DE102004021396A1 - Authentication system and marking of value or security documents - Google Patents

Abstract

The invention relates to a system for checking the authenticity and for marking value or security documents, wherein the security document contains at least one security feature and is mounted on a carrier which is moved by means of a transport system relative to a Verificationssensor. The security feature comprises at least one marking feature, wherein in the event that the verification sensor recognizes the authenticity of the security feature, this gives a signal for marking cancellation to a marking system, whereby the marking feature undergoes a visually recognizable and physically detectable, irreversible change.

Description

The The invention relates to a system for authenticating and marking Value or security documents with the features of the claim 1.

In Logistical applications such as in the mail with freight or letters, in which the franking takes place by means of affixed stamps, it is claimed that the stamp should be used as a security and value document irreversibly marked after completed service and thus is invalidated. This validation should be machine readable its an attempt to reuse the stamp and one to get a new transport service that is unpaid, automatically detected and prevented.

specially in large letters are the dimensions in length width and height the letter very different. Position and orientation of often several Stamps is not fixed. In automatic letter sorting systems have to Therefore, the various reading, testing, marking and control operations over one relatively large uneven working distance can be realized. Relevant plants usually use Laser-based measurement and processing methods with which the different reading distances overcome and at the same time the required processing speeds can be achieved up to typically 4 m / sec.

stamps exist conventionally from a paper or plastic substrate with a back side Adhesive coating and a graphically high-quality designed front. This front also has security features that are machine-made Authenticity verification (verification) be used.

The Cancellation of stamps is conventionally done by stamping. In the same way, the validation of documents, passes and the like, which also belongs to the present problem area. inks for the Need to stamp color as possible lightfast and no longer removable from the document of value. More recently Be the one for this used inks in addition nor safety-relevant additives, such as fluorescent substances or biochemical Added substances. Although these security inks provide a high level of counterfeit protection which stamps can but only with optical image recognition and on the respective Safety-oriented special sensor technology verified be, with manipulations and fakes only very limited can be recognized.

With The invention therefore provides a verification and validation system with a high degree of automation proposed, that against counterfeiting and tampering provides adequate protection.

The inventive system for authentication and for marking value or security documents, value or security documents that are at least one security feature and a marker feature. The value or security document is on a carrier, For example, a mailing or a document attached by means of a transport system moves relative to a Verificationssensor which checks the authenticity of the security feature and, in the case of the Authenticity is detected, a signal for marking devaluation a marking system, whereby the marking feature a Visually detectable and physically detectable irreversible change experiences.

The System thus includes materials for value and security documents, by means of excitation sources, for example. Laser sources, in a sensor for authentication and Marked, contactless irreversible change. The changes exist both in one for that human eye visible information as well as in physical detectable properties of the marking feature.

The Marking and validation is preferably by means of electromagnetic Irradiation, especially in the wavelength range from 200 nm to 1500 nm, with the irreversible change in a color change and in a change the electrical conductivity consists. Suitable marking features are based on of poly (organylheteroacetylene) or based on a mixture made of poly (organylheteroacetylene) with other polymers.

Preferably Verification sensor and marking system form one and the same Device or one and the same unit. This results in advantages in terms the construction costs.

A consist of further advantageous embodiments in that the marking feature is based on microencapsulated Pigments in a polymer matrix with near-infrared (NIR) -sensitive and irreversibly changeable Color and / or conductivity properties or that bacteriorhodopsin-mediating changes ph value or a combination of irreversible NIR-active photochromes Substances with an electrical conductivity and / or magnetic Properties changing Substance.

Preferably the tag is graphical at the value or security document designed so that the visually recognizable and physically detectable change is limited to local areas of the document, in particular that the marker at the edge of a closed frame makes the value or security document. This can be also visually at a glance to determine if the devaluation is done properly is.

For attaching of the marking feature on the value or security document arise a number of embodiments: So can over the Marking feature even more, at least half translucent and transparent, in particular NIR-transparent printed layers arranged be, or it may be the mark of value or security document be integrated into a bottom-side adhesive coating, the Value or security document must be designed so that a Color change from the top is clearly noticeable.

The Marking feature can be advantageously on the surface of the value or security document entire area by means of suitable coating techniques, in particular by brushing Apply or include in a reporting graph. As printing techniques can Offset, Letterset, Flexo, screen printing, intaglio, gravure printing, Inkjet us. be applied.

A especially forgery-proof and well detectable development of the invention is that the marking feature is designed as a circular path, which forms an induction loop after NIR irradiation.

In the system according to the invention For example, the security feature is preferably based on a light-stable luminescent phosphor formed of a printing ink for the graphic design of the value or security document and by means of the verification sensor is detectable, wherein the luminescent phosphor formed from an anti-Stokes phosphor is, which can be excited by means of NIR radiation, and whose Emission bands in the visible and / or NIR wavelength range intensity and / or time-resolved used for authenticity verification become.

