RU4390U1 - INFORMATION MEDIA FOR PROTECTIVE IMAGES - Google Patents

Abstract

1. The information carrier for protective images, containing elements for image formation, configured to decompose the incident light flux into spectral components, each of which consists of at least two cells of a different color to form a given color background of the information carrier, marked with labels masking for image formation, characterized in that the masking marks have geometric dimensions, depending on the optical density of the first image, and placed deviation of the optical center relative to the corresponding elements in the human eye within a predetermined background color on said elements and to generate the second security image tsvetnosti.2 predetermined. The storage medium according to claim 1, characterized in that the image forming elements are made in the form of cells of diffraction gratings. The storage medium according to claim 1, characterized in that the elements for image formation are made in the form of a thin-film structure. The storage medium according to claim 1, characterized in that the elements for determining the image are located on the storage medium at different distances of the optical centers from each other according to a certain law. The storage medium according to claim 1, characterized in that the elements for forming the image are located on the storage medium with different cell orientations, changing according to a certain law. The storage medium according to claim 1, characterized in that the masking marks are rejected relative to the optical center of the corresponding elements to form an image

Description

This device relates to the production of protective images on any information medium, including for use in the manufacture of identity cards, passports, securities, shares, etc. The device can find application in the manufacture of images on any medium, not excluding money and documents.

Known means of manufacturing images using diffraction gratings (1,2,3,4), containing storage media (stencils) on which are applied diffraction gratings with cells. The image is formed by changing the structure or parameters of the cell elements depending on the applied image.

The closest in technical essence to this medium is an information medium containing image forming elements configured to decompose the incident light flux into spectral components, each of which consists of at least two cells of a different color to form a given color information medium, with masking marks applied to them to form images (5).

The known information carrier has a white background in the form of a plate, with a field of cells of diffraction gratings deposited on it, each of which consists of triads of primary colors, on which marks are applied to form the image.

The plate is obtained using computer-generated masks and the technique of interferometric recording in the form of a photosensitized medium containing regular systems (field) of diffraction gratings. The resulting plate is called a white grating photographic stencil. Then reflective and / or transmissive copies of this photographic template are obtained. To copy (or manufacture) each image, one of the obtained copies of the stencil is selectively masked, in which only certain lattices or their sections remain. Masking carried out using a photographic or xerographic device.

The disadvantage of the prototype is the limitations of its use in the manufacture of images with a high degree of protection, since the storage medium has one (may be a color) image.

The technical result of the claimed information carrier is to expand the scope of the claimed proposal for the production of protective images on documents, securities, not excluding money, with various security features.

The technical result is achieved in that in the information carrier for protective images containing image forming elements configured to decompose the incident light flux into spectral components, each of which consists of at least two cells of a different color to form a given color background of the carrier information with masking marks applied to them for image formation, the labels have a value depending on the optical density of the first image and are placed off neniem relative to the optical center to respective image forming elements located within the human eye predetermined background color on said elements to generate a second Iyubrpzhonil predetermined chromaticity.

Elements for image formation are made in the form of cells of diffraction gratings.

Elements for image formation are located on the information carrier at different distances of the optical centers from each other according to a certain law.

Elements for image formation are located on the storage medium with different cell orientations, which varies according to a certain law.

Labeling labels are rejected relative to the optical center of the respective elements for image formation in predetermined directions and at a given distance.

Masking marks are applied to the corresponding elements to form with the possibility of their destruction at the place of application, for example, by burning.

The image forming element is made in the form of three rhombuses adjacent to each other.

The proposal is illustrated by drawings.

Figure 1 shows a fragment of a storage medium containing elements for forming images of cells of different colors.

Figure 2 presents a possible embodiment of a device for manufacturing a storage medium for a given image.

The information carrier 1 contains elements 2 for image formation, each of which is configured to decompose the incident light flux into spectral components. It can be diffraction gratings, etc. Each element 2 consists, for example, of three cells of a different color.

Cell 3-red, cell 4-green, cell 5-blue. The color of the cells determines the background of the storage medium. It can be white if cells 3,4 and 5 as indicated above are red, green and blue. In the event of a change in the number and color of cells in each element 2, the background of the medium may be of a different color. Masking marks b are applied to the corresponding element 2 in the corresponding zone to form an image.

