EP3528217A1 - Dispositif et procédé de vérification optique d'un document de sécurité, en particulier d'un livret de banque - Google Patents

Dispositif et procédé de vérification optique d'un document de sécurité, en particulier d'un livret de banque Download PDF

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Publication number
EP3528217A1
EP3528217A1 EP19157672.7A EP19157672A EP3528217A1 EP 3528217 A1 EP3528217 A1 EP 3528217A1 EP 19157672 A EP19157672 A EP 19157672A EP 3528217 A1 EP3528217 A1 EP 3528217A1
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EP
European Patent Office
Prior art keywords
security document
optical
optically
optical detection
detection device
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
EP19157672.7A
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German (de)
English (en)
Inventor
Thomas Fox
Ralf Grieser
Marcus König
Daniel TSCHAKERT
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Bundesdruckerei GmbH
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Bundesdruckerei GmbH
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Publication date
Application filed by Bundesdruckerei GmbH filed Critical Bundesdruckerei GmbH
Publication of EP3528217A1 publication Critical patent/EP3528217A1/fr
Pending legal-status Critical Current

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    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07DHANDLING OF COINS OR VALUABLE PAPERS, e.g. TESTING, SORTING BY DENOMINATIONS, COUNTING, DISPENSING, CHANGING OR DEPOSITING
    • G07D7/00Testing specially adapted to determine the identity or genuineness of valuable papers or for segregating those which are unacceptable, e.g. banknotes that are alien to a currency
    • G07D7/06Testing specially adapted to determine the identity or genuineness of valuable papers or for segregating those which are unacceptable, e.g. banknotes that are alien to a currency using wave or particle radiation
    • G07D7/12Visible light, infrared or ultraviolet radiation
    • G07D7/121Apparatus characterised by sensor details

Definitions

  • the invention relates to a device and a method for optically examining a security document, in particular a passbook.
  • the device is particularly suitable for multiple, location-identical inspection of security documents.
  • security documents such as e.g. Passports which have so-called security features or characteristic features for protection against misuse, falsification and / or total counterfeiting.
  • security features By means of such security features, it is possible to verify the authenticity of the security document, since the security features of counterfeiters can not be reproduced in part or in insufficient quality.
  • a security document is to be understood as meaning a document that is designed such that the authenticity of the document can be verified.
  • the security document has at least one security feature by means of which the authenticity of the document can be verified.
  • security features are designed such that it is difficult for counterfeiters in particular to faithfully reproduce the security features.
  • Security documents may e.g. Passports (such as travel or diplomatic passports), identity cards, driver's licenses, credit cards or banknotes.
  • the security features are surface features or printed indicia.
  • the printed features may be, in particular, one, in particular multi-colored, guilloche, a microfilm, a print luminescent under UV illumination, a printed feature with an optically variable color, a hologram, in particular a holographic portrait, a kinegram, a machine-readable zone or a watermark.
  • a surface structure may e.g. an engraving, in particular a laser engraving, a tactile feature, a surface embossing, a window or a perforation, in particular a laser perforation be.
  • the optically detectable feature may be e.g. to act, in particular luminescent, mottled or a security thread.
  • the security document may have the following security features (such as on the front page and / or the data page of the German passport): multi-colored guilloches (eg of the federal eagle), positive and negative microfilm elements in various sizes, luminescent imprints under UV illumination, optically variable colors , holographic portraits (eg holographic photographs of the owner), holographic 3D symbols (eg a 3D federal eagle), kinematic motion structures, color integrations in a plastic card, laser engraving, tactile features (especially applied by laser engraving), invisible under visible light Melierfasern that luminesce under UV illumination, raised or recessed surface embossing, machine-readable zones, windows, personalized security threads (especially metallized, machine-checkable security threads, which are provided with a serial number and / or name of a holder of the security document, in particular with additional optically variable Elements), watermarks and / or perforated, in particular laser perforated serial numbers (preferably wherein the serial number is laser perforated serial
  • guilloches are called protective patterns of fine, intertwined lines, the line structures being resolved in reproductions of the original in dotted raster structures.