With Advantage can in the system according to the invention a line-shaped verification system on the basis of a sensor IC row or a row arrangement of laser diodes according to the same time filed invention B81941DE, to which reference is expressly made, be used.

The Marking system of the validation and verification system according to the invention preferably comprises a line-shaped arranged NIR light source the electromagnetic radiation in the wavelength range of about 200 nm radiates to about 1400 nm. The marking system can look like this one or more rows of NIR LEDs or NIR laser diodes.

advantageously, includes the system except the verification sensor and the marking system a control sensor, with which the visually detectable and physically detectable change is checked. This can be directly followed by the mark, but also in a separate test procedure respectively. The control sensor preferably contains one Color sensor, the optical change of the marking feature and a sensor for checking the physical change the marking feature, in particular a sensor for checking the electrical conductivity the marking feature, preferably a sensor, the one or several inductive loops are metrologically evaluated.

The inventive system for authentication and for marking value or security documents refers preferably on franked letters, in particular wholesale or Maxibriefe, whereby the document of value consists of a stamp, which automatically checks for presence and authenticity and then irreversibly is devalued. The security feature substance can be in the printing ink A graphically designed token may or may not be included full print, or between individual prints, locally (piecemeal) or bordering.

Further Features and advantages of the invention will become apparent from the following Description of an embodiment.

It demonstrate:

1 a device according to the invention for the verification, marking and control of value and security documents according to a first embodiment;

2 a further embodiment of the device according to the invention; and

3 : the carrier with the value document in top view.

In 1 An embodiment of the device for verification, marking and control of value or security documents is schematic shown. The one on a conveyor belt 6 an automatic letter sorting system lying carrier 3 , a letter, letter or maxi letter is with a value document 2 provided in the form of a stamp, which is a security feature 4 and a marker 5 contains. With the conveyor belt 6 becomes the carrier 3 under a line-shaped verification sensor 7 , a line-shaped marking system 8th and optionally under a control sensor 9 moved through. The speed can be up to 4 m / sec and above.

The verification sensor 7 Check if on the value document 2 the security feature 4 is available. He also determines the number of the conveyor belt 6 delivered value documents 2 and their positioning on the carrier 3 , This information is sent to a master computer and from there or directly, in the form of a control signal to the marking system 8th passed.

The marking system 8th is activated by the control signal for a short time in the area of the value documents. This causes an irreversible color change and the increase of the conductivity in the marking feature 5 , The marking system 8th is preferably line-shaped as a bar and designed for rapid switching on and off. The latter arises not only from the point of view of energy consumption but also for safety considerations, so that in case of congestion of carriers their damage and possibly a fire can be avoided. The marking system 8th therefore includes NIR LED arrays or laser diodes because they can be operated with extremely short pulses. The arrow indicates the transport direction.

In 2 an embodiment is shown that according to 1 is similar, with the difference that the marking unit is omitted. The laser beam of the verification unit 7 provokes both luminescence and photochemically induced label transformation 5 , The prerequisite for this is: The time constant of the verification / luminescence (eg a few μs) is smaller by orders of magnitude than the time constant of the photochemical reaction (eg a few ms). The arrow indicates the transport direction.

3 shows the conveyor belt 6 in plan view, with the carrier 3 in the form of a Maxibrief, on the not exactly predetermined place a stamp 2 is applied. The stamp contains a security feature 4 , which is graphically contained in the outline of a house, as well as a marker feature 5 , which is shown as an outer closed frame. The verification sensor 7 must be able to detect very quickly the security feature contained with a very low degree of filling in the ink of the contour ("house"), because immediately afterwards the marking system 8th requires a release signal to trigger the marking and invalidating process.

In principle, the arrangement can also be designed such that between verification sensor 7 and marking system 8th a turnout is set up for rejected porters and the marking system 8th is activated automatically during a sensory recognition of a value document.

to increase the marking speed and / or the reduction of the required electromagnetic radiation can be inside or below the Characteristic of a low heat absorbent Layer, in particular based on aluminum coated Mica flakes to be built in. in principle can all for it for the Laser marking at 1064 nm usual Initiators are used in a polymeric matrix. frequently become mica platelets with an NIR absorber in these systems and a polymer encapsulation in a correspondingly higher melting point Polymer matrix used.

While marking features on the basis of a color change system with simultaneous increase of conductivity need a few hundred degrees Celsius, when applied with an ND: YAG laser beam inside of the (encapsulated) mica flake to about 1500 ° C reached. The heat capacity is however very low. The encapsulation will be in this process. carbonized, where Even very fine structures can be generated. For the present applications in marker features such mica platelets in suitable size and with suitable degree of filling for the efficient implementation of electromagnetic radiation (NIR radiation) used in thermal energy.

