RU2079166C1 - Information carrier - Google Patents

Abstract

FIELD: identification or credit cards or other documents which require authentication. SUBSTANCE: device has at least two layers which are connected to each other. One layer is made from opaque material, another one is made from transparent or reflecting material. Reflecting day-light hologram is generated in layer of opaque material and covers all area of information carrier. Picture which is used for authentication of information carrier is viewed at angle of less than 45 degrees with respect to plane of information carrier. Stored information picture may contain text and graphical images which are generated by removal of material from parts of opaque layer by means of laser engraving. EFFECT: increased reliability. 2 dwg

Description

 The invention relates to information carriers in which records of various types are used, moreover, one type of recording, in particular holograms, is intended to identify the authenticity of the medium. The invention can be used to identify, for example, identification or credit cards, as well as any other documents, the use of which requires confirmation of their authenticity.

There are various ways of protecting documents from counterfeiting, for example, the source [1] describes an information carrier (identification card) containing several layers, one of the inner layers being made of refractory metal, for example, nichrome. At the stage of manufacturing the card form, a predetermined degree of adhesion of the metal layer to adjacent, transparent,
layers, which allows you to create images on a metal layer by processing it with a high-intensity radiation beam. The card contains layers that act as protective coatings, substrates, and the card may also contain additional layers with holograms or diffraction gratings. Obviously, the manufacture of an image on the inner layer of refractory metal is impossible without the use of complex and expensive technological equipment. This reduces the efficiency of entering the necessary information into the cards, and also makes their production and use costly.

 Closest to the proposed invention is a system for identifying the authenticity of information carriers such as credit cards [2] Each card has an identification zone, where either a hologram or a diffraction grating is located. Identification of cards can be performed by placing one or more receivers of optical radiation in places of propagation of reflected light. To increase the reliability of identification, it is possible to use several holograms or diffraction gratings. A significant drawback of this information carrier is the possibility of transferring a hologram or diffraction grating from a genuine credit card to a fake one, which reduces the effectiveness of the considered method of protecting documents from forgery. Another disadvantage of this system is the limited scope of its application, since the identification involves the use of special equipment. Therefore, such a system would be inconvenient, for example, for online authentication of identity cards. In addition, due to the presence of an identification zone on the information carrier, its usable area is reduced and, thus, the opportunity to place additional information about its owner is lost.

 The alleged invention is aimed at increasing the degree of protection of information carriers from counterfeiting while reducing cost and increasing productivity from manufacturing, as well as increasing the efficiency of recording the necessary information on them.

This goal is achieved in that the storage medium contains at least two layers connected to each other, one of which is made of opaque material, and the other of transparent or light-reflecting material, a reflective hologram is created on a layer of opaque material over the entire area of the information carrier, restored in white light, which, when illuminated, restores the image identifying the authenticity of the information carrier, the image observed in the direction constituting the information carrier with the plane angle of not more than 45 ^o , placed on the information carrier has the form of text and graphic images formed by removing material in certain areas of the information carrier from an opaque layer to the entire depth of this layer using the laser engraving method.

 In FIG. 1 shows the relative position of the observer and the media when viewing information; in FIG. 2 mutual arrangement of the observer and the information carrier during authentication of the latter.

 The positions in the figures indicate: 1-information carrier; 2 layer with a reflective hologram of opaque material; 3 layer of transparent or light-reflecting material; 4 protective layer; 5 observer; 6 - image restored by a hologram.

 The storage medium 1 (Fig. 1) has a multilayer structure and contains at least one layer 2 of opaque material and a layer 3 connected to it of a material transparent or reflecting light. As a material for layer 2, a composite material based on a polymer resin can be selected, which makes it possible to create a hologram on this layer over the entire area of the information carrier using existing technologies for stamping copies (replicas) from metal originals of holograms.

 As layers 3 and 4, a polymeric film of lavsan or cellulose acetate can be used.

 The connection of the layers is carried out, for example, using heat-resistant adhesive based on polyvinyl chloride, which provides reliable adhesion of the layers.