  • holograms are taken to mean holographic techniques, in particular photographic images, which reproduce a true three-dimensional image of the original subject when illuminated with coherent light.
  • a kinegram also referred to as a kinematic motion structure, optically variable feature or optically variable element, in the context of this specification is a two-dimensional image that varies depending on the viewing angle. Such elements may e.g. be perceptible only at a certain viewing angle or have a different color depending on the viewing angle.
  • a tactile font is referred to.
  • the printed features may e.g. Fonts with such a small font size that they can only be faithfully reproduced with high-precision printing processes.
  • An optical test is, in particular, to be understood as the detection of visible or invisible (eg UV and / or IR radiation) light which is scattered, reflected or emitted by the security document, or transmitted or transmitted by it.
  • the security document is illuminated, for example, by a suitable light source and, for example, the intensity and / or the wavelength of the scattered, reflected, emitted or transmitted light is detected or measured by means of the respective optical detection device or detection devices.
  • at least one image of the security document is recorded by means of the optical detection device, for example when the respective detection device is designed as a camera.
  • an image of the security document is recorded or recorded in the optical inspection.
  • the optical inspection after taking the image may comprise further steps, in particular data processing and / or image processing steps, which are e.g. can be performed with a computer connected to the optical detection means.
  • the optical detection devices are configured to visually inspect the security document in a first or second direction.
  • the "one-way visual check” means that the security document is visually checked from a viewing position, the respective direction running along a connecting line between the viewing position and the security document or feature to be detected of the security document.
  • a camera lens of the optical detection device are located at the viewing position.
  • the direction is a viewing direction of the detection device.
  • the optical detection device it is also possible to position the optical detection device at a distance from the viewing position, the light scattered, reflected, emitted or transmitted by the security document being e.g. is deflected by a mirror or a light guide (optical fiber) such that it meets the optical detection means.
  • the mirror or an end of the light guide facing the security document is defined as the observation position, so that the corresponding direction runs from the mirror or end of the light guide to the security document.
  • the second direction in which the second detection device performs the optical check deviates, in particular, from the first direction in which the first detection device checks the security document. That is, the first direction is not parallel to the second direction, but the first and second directions are at an angle to each other greater than 0 ° and smaller than 180 °.
  • the optical inspection by the second detecting means is performed from a side other than the optical inspection by the first detecting means. That is, a connecting line between the viewing position of the first detecting device and the security document and a connecting line between the second viewing position and the security document are antiparallel to each other, that is, have an angle of 180 °.
  • the viewing position of the second detection device is opposite to the viewing position of the first detection device, and the security document is between the viewing position of the first detection device Positioning device and the viewing position of the second detection device positioned.
  • the optical inspection device is set up to visually check the security document in a checking step by means of the first optical detection device and the second optical detection device.
  • a simultaneous optical examination by means of the first and second optical detection device can take place in the test step, or the optical examination by means of the first and second optical detection device can take place shortly one after the other.
  • the device according to the invention allows an inspection of the security document at a physical position, wherein the execution of the inspection is configurable.
  • the complexity of the system and the space required for processing and / or testing stations and automation effort can be advantageously reduced.
  • the invention therefore makes possible a variable, customer-oriented inspection concept for security documents.
  • the inventively provided at least two optical detection devices can advantageously be saved space for additional devices with only one detection device.
  • the first and the second optical detection device are arranged in a common housing or on a common carrier device in a module.
  • the first optical detection device is configured to visually check a first region of the security document in the first direction
  • the second optical detection device is adapted to, in addition to the optical examination of the first region by means of the first optical detection device, a second region of the first Security document in the second direction or in the first direction from the other side visually check.
  • the first area does not overlap with the second area.
  • the first and the second area are spaced from each other.
  • the first region of the security document may be positioned in a plane perpendicular to the first direction and / or the second region of the security document may be positioned in a plane perpendicular to the second direction.
  • the areas may be e.g. to trade pages or book covers of a passport or sections of a page or book cover of the passport book.
