) as a function of the black component of the original in such a way that the black component (20) of the optical marking (18) is visible at least when illuminated with light with normal spectral distribution; - Generating a colored portion (22, 24, 26, 28) of the optical marking (18) as a function of the colored portion of the original in such a way that the at least part of the colored portion (22, 24, 26, 28) of the optical marking (18) is only visible when illuminated with UV light. Method according to claim 9,
wherein a colored photograph is provided as a template and the black component (20) and the colored component (22,24,26,28) together under UV light form an essentially color-correct reproduction of the colored photograph.

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