RU2032219C1 - Identification map - Google Patents

Abstract

FIELD: automatics, computer engineering. SUBSTANCE: identification map is meant for storage of digital data registered in holographic form. It has base 1 with window transparent for reading emission and film information medium 3. Medium 3 is manufactured in the form of hologram medium with holes perforated over edges. Base 1 has through channel 2 with flat plugs 4 on edges of pair of holes within limits of window. Dimensions of channel 2 allows medium 3 to be moved within specified limits. Holes made in base 1 match perforated holes of medium but have bigger sizes. EFFECT: increased precision of positioning of holograms, reduced requirements to accuracy of manufacture of holograms and of its elements. 3 cl, 3 dwg

Description

 The invention relates to automation and computer technology and can be used to store digital data recorded in holographic form.

 Known identification card on which data is recorded in the form of holograms [1].

 The disadvantages of such a card are the impossibility of changing the recorded data and the low accuracy of positioning the holograms when reading.

 Closest to the proposed one is an identification card containing a base with a window transparent for reading radiation, and a film-based information carrier located in the base under the window [2]. The window has sticky edges protected by a false removable sheet. One edge of the sheet extends beyond the map, forming a valve. By bending the card, you can easily insert the knife blade to separate the sheet from the card. There is a corresponding device that bends the card when it is moved manually or automatically along a guide equipped with a knife blade. The design of such a card provides the convenience of its use when used to protect information overhead removable sheet.

 However, the designs of known cards do not contain elements that provide high-precision positioning of the medium (≈0.01 mm), which is required if the array (page) of digital information is recorded on the medium in the form of a hologram, and the image restored from the hologram is recorded by a photodetector array. In the designs of these cards, the required accuracy of the positioning of the medium can be achieved by manufacturing and assembling all the elements of the card with an appropriate degree of accuracy, which leads to a complication of the technology of manufacturing cards and an increase in their cost.

 The aim of the invention is to increase the accuracy of positioning of holograms stored on the map, and reduce the requirements for the accuracy of manufacturing the map and all elements of its design.

 For this purpose, in a card containing a base with a window transparent for reading radiation and a film-based information carrier located in the base under the window, the latter is made in the form of a hologram carrier with perforations at opposite edges, a through channel with removable flat ones is made inside the base between its opposite side edges plugs at the ends, the width of which by a specified amount of tolerance exceeds the width of the hologram carrier, a pair of holes are made in the base window, the dimensions of which exceed the dimensions of the perfoot the holes of the hologram carrier not less than the tolerance, and the distance between the centers of the holes of this pair and their position corresponds to the distance between the centers of the holes on the opposite edges of the hologram carrier and the position of these holes when placing the hologram carrier under the window in the through channel.

 The essential features that distinguish the proposed identification card are the production of a through channel for the holographic film and two holes in the carrier card to open the perforations of the film, as well as the possibility of moving the film in the channel in two mutually perpendicular directions within the required limits, which are specified by the width channel and plugs inserted and fixed in the channel from both its ends.

 The introduction of these features allows for sufficiently low requirements for the accuracy of manufacturing the card and installing it in the card reader assembly of the reader to ensure positioning of the hologram with high accuracy (± 0.01 mm) due to the use of film for positioning perforations, as well as by correcting the position of the film in the channel during the installation of the film with perforation on special clamps of the card receiving unit. The introduction of these features allows, by limiting the limits of movement of the film in the channel, to protect the perforations of the film from damage during the fixing of the card in the card-receiving unit and, thus, to ensure reusable use of the card.

 In FIG. 1, 2 shows the appearance of an identification card; in FIG. 3 is a section AA in FIG. 2.

 The identification card contains a base 1, for example of plastic, with a through channel 2 made, for example, by pressing two halves of a carrier card and then gluing them into which a film carrier 3 of holograms is inserted, and two plugs 4. The carrier 3 of holograms is a standard segment perforated film with a lavsan base on which one or more holograms are pre-registered 5. When registering, the position of the holograms is tightly connected with the corresponding pair of punched holes 6. Depth 2 and the channel aligned with the thick film holograms carrier 3, and the width of the channel 2 is greater than media size corresponding segment 3, so that the film carrier 3 has the necessary freedom of movement in a channel card 2 in the X direction (the desired limits movement of ± 0,1 mm). The plugs 4 fixed at both ends of the channel 2 restrict the freedom of movement of the carrier film 3 in the channel 2 in the Y direction. The sizes of the plugs 4 are such that in the Y direction the carrier film 3 can move within ± 0.1 mm. Through holes 7 are made in the base material 1, allowing access to a pair of perforations 6 of the carrier film 3. The holes 7 in the base 1 are larger than the perforations 6 of the film, their shape can be round or repeat the shape of the perforations 6. The base 1 material is opaque in the visible spectrum and transparent at the wavelength of the radiation source reading the card information. Thus, the hologram carrier 3 is protected from mechanical damage and the effects of "white" light, and the hole for the holograms is not required in the card (if using the opaque material of the carrier card 1, a hole for holograms must be provided in it).

 This design of the card allows for high-precision (with an accuracy of ± 0.01 mm) positioning of the carrier of 3 holograms in the reader by combining the perforations of the carrier film 3 with special clamps installed in the card receiving unit of the device. The specified accuracy is ensured by the standard accuracy of the manufacture of film perforations. The possibility of moving the film in the channel 2 and correcting the position of the carrier film 3 in the process of installing it on the latches incorporated in the card design reduces the requirements for the accuracy of manufacturing the card structural elements and the accuracy of the card pre-installation in the card receiving unit, as well as avoiding damage to the film perforation during positioning and fixing the hologram carrier. In order to avoid a turn of the plane of the carrier 3 holograms in the fixed position of the card, the base 1 should have a uniform thickness in the area of its pressing adjacent to the holograms.

 EFFECT: invention makes it possible to use a serial holographic carrier as an information carrier and reduce the requirements for the accuracy of manufacturing card design elements by about 5 times, compared with the provided accuracy of positioning of the hologram carrier. The proposed card can be used, for example, as an identification or key card.

Claims (3)

 1. IDENTIFICATION CARD, containing a base with a window transparent for reading radiation, and a film-based information carrier located in the base under the window, characterized in that the film-based information carrier is made in the form of a hologram carrier with perforations on opposite edges, inside the base between its opposite side edges a through channel is made with removable flat plugs at the ends, the width of which is a predetermined tolerance greater than the width of the hologram carrier, in the base window a pair of miles, the dimensions of which exceed the dimensions perfootversty hologram media is not less than the tolerance value, and the distance between the centers of apertures of a given pair and their positions correspond to the distance between the centers perfootversty on opposite edges of the carrier holograms and position data perfootversty when placing the carrier holograms under a window in the through channel.  2. The card according to claim 1, characterized in that the base is made with uniform thickness within the area of placement of holograms on the hologram carrier when it is installed in the channel.  3. The card according to claim 1, characterized in that an additional hole is made in the window within the area of placement of the holograms on the hologram carrier when it is installed in the channel.

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