  • a further embodiment provides that the apparatus further comprises a third optical detection device for detecting optically perceptible information, which is set up, in addition to the optical examination of the security document by means of the first optical detection device and the optical examination of the security document by means of the second optical detection device, the security document in particular a third region of the security document to be optically checked in a third direction deviating from the first direction and the second direction or in the first or second direction from a side other than the first or second optical detection device.
  • a third optical detection device for detecting optically perceptible information, which is set up, in addition to the optical examination of the security document by means of the first optical detection device and the optical examination of the security document by means of the second optical detection device, the security document in particular a third region of the security document to be optically checked in a third direction deviating from the first direction and the second direction or in the first or second direction from a side other than the first or second optical detection device.
  • the first direction extends at an angle, in particular perpendicular, to the second direction, that is, the first direction extends at an angle of 90 ° to the second direction.
  • first direction is angled, in particular perpendicular, to the third direction.
  • second direction may extend at an angle, in particular perpendicular, to the third direction.
  • a vertical arrangement of the directions can e.g. be advantageous if it is the passport to be tested security document that is exfoliated so that the book cover of the passport are arranged perpendicular to each other. In this case, e.g. two different pages of the passport, in particular at the same time, are checked visually.
  • the device for optical testing is set up to optically test the security document simultaneously by means of the first optical detection device and the second optical detection device.
  • a simultaneous examination by means of the first, second and / or third optical detection device takes place.
  • the test by means of the first and second optical detection device can be made shortly after each other.
  • a simultaneous or almost simultaneous check advantageously saves time in the examination of the security document.
  • the first, second and / or third detection device is set up by means of the security document emitted light to detect an optically perceptible feature, in particular a security feature of the security document.
  • an optically perceptible feature is any feature of the security document that can be detected by a suitable sensor or detector by means of light reflected, scattered, emitted or transmitted by the security document, in particular visible light, ultraviolet radiation or ultraviolet light and / or infrared radiation or infrared light is.
  • the device for optical testing has at least one light source for illuminating the security document with visible light (also referred to as white light), wherein the first optical detection device, the second optical detection device and / or the third optical detection device is adapted to detect the optically detectable feature by means of the reflected by the security document, scattered and / or transmitted visible light, so that the security document can be visually checked by means of visible light.
  • visible light also referred to as white light
  • 'transmitted' means that the light passes through at least one opening or a transparent region of the security document.
  • visible light or white light is electromagnetic radiation having a wavelength between 380 nm and 780 nm.
  • the first optical detection device, the second optical detection device and / or the third optical detection device is / are adapted to detect the optically perceptible feature by means of an infrared radiation emitted by the security document, so that the security document by means of the emitted infrared radiation optically can be tested.
  • the device for optical testing in particular an infrared radiation source, which is designed or adapted to irradiate the security document with infrared radiation, so that heats the security document.
  • infrared radiation or infrared light is to be understood in the context of the present specification electromagnetic radiation having a wavelength of 780 nm to 1 mm inclusive.
  • a radiation source for irradiating the security document with infrared radiation or infrared light can be provided, wherein different areas of the security document differ by the irradiation with the infrared radiation strongly, especially due to the different material composition of these areas.
  • the various regions of the heated security document then emit infrared radiation of different wavelengths and / or different intensities, the infrared radiation being detected by the first, second and / or third optical detection device and used for the optical examination of the security document.
  • the irradiation with the infrared light is used in particular to produce a thermal imbalance between the different areas of the security document.
  • the thermal imbalance can also be generated in another way, e.g. by direct heating (via heat conduction) or by transferring the security document from a warmer environment to a colder environment.
  • a processing step of the security document e.g. a print or a perforation, cause different areas of the security document to be heated to different degrees.
  • the security document is checked immediately after such a processing step by means of the optical testing device according to the invention, the infrared radiation emitted by the different regions of the security document having different wavelengths and / or different intensities can be used for optical testing of the security document.
  • an RFID transponder of the security document by the action of an electromagnetic alternating field, e.g. a suitable reader to be energized so that heats the RFID transponder.
  • the thermal radiation of the RFID transponder which is warmer compared to the rest of the security document, can then be detected by means of the correspondingly configured optical detection device.