To make the mark visually clear, the marking feature is preferably on certain local areas of the value document, for example on the in 2 limited limits. The condition of the cancellation can then be determined with a brief inspection. However, the marking can also be integrated in other graphic elements or in a rapporting printed image. On the other hand, the marking can also be applied over the entire surface of the document substrate with suitable coating methods, such as brushing or painting, whereby this process can take place both before and after the graphic design of the stamp. It is also possible to integrate the marking back into the adhesive layer, wherein the front of the stamp is graphically designed so that after the devaluation a correspondingly clear color change from the front can be seen.

Claims (22)

Authentication system and marking of value or security documents ( 2 ), whereby the value or security document ( 2 ) at least one security feature ( 4 ) and on a support ( 3 ) mounted by means of a transport system ( 6 ) relative to a verification sensor ( 7 ), the security feature ( 4 ) at least one marking feature ( 5 ) and wherein, in the event that the verification sensor ( 7 ) the authenticity of the security feature ( 4 ) recognizes it, a signal for marking devaluation to a marking system ( 8th ), whereby the marking feature ( 5 ) experiences a visually detectable and physically detectable irreversible change. The system of claim 1, wherein the visually recognizable and physically detectable change due to an electromagnetic radiation, in particular in the wavelength range from 200 nm to 1500 nm. A system according to claim 1 or 2, wherein visually recognizable and physically detectable change in a color change and in a change the electrical conductivity consists. System according to one of claims 1 to 3, wherein the marking feature ( 5 ) is formed on the basis of poly-organylheteroacetylene or based on a mixture of poly-organylheteroacetylene with other polymers. A system according to any one of claims 1 to 4, wherein the verification sensor 7 and the marking system 8th form one and the same unit. System according to one of claims 1 to 3, wherein the marking feature ( 5 ) is formed on the basis of microencapsulated pigments in a polymer matrix with NIR-sensitive and irreversibly changeable color and / or conductivity properties. System according to one of claims 1 to 6, wherein the marking feature ( 5 ) at the value or security document ( 2 ) is graphically designed so that the visually detectable and physically detectable change is limited to local areas of the document, in particular that the marking feature ( 5 ) forms a closed border around the value or security document. System according to one of claims 1 to 7, wherein the marking feature ( 5 ) at the value or security document ( 2 ) is designed such that above the marking feature ( 5 ) are arranged even more, at least semi-translucent and NIR-transparent printed layers. System according to one of claims 1 to 8, wherein the marking feature ( 5 ) at the value or security document ( 2 ) is integrated in a lower-side adhesive coating and the value or security document ( 2 ) is formed so that a color change is visible from the top. System according to one of claims 1 to 8, wherein the marking feature ( 5 ) is coated on the surface of the security or value document over the entire surface by brushing. System according to one of claims 1 to 8, wherein the marking feature ( 5 ) is formed in rapportierender graphical representation. System according to one of claims 1 to 9, wherein the marking feature ( 5 ) is formed as a circular path, which forms an induction loop after NIR irradiation. A system according to any one of claims 1 to 12, wherein the security feature ( 4 ) is formed on the basis of a light-resistant luminescent phosphor which is admixable with a printing ink for graphic design of the value or security document and detectable by means of the Verificationssensors. The system of claim 13, wherein the luminescent phosphor is formed from an anti-Stokes phosphor, which by means of NIR radiation can be stimulated, and its emission bands in the visible and / or NIR wavelength range intensity and / or time-resolved used for authenticity verification become. A system according to any one of claims 1 to 14, wherein a line-shaped verification system on the basis of a sensor IC row or a row arrangement is provided by laser diodes. System according to one of claims 1 to 15, wherein the marking system ( 8th ) comprises a line-shaped NIR light source in the wavelength range from about 200 nm to about 1400 nm. A system according to claim 16, wherein the marking system ( 8th ) consists of one or more rows of NIR LEDs or NIR laser diodes. A system according to any one of claims 1 to 17, wherein a control sensor ( 9 ) is provided, with which the visually recognizable and physically detectable change is verifiable. The system of claim 18, wherein the con trollsensor ( 9 ) contains a color sensor which detects the optical change of the marking feature ( 5 ) and a sensor for checking the physical change of the marking feature ( 5 ). System according to claim 18 or 19, wherein the control sensor ( 9 ) the electrical conductivity of the marking feature ( 5 ) checked. A system according to any one of claims 18 to 20, wherein the control sensor ( 9 ) metrologically evaluates one or more induction loops. System according to one of claims 1 to 21, wherein the carrier ( 3 ) is a letter, in particular large field or maxi letter and the value document ( 2 ) consists of a stamp.