RU2165360C1 - Method for identification of authenticity of objects - Google Patents

Abstract

FIELD: identification of securities, documents, banknotes, works of art and subjects of industrial production. SUBSTANCE: protective marking is formed of a successively positioned transparent flexible backing, transparent thermovarnish layer, metallized reflecting layer and a layer of thermosetting adhesive, a relief-phase hologram with visible and laser latent images is recorded in the transparent thermovarnish layer by the method of hot stamping, the visible image is reproduced at illumination of the hologram by white light, and the laser latent image- at illumination of the hologram by laser coherent light, a layer of polarization light-sensitive material is introduced in the protective mark, a polarization - code element is installed before the protective mark, this element is illuminated by blue-coherent light, and a latent polarization image is recorded in the layer of polarization light- sensitive material, a polarizer is installed on the protective mark, illuminated by white light and a latent polarization image is reproduced. EFFECT: expanded process abilities by enhancing the degree of protection of objects of various nature against forgery. 7 cl, 6 dwg

Description

 The invention relates to the field of problems associated with the identification of securities, documents, banknotes, works of art and industrial objects.

 There is a method of marking objects in which to reproduce a three-dimensional image on a photosensitive substrate, a region with changed energy properties is formed and the rays of a coherent radiation source are recorded (see, for example, the description of the invention according to French application N 2588509, class B 41 M 5/26, publ. . 1987).

 The disadvantage of this method is the deformation of the structure of the material being labeled due to the introduction of a special substance, which is unacceptable for the identification of works of art and other valuable objects.

 There is a method of marking objects, which consists in local irradiation of the surface of objects with a source of coherent radiation, coding of the applied marking marks and registration of encoded characters on the surface of objects with coherent radiation (see, for example, the description of the invention to the patent of the Russian Federation N 2065819, class B 41 M 5 / 26, publ. 1996).

 The disadvantage of this method is the limited scope of coding, due to the possibility of coding only objects of solid shape and surface.

 The closest known for its technical essence and the achieved result is the selected as a prototype method of authentication of objects by forming a security tag placed on the outer surface of the certified object, in which the security tag is formed from sequentially arranged transparent flexible substrate, a transparent thermal varnish layer, metallized reflective layer and layer of hot-melt adhesive, recording in a transparent thermo-varnish layer by hot stamping of the relief phase g lograms with visible and laser latent images, reproducing the visible image when illuminating the hologram with white light and laser latent image when illuminating the hologram with laser coherent light (see, for example, the description of the invention to RF application N 95117875, class B 42 D 15/00, 1997 g.).

 The disadvantages of this method include the rather complicated implementation of the protective label and the low technological quality of its manufacture.

 The technical result to which the invention is directed is the expansion of technological capabilities by increasing the degree of protection against falsification of objects of various nature.

 The technical result is achieved by the fact that in the method of authenticating objects by forming a security mark placed on the outer surface of the certified object, in which the security mark is formed from sequentially arranged transparent flexible substrate, a transparent thermo-varnish layer, a metallized reflective layer and a layer of hot-melt adhesive, recording in a transparent thermo-varnish layer by hot stamping of a relief phase hologram with visible and laser latent images, reproducing the visible from reflections when illuminating a hologram with white light and a laser latent image when illuminating a hologram with laser coherent light, a layer of polarizing photosensitive material is introduced into the protective mark, a polarization-coding element is installed in front of the protective mark, which is illuminated with a blue-green light and the hidden polarization is recorded in the layer of polarizing photosensitive material image, set the polarizer on the protective label, illuminate with white light and reproduce the hidden polarization e image, a layer of polarizing photosensitive material is placed on the outer surface of the transparent "flexible substrate made of optically transparent material.

 Moreover, a layer of polarizing photosensitive material is placed between a transparent flexible substrate and a transparent thermo-lacquer layer, the transparent flexible substrate being made of a material that does not affect the state of polarization of light, the polarization-coding element is made of sequentially arranged polarizer and photo template with a recorded image, the polarization-coding element is made from sequentially arranged polarizer, micro lens for light input, multimode optical fiber an additional polarizer; the polarization coding element is made of sequentially arranged polarizer, fiber optic washer and additional polarizer; the polarizing photosensitive material is made of a photopolymer having the ability of photostimulated anisotropy, which manifests itself in the form of photo-induced birefringence of light.

 In FIG. 1 shows the structure of a security label with a illuminator and a polarization coding element deposited on an authenticated item; FIG. 2 shows an embodiment of the structure of the security label; FIG. 3 to 5 are variants of the structural embodiment of the polarization-coding element and registration of the latent polarization image, in FIG. 6 is an optical observation scheme of a latent polarization image.

 The method of authentication of items is as follows.

 A protective mark 2 is formed on the outer surface of the certified item 1, for example, a document, banknote, etc., which consists of a sequentially arranged transparent flexible substrate 3, a transparent thermo-varnish layer 4, a metallized reflective layer 5 and a layer of hot-melt adhesive 6. In a transparent thermo-varnish layer 4 by hot stamping, a relief phase hologram is recorded with visible and laser latent images (Fig. 1).