  • the optical detection device is, in particular, a thermal imaging camera.
  • the light source for illuminating the security document with infrared light is also set up to illuminate the security document with the visible light, that is, the same light source is used for generating the visible light and the infrared light.
  • a switching device is preferably provided for switching between the generation of the visible light and the infrared light.
  • the optical inspection apparatus may also include a white light source for illuminating the security document with the visible light and a separate infrared light source for illuminating the security document with the infrared light.
  • the device for optical testing comprises at least one light source for irradiating the security document with ultraviolet light or ultraviolet radiation, wherein the first optical detection device, the second optical detection device and / or the third optical detection device is / are arranged to detect optically detectable feature emitted by the irradiation of the ultraviolet light from the security document light, so that the security document can be visually checked by means of the emitted light.
  • ultraviolet light or ultraviolet radiation is to be understood as meaning electromagnetic radiation having a wavelength of 1 nm to 380 nm inclusive.
  • UV light can also be emitted from the security document.
  • the emitted UV light may be e.g. to act on the security document scattered, reflected and / or transmitted UV light.
  • the security document in particular at certain positions (for example in the form of luminescent letters or mottled fibers), contains a luminescent substance which, when irradiated with UV light, emits visible light which is detected by the first, second and / or third detection means.
  • a luminescent substance may e.g. a fluorescent or phosphorescent substance.
  • the light source for illuminating the security document with the ultraviolet light is also set up to illuminate the security document with the visible light, that is, the same light source is used to generate the visible light and the UV light.
  • the light source for illuminating the security document with the ultraviolet light may also be set up to illuminate the security document with the infrared light.
  • the light source for illuminating the security document with the UV light is set up both for illuminating the security document with the visible light and for illuminating the security document with the infrared light.
  • a switching device is preferably provided for switching between the generation of the visible light, the UV light and / or the infrared light.
  • the device for optical inspection a white light source for illuminating the security document with the visible light and a separate UV light source for illuminating the security document with the UV light or at least one separate white light source, infrared light source and / or UV light source respectively.
  • a second aspect of the invention relates to a method for optically examining a security document by means of a device for optically examining a security document according to the first aspect of the invention, wherein a security document, in particular a passbook, is supplied to the device for optical checking, and wherein the security document by means of first optical detection means in the first direction is optically checked, and wherein the security document is optically examined by the second optical detection means in the second direction or in the first direction from the other side, in particular the security document by means of the third optical detection means in the third direction or visually inspected in the first or second direction from the other side.
  • a security document in particular a passbook
  • the respective optical test can be staggered in time and / or performed simultaneously.
  • the method is configured in such a way that the multiple optical tests are performed on a security document remaining in or on the device.
  • a first region of the security document is optically tested by means of the first optical detection device, wherein a second region of the security document is optically examined by means of the second optical detection device in addition to the optical examination of the first region, and wherein in particular in addition to the optical inspection of the first Area and the second area by means of the third optical detection means, a third area of the security document is optically checked.
  • an optically perceptible feature, in particular a security feature, of the security document is detected by means of light emitted by the security document.
  • the security document is illuminated with visible light, whereby an optically perceptible feature is detected by means of the visible light reflected, scattered and / or transmitted by the security document so that the security document is optically examined by means of the visible light.
  • a further embodiment of the method provides that an optically perceptible feature is detected by means of an infrared radiation emitted by the security document, so that the security document is visually checked by means of the infrared radiation.
  • the security document is warmed prior to detection of the infrared radiation or the security document is transferred from a warmer to a colder environment.
  • the security document is irradiated with infrared radiation prior to detection of the infrared radiation.
  • the security document is processed prior to the detection of the infrared radiation such that the security document heats up.
  • processing may e.g. printing or laser perforation of the security document.
  • the security document may be irradiated with ultraviolet light, whereby an optically perceivable feature is detected by light emitted from the security document due to the irradiation with the ultraviolet light so that the security document is visually inspected by the emitted light.