The size of the masking mark b is selected in accordance with the optical density of the corresponding portion of the first (e.g., black) image.

The location (deviation) of this mark relative to the optical center of the element is chosen in accordance with the color of the second (color) image, but with the condition that the human eye does not destroy the initial color background on these elements when viewing the image at right angles and with the possibility of forming a second protected images of a given color.

In FIG. 2 shows a possible embodiment of a device for applying protective images to a storage medium made in accordance with this proposal.

The device comprises a modulated measurement laser 7, a program unit 8 for controlling laser scanning, a calculator 9 for determining the deviation of the applied masking mask b and its geometric size when forming the contours of the protective images.

The laser scanning zone 10 is selected taking into account the size of the information carrier, the size of the elements 2 for image formation, the size of the cells of its components and the location of the cells relative to each other, which form the optical centers of each element.

Before applying the image to the storage medium, the program unit sets the laser beam to its initial position and sets the scanning path and radiation intensity of the laser 7. After that, the program unit 8, by the signal from the calculator 9 or by the program embedded in it, generates a reference signal corresponding to the size of the masking mask (its geometric dimensions and shape), which depends on the optical density of the first protective image and sets the signal for the deviation of the applied masking marks from the optical ntra of the corresponding element 2 for forming images to form a second protective image of a given color.

Moreover, since the deviation of the masking mark 6 from the optical center of the corresponding elements 2 for image formation is within the range of perception by the human eye of a given colored background on these elements, then if the cells have primary colors (red, green, blue), the eye will see black and white white image. Moreover, when observing the information carrier at a right angle to the eye surface, it will see the formed image in black and white, but due to the displacement of the mark relative to the optical center when observing the information carrier from a different angle of view, the eye will see a protective image with a changed color depending on the direction of deviation marks relative to the optical center towards one or another cell (or its complete overlap).

This property can be used by shifting the masking points in one area to the side, for example, green, in the other zone to the side, such as red, thereby forming various color contours of the image along the field of the information carrier.

Documents equipped with storage media made in this way have high protective quality due to the difficulty of falsification.

In addition, in the manufacture of the stencil, a variable distance between the optical centers of the cells, which varies according to a certain law, can be laid down, which will further complicate the unauthorized use of the stencil even if the attacker has the described information carrier and device.

In addition, in the manufacture of images, changing the color orientation of cells in the forming elements according to a given law, you can change both the background and the image, which makes it extremely difficult to fake documents.

Means for controlling this protective sign made by means of a laser are widely known (b), at the same time, the authenticity of such documents can be visually verified, i.e. publicly available.

(about

3. US patent N 4155627, G02B 5/18, 1979. 4 EP, N 513755, G02B 5/18, 1992.

5.EP, N 240262, G02B 5/18, 1987 (prototype).

6.US, N 4568141, G02B 5/18, 1986.

Claims (8)

1. The information carrier for protective images, containing elements for image formation, configured to decompose the incident light flux into spectral components, each of which consists of at least two cells of a different color to form a given color background of the information carrier, marked with labels masking for image formation, characterized in that the masking marks have geometric dimensions, depending on the optical density of the first image, and placed deviation of the optical center relative to the corresponding elements in the human eye within a predetermined background color on said elements and to generate the second security image predetermined chromaticity.  2. The storage medium according to claim 1, characterized in that the image forming elements are made in the form of cells of diffraction gratings.  3. The storage medium according to claim 1, characterized in that the elements for forming an image are made in the form of a thin-film structure.  4. The storage medium according to claim 1, characterized in that the elements for determining the image are located on the storage medium at different distances of the optical centers from each other according to a certain law.  5. The storage medium according to claim 1, characterized in that the elements for forming the image are located on the storage medium with different cell orientations, changing according to a certain law.  6. The storage medium according to claim 1, characterized in that the masking marks are rejected relative to the optical center of the respective elements for image formation in predetermined directions and at a given distance.  7. The storage medium according to claim 1, characterized in that the masking marks are applied to the corresponding elements to form the image with the possibility of their destruction at the place of application, for example, by burning. 8. The storage medium according to claims 1 and 4, characterized in that the image forming element is made in the form of three rhombuses adjacent to each other.