 In addition, a layer of polarizing photosensitive material 7 is introduced into the protective label, and a polarizing coding element 9 is installed in front of the protective label, which is illuminated with a blue-green light using illuminator 8 and a hidden polarizing image is recorded in the layer of polarizing photosensitive material (Fig. 1, 2) . Next, a polarizer is mounted on the protective label and illuminated with white light, followed by reproduction of the latent polarization image (Fig. 6).

 In addition, a layer of polarizing photosensitive material can be located on the outer surface of a transparent flexible substrate, which can be made of an optically transparent material, for example a transparent lavsan (Fig. 2).

 In an embodiment of the proposed method, a layer of polarized photosensitive material having photostimulated anisotropy, which manifests itself in the form of a photoinduced birefringence of light, can be located between a transparent thermo-lacquer layer and a transparent flexible substrate, which should be made of a material that does not affect the state of polarized light used for recording, for example, a triacetate film (FIG. 1).

 When recording a latent polarization image, the polarization-coding element 9 is illuminated with a blue-green light from a illuminator 8, consisting of a sequentially located light source 10, an optical condenser 11 and a blue-green filter 12.

 In addition to the above, it can be noted that the polarization-encoding element 9 can be made of sequentially arranged polarizer 13 and a photomask 14 with a recorded image (Fig. 3) or of sequentially arranged polarizer 15, micro-lens 16 for light input, multimode optical fiber 17, additional the polarizer 18 and the intermediate photomask 19 (Fig. 4).

 As an embodiment of the method, it is possible to carry out a polarization coding element from sequentially arranged polarizer 20, fiber optic washer 21 and additional polarizer 22.

 The optical observation scheme of the latent polarization image (Fig. 6) includes a white light source 24, a polarizer 23 superimposed on the protective mark 2. Visual observation of the latent polarization image by the operator is superimposed by applying the polarizer 23 on the protective mark 2, and when the polarizer is rotated in the plane of the protective mark individual elements of a latent polarizing image can be reproduced in dynamics. The polarizer 23 can be made in the form of traditional optical polarization elements, such as polaroid, prism, etc., or in the form of an electrically controlled liquid crystal layer.

 When illuminating a hologram, two holographic images can be observed: the first image — when illuminated with white light from an external source, the “rainbow” image reconstructed from the hologram; the second image is a visualized hidden laser image (for example, in the form of a code mark, word, letters, as well as a code combination of light points, etc.), invisible to the eye when illuminated with white light, but visible on the hologram identifier screen when the hologram is illuminated with laser monochromatic light.

 Thus, using the proposed method from a security label, in addition to two holographic images, it is additionally possible to observe latent polarization images.

 This proposal can be successfully used in all sectors of the economy where it is necessary to solve the problem of protecting the object from forgery or controlling unauthorized copying and access.

 In addition, there is an improvement in operational characteristics due to the simplified reproduction process and latent polarization image, which does not require special devices and power sources.

Claims (7)

 1. The method of authentication of objects by forming a protective mark placed on the outer surface of the certified object, in which the protective mark is formed from sequentially arranged transparent flexible substrate, a transparent thermo-varnish layer, a metallized reflective layer and a layer of hot-melt adhesive, recording in a transparent thermo-varnish layer by hot stamping is embossed -phase holograms with visible and laser latent images, reproducing the visible image when the hologram is illuminated with white light volume and laser latent image when illuminating the hologram with laser coherent light, characterized in that a layer of polarizing photosensitive material is introduced into the protective mark, a polarization-coding element is placed in front of the protective mark, which is illuminated with a blue-green light, and hidden polarizing is recorded in the layer of polarizing photosensitive material image, set the polarizer on the protective label, illuminate with white light, and reproduce the latent polarization image.  2. The method of authentication of items according to claim 1, characterized in that the layer of polarizing photosensitive material is placed on the outer surface of a transparent flexible substrate made of optically transparent material.  3. The method of authentication of objects according to claim 1, characterized in that the layer of polarizing photosensitive material is placed between a transparent flexible substrate and a transparent thermo-varnish layer, and a transparent flexible substrate is made of a material that does not affect the state of polarization of light.  4. The method of authentication of items according to claim 1, characterized in that the polarization-encoding element is made of sequentially arranged polarizer and a photomask with a recorded image.  5. The method of authentication of items according to claim 1, characterized in that the polarization coding element is made of sequentially arranged polarizer, a micro lens for light input, a multimode optical fiber and an additional polarizer.  6. The method of authentication of items according to claim 1, characterized in that the polarization coding element is made of sequentially arranged polarizer, fiber optic washer and additional polarizer.  7. The method of authenticating objects according to claim 1, characterized in that the polarizing photosensitive material is made of a photopolymer having the ability of photostimulated anisotropy, which manifests itself in the form of photo-induced birefringence of light.

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