  • the light emitted due to the irradiation with the ultraviolet light may be e.g. to act luminescent light of a luminescent substance, which is excited by the UV light.
  • the security document is illuminated with visible light, whereby an optically perceptible feature is detected by means of the visible light reflected, scattered and / or transmitted by the security document and, in particular before or after illumination with the visible light and Detecting the visible light, an optically detectable feature detected by means of a radiated from the security document infrared radiation.
  • the security document is illuminated with visible light, whereby an optically perceptible feature is detected by means of the visible light reflected, scattered and / or transmitted by the security document, and it becomes, in particular, before or after the illumination with the visible light and detecting the visible light irradiating the security document with ultraviolet light, wherein an optically recognizable feature is detected by light emitted from the security document due to the irradiation of the ultraviolet light.
  • An optically detectable feature can be detected by means of an infrared radiation emitted by the security document, wherein, in particular before or after the detection of the infrared radiation, the security document is irradiated with ultraviolet light, an optically perceptible feature being detected by means of the security document is detected due to the irradiation of the ultraviolet light emitted light.
  • the security document is illuminated with visible light, whereby an optically perceptible feature is detected by means of the visible light reflected, scattered and / or transmitted by the security document, and it becomes, in particular, before or after the illumination with the visible light and detecting the visible light, an optically detectable feature by means of an infrared radiation emitted by the security document, and wherein, in particular before or after the illumination with the visible light and the detection of the visible light and before or after the detection of the infrared radiation, the security document is irradiated with ultraviolet light, whereby an optically perceivable feature is detected by light emitted from the security document due to the irradiation with the ultraviolet light.
  • an optical inspection is performed by means of visible light, infrared radiation and UV light, that is, several types of inspection are performed serially.
  • the implementation of the method is not limited to the order shown, but the individual, differing in the nature of the light tests can also be performed in a different order or at least partially simultaneously.
  • this makes it possible to detect a wide variety of visually perceptible features of the security document by means of a single test module also by means of various types of light.
  • the security document is a book document, in particular a passport, e.g. a passport, the book document having a book cover with a first book cover and a book spine hingedly connected to the first book cover second foldable cover and at least one connected to the spine can be arranged between the first book cover and the second book cover page.
  • a passport e.g. a passport
  • the book document having a book cover with a first book cover and a book spine hingedly connected to the first book cover second foldable cover and at least one connected to the spine can be arranged between the first book cover and the second book cover page.
  • the at least one side made of any material, in particular paper or a plastic consist.
  • the side may have different strength or bending stiffness.
  • the book document may have both paper pages and pages made of plastic.
  • the at least one side of the book document comprises the first area to be checked by means of the first optical detection device.
  • At least one side may also be a plastic card with an integrated chip.
  • first or second book cover of the book document may comprise the second area to be checked by means of the second optical detection device, wherein in particular the first or second book cover of the book document also comprises the third area.
  • the optically perceptible features of several pages and / or book covers of a security document in particular simultaneously, can be optically checked by means of a single device.
  • the security features of the title page and the data page of a passport book as well as the perforation of the serial number on the back cover of the passport book can be checked simultaneously.
  • the security document is visually checked by means of the device for optical inspection, wherein the security document after the optical inspection, in particular for performing a processing step, is led away from the device for optical inspection, and wherein the security document, in particular after the execution of the processing step which is re-fed to the optical inspection apparatus, and the security document after re-feeding is optically rechecked by the optical inspection apparatus.
  • the device for optical inspection or the test station is thus approached repeatedly.
  • the security document is checked by at least one optical inspection operation by means of one or more optical detection devices, then removed from the device for further processing or processing, and returned to the device at a later time on the device, a further test procedure is carried out.
  • one and the same device according to the invention can advantageously be used for various test procedures, e.g. be used after various processing steps.
  • a third aspect of the invention relates to a system for optically examining a security document, comprising at least one device for processing a security document and a device for optically examining a security document according to the first aspect of the invention
  • the system for optical testing comprising a transport device adapted thereto is to move a security document between the device for processing and the device for optical inspection, so that the security document after performing a processing step by the device for processing by means of the transport device of the optical inspection device can be supplied and the security document by means of the device for optical Test is optically verifiable and / or so that the security document after the optical inspection of the device for processing can be fed and the security document by means of the device for Be work can be processed.