 The reflective hologram created on layer 2 is designed to verify the authenticity of the information carrier and is the degree of protection of documents from counterfeiting. As an example of the hologram in FIG. 2 shows the "grid" from the abbreviations "RF". In order to forge the form of the proposed information carrier, it is necessary to completely repeat the technological process of manufacturing the metal original of the hologram and receiving copies (replicas) from it. However, even a repetition of this process will not allow to produce the original hologram identical to the original hologram of the true information carrier. In addition, for the implementation of this process, special expensive equipment is necessary, so the fake of information carriers, over the entire area of which a hologram has been created, becomes ineffective.

 The information is placed on the information carrier 1 in the form of text, drawings, photographs and other images (Fig. 1), which are formed by removing sections of the material from the opaque layer 2 to its entire depth. To remove material to the entire depth of layer 2, a laser engraving method is used. The achieved level of technology allows, when implementing this method, to process the material with a laser beam having a diameter of 20-25 microns, which allows to obtain high-quality contrast images of letters, numbers, other characters, as well as grayscale images, for example, photographs.

 The manufacturing quality of text and graphic images, as well as the availability of grayscale images are an additional degree of protection of the information carrier, since fake images with the same quality as on a genuine information carrier is possible only when using the laser engraving method, which requires special equipment.

 An important feature of the proposed information carrier is that the information-carrying images are formed by removing material from the layer on which the hologram is created. With this method of posting information, the efficiency of using a reflective hologram as an element confirming the authenticity of the information carrier is not reduced. The hologram occupies the entire area of the information carrier and, as is known, has the important property of restoring the wave front in its part, therefore, the use of sections of its area to place various images does not prevent the formation of a hologram of an image identifying the authenticity of the information carrier.

When recording the original hologram, the object beam must be directed relative to the photographic plate so that its propagation direction makes an angle of not more than 45 ^o with the plane of the photographic plate. In this case, the wavefront reconstructed by illumination of the holograms will have a propagation direction that also comprises an angle of not more than 45 ^o with the hologram plane. Thus, the restored hologram image can be observed only by expanding the information carrier with respect to the direction of observation at an angle of more than 45 ^o (Fig. 2). Therefore, when the information carrier addresses the observer with the front side (Fig. 1), he does not see the image restored by the reflective hologram, and you can read the information contained on the medium in the form of text, graphic and other images without interference. At the same time, to verify the authenticity of the information carrier, it is enough to simply rotate it at an angle of more than 45 ^o to make sure that the corresponding holographic image exists.

 The proposed storage medium has a higher level of security against counterfeiting compared to the prototype, which is ensured by the presence of a layer with a reflective hologram, which occupies the entire area of the storage medium. It was indicated above that the forgery of such an emergency carrier is complex and ineffective.

 Another advantage of the proposed storage medium is the ability to verify its authenticity without the use of any special equipment. Simply tilt the media and verify that you have the correct holographic image.

An additional degree of media protection against counterfeiting is the quality of contrast and grayscale images, which can only be obtained using a laser engraving device. The use of laser engravers ensures the speed of recording relevant information on the media, since the achieved technical level of these devices allows you to perform the recording procedure of images of any complexity with high speed. For example, the time of recording images on a storage medium of dimensions 8x10 cm ² on a laser engraver LaserGraver 1000, manufactured by SPC "Alpha" (Moscow, Russia), is 1 min.

 It should also be noted that the design of the proposed storage medium is simple, therefore, blank forms have low cost, and their manufacture does not meet technological difficulties.

Claims (1)

An information carrier containing a hologram, characterized in that it contains at least two layers connected to each other, one of which is made of opaque material, and the other of transparent or light-reflecting material, on a layer of opaque material over the entire area of the information carrier a reflective hologram reconstructed in white light, which, when illuminated, restores the identifying authenticity of the information carrier, the image observed in the direction constituting the plane carries When collecting information, the angle is not more than 45 ^o , the information placed on the medium has the form of text and graphic images, formed by removing material in certain areas of the information medium from an opaque layer to the entire depth of this layer using a laser engraving method.

Images