  • the FIG. 1 shows a perspective view of an apparatus 1 for optically examining a security document according to the present invention.
  • the device 1 has a housing 100, which is arranged on rails 80, in particular movable, on a base plate 70. Furthermore, in particular cable channels 90 for receiving lines, eg electrical power or pneumatic lines, are provided on the base plate 70.
  • a security document 2 in particular a passport book, shown with a book cover 3, wherein the book cover 3 has a first book cover 4 and a second book cover 6 connected to a spine 5 with the first book cover 4. Between the book covers 4,6 5 connected to the spine pages 7 are arranged.
  • at least one side 7 is a plastic card, with further pages 7 being made of paper.
  • the security document 2 is arranged on a hold-down 60 of the optical test device 1, that the security document 2 is exfoliated, wherein the first book cover 4 is positioned in a first plane which is perpendicular to a second plane formed by the second book cover 6.
  • the first plane runs vertically, ie upright, and the second plane runs horizontally.
  • the device 1 for optical testing has a first optical detection device 10 for detecting optically perceptible information, which is designed here in particular as a camera.
  • the first optical detection device 10 is mounted on a holding device 12 together with two first light sources 40a designed as surface radiators for illuminating or irradiating the security document 2.
  • a light source field designed as a second light source 40b for illuminating or irradiating the security document 2 and a third light source 40c for illuminating or irradiating the security document 2 is provided.
  • the first light sources 40a mainly the first region B1 of the security document 2 is illuminated, while the second light source 40b mainly illuminates the second region B2 and the third light source 40c mainly illuminates or irradiates the third region B3.
  • a camera lens 11 of the first optical detection device 10 is aligned in such a way that a first region B1, here a side 7, of the security document 2 can be optically checked by the first optical detection device 10 in a first direction r1.
  • a first region B1 here a side 7, of the security document 2 can be optically checked by the first optical detection device 10 in a first direction r1.
  • visually perceptible features in particular security features, e.g. Guilloches, holgrams, watermarks or a serial number, detected by the first optical detection device 10.
  • the first direction r1 here runs along a line from the camera lens 11 to the first area B1 of the security document.
  • the first region B1 may be e.g. to trade the so-called title page of a German passport or a paper page.
  • the first optical detection device 10 may be configured to detect visible light, infrared radiation and / or UV light. That is, in the first optical detecting device 10, e.g. a thermal imaging camera combined with a conventional white light camera.
  • the first light sources 40a which mainly illuminate the first region B1 can also be designed to illuminate or irradiate the security document 2 with visible light, infrared radiation and / or UV light.
  • perceptible security features such as guilloches or micro-scripts are detected by the first optical detection device 10.
  • an image of the security document is taken in particular by the first optical detection device.
  • the security document 2 is e.g. By means of the first light sources 40a irradiated with UV light, especially under UV light luminescent security features can be detected and checked by the light emitted due to the excitation by the UV light visible light from the first optical detection device 10.
  • the first optical detection device 10 is e.g. is designed as a thermal imaging camera, this infrared radiation, e.g. detected as a thermal image of the security document 2.
  • the device 1 for optical testing furthermore has a second optical detection device 20 for detecting optically perceptible information, which is embodied here in particular as a camera with a second camera lens 21.
  • the second optical detection device 20 is in this case arranged such that the security document 2 can be optically checked along a second direction r2 extending between the second camera lens 21 and the security document 2 by means of the second optical detection device 20.
  • the second area B2 is in particular illuminated or irradiated mainly by the second light source 40b.
  • the second direction r2 in this case runs perpendicular to the first direction r1 in the example shown here.
  • the second area B2 of the security document 2 is in particular a data page of a German passport.
  • the second optical detection device 20 may also be designed to detect visible light, infrared radiation and / or UV light. Accordingly, the second light source 40b can also be set up to illuminate the security document with visible light, infrared radiation and / or UV light.
  • the device 1 for optical testing on a third optical detection device 30, which is also formed in particular as a camera with a third camera lens 31.
  • the third optical detection device 30 is here aligned with its third camera lens 31 along the second direction r2.
  • a mirror 50 positioned between the third optical detection device 30 and a third region B3 of the security document 2 is provided, which is arranged in such a way that the third region B3 is optically testable along a third direction r3 by means of the third optical detection device 30.
  • the third area B3 is in particular illuminated or irradiated by the third light source 40c.
  • the third optical detection device 30 may also be designed to detect visible light, infrared radiation and / or UV light. Accordingly, the third light source 40c can also be set up to illuminate the security document with visible light, infrared radiation and / or UV light.
  • the third area B3 of the security document 2 may be e.g. to act a second book cover 6.
  • this book cover 6 may e.g. as a security feature have a perforation of a serial number. This can be detected in particular by the third optical detection device 30 when illuminated with visible light.
  • the security document 2 can be e.g. the device 1 after a processing step (e.g., the introduction of a security feature) are supplied.
  • a processing step e.g., the introduction of a security feature
  • the security document 2 can be e.g. by means of the first, second and / or third light source 40a, 40b, 40c are illuminated with visible light and it can in particular simultaneously by means of the first, second and / or third optical detection means 10,20,30 security features of the first, second and / or third Be detected area B1, B2, B3.
  • the security document 2 may e.g. be irradiated with infrared light and it can turn corresponding security features by means of the first, second and / or third optical detection means 10,20,30 are detected.
  • the security document 2 can be irradiated with UV light and e.g. luminescent security features are detected by the emitted visible light by means of the first, second and / or third optical detection means 10,20,30.
  • the security document 2 can be supplied to a further processing step and the device 1 for optical testing can be approached again for a further test.
  • ⁇ U> REFERENCE LIST ⁇ / u> 1 Apparatus for optically examining a security document 2 Security document, in particular passport 3 book cover 4 First book cover 5 spine 6 Second book cover 7 page 10 First optical detection device 11 First camera lens 12 holder 20 Second optical detection device 21 Second camera lens 30 Third optical detection device 31 Third camera lens 40 light source 40a First light source, surface radiator 40b Second light source, LED field 40c Third light source 50 mirror 60 down device 70 baseplate 80 rail 90 Cabel Canal 100 casing r1 First direction r2 Second direction r3 Third direction B1 First area B2 Second area B3 Third area

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  • Health & Medical Sciences (AREA)
  • General Health & Medical Sciences (AREA)
  • Toxicology (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Inspection Of Paper Currency And Valuable Securities (AREA)
  • Credit Cards Or The Like (AREA)
EP19157672.7A 2018-02-19 2019-02-18 Dispositif et procédé de vérification optique d'un document de sécurité, en particulier d'un livret de banque Pending EP3528217A1 (fr)

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DE102005032704A1 (de) * 2005-07-13 2007-01-25 Giesecke & Devrient Gmbh Wertdokumente, Herrstellung und Prüfung von Wertdokumenten
EP1832910A2 (fr) * 2006-03-08 2007-09-12 Kabushi Kaisha Toshiba Dispositif d'illumination de fibre optique et appareil d'inspection pour hologrammes
EP2911379A1 (fr) * 2012-10-18 2015-08-26 Mitsubishi Electric Corporation Capteur d'image et dispositif capteur d'image

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE102009042383A1 (de) * 2009-09-21 2011-03-24 Giesecke & Devrient Gmbh Vorrichtung für die Annahme von Schecks

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE102005032704A1 (de) * 2005-07-13 2007-01-25 Giesecke & Devrient Gmbh Wertdokumente, Herrstellung und Prüfung von Wertdokumenten
EP1832910A2 (fr) * 2006-03-08 2007-09-12 Kabushi Kaisha Toshiba Dispositif d'illumination de fibre optique et appareil d'inspection pour hologrammes
EP2911379A1 (fr) * 2012-10-18 2015-08-26 Mitsubishi Electric Corporation Capteur d'image et dispositif capteur d'image

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