RU2023126C1 - Locking safeguard device - Google Patents

Abstract

FIELD: locking safeguard devices. SUBSTANCE: locking safeguard device consists of body accommodating source and receiver of radiation, key, information processing unit and keyhole. Key is made in form of flexible plate with deep code hologram applied to it. Keyhole is made in form of slot to receive key and imparting to its surface the shape requires for reestablishing the code hologram. EFFECT: higher efficiency. 1 dwg

Description

 The invention relates to safety devices designed to prevent unauthorized access by unauthorized persons to secure premises.

 An electronic device is known (UK application N 2078848, class E 05 B 47/04), made in the form of an electronic lock, in which punch cards with code numbers written on them are used as keys. The code is read from the punch card using a reader, the signal is further processed by the storage device and the signal processing unit, the latter provides a control signal for unlocking.

 The disadvantage of this device is a small degree of secrecy, since the information code is easy to read, for example, visually, and then you can easily make a duplicate punch card.

 A locking device is known (UK application N 1508698, class E 05 B 47/00) containing electronic memory designed to fill codes into memory and a solenoid that controls door opening. As a key in this device, a magnetic coding card is used. The possibility of its conversion is provided.

 Unlike the previous device, the information code in such a system is somewhat more difficult to determine and secrecy is enhanced. The disadvantages of the device under consideration include the possibility of accidentally erasing or distorting code information when the key enters strong magnetic or electromagnetic fields that can be generated by various household and industrial objects. It is also possible to manufacture relatively simple decoding devices that provide electromagnetic code reading and subsequent production of duplicate keys.

 The closest in technical essence and the problem to be proposed to the proposed device is a locking device driven by a photocell.

 This device contains a housing, with a coherent light source (laser radiation) sequentially located inside it with a number of monochromatic components of light radiation of various wavelengths, a key, a photodetector, which is a matrix of photosensitive elements, a processing unit, a locking unit in the form of an electromagnetic drive. The key is made in the form of a card having numerous holes intended for the selective illumination of individual elements of the radiation receiver. The holes contain wavelength-dependent light guide elements.

 Consider the locking device operates as follows. A ray of light from a radiation source passes to the receiver through openings in the key. If the code recorded in the key in the form of a specific arrangement of the fiber-optic holes, each of which may have a different spectral transmittance, coincides with the lock code, the locking device is mechanically unlocked.

 This device does not have such a drawback inherent in a lock with a magnetic encoding card as the possibility of accidentally erasing or changing the code, which increases the operational reliability of the device in question.

 The disadvantage of this device is the limited degree of secrecy, which is caused by the fact that the key code can be decrypted, and it is relatively easy to make a duplicate of it. For decryption, you can use, for example, a decoder consisting of a light source with a variable spectral composition, an array photodetector, a scanning device and a signal processing unit.

 Decryption is carried out by sequentially scanning the key with different wavelengths with fixing the resulting image on the photodetector. The processing unit allows you to determine the required characteristics of the key, and therefore its code.

 In addition, this device has a high cost caused by the presence of an expensive radiation source - a laser, which also must emit a certain set of monochromatic wavelengths, and the high cost of mass production of keys, the holes in which must change the direction of radiation and have spectral selectivity.

 The aim of the invention is to increase the privacy of the device.

 The essence of the invention lies in the fact that the locking safety device consists of a key and a lock, with a radiation source located inside it, an output connected via an information processing unit with an actuator, and a keyhole located on the outer wall of the housing, the key being made in the form of a flexible plates with a volumetric code hologram deposited on it, and a keyhole in the form of a slit, the shape of which corresponds to the shape of the code hologram.

 A high degree of secrecy is ensured due to the fact that only a hologram with a code image equivalent to the code stored in the processing unit can be used to unlock the locking device. Obtaining a copy of the original volume hologram is practically impossible. Decoding of the code hologram is also practically impossible due to the fact that the code real image constructed by the hologram is three-dimensional (volumetric), i.e. It is localized in a certain volume of space and can have a rather fine structure. Decryption is also complicated by the fact that in order to build a real image of a code hologram, it is necessary to give its surface the shape of a hologram when it is recorded, and this is already a secret stored in the castle in the form of a keyhole.

 As a result of the analysis of the patent and scientific and technical literature, no technical solutions have been identified that contain the distinguishing features of the present invention, which ensure the achievement of a positive effect, therefore, the present invention can be considered to meet the criterion of "significant differences".

 The drawing shows a diagram of a locking safety device.

 The safety locking device comprises a housing 1 made, for example, of steel, inside which a radiation source 2 is placed, which can be used, for example, a semiconductor LED or an incandescent lamp with a lens located in front of it, a key 3 in the form of a flexible plate, for example, plastic, with a volumetric code hologram applied to it, a photodetector 4, which is, for example, a matrix type image receiver. An information processing unit with a storage unit made, for example, on semiconductor microcircuits. The actuator 6 is used for locking and is an electromagnetic mechanical drive.

 In the housing 1 of the device there is a keyhole 7, made in the form of a slit, designed to enter the key and give its surface the form necessary to restore the image of the code hologram. In this case, the shape of the keyhole can be either straight or curved, and must correspond to the shape of the key at the time of applying the code hologram, that is, if the hologram is applied to the key in a flat shape, then the slot must be made in the form of a direct channel, and if a hologram is applied to a key of a given curved shape, then the shape of the gap must be exactly the same.

 The device operates as follows. When the key 3 is inserted into the keyhole 7, the hologram surface recorded on it takes on the shape that it had at the time of recording and is illuminated by radiation from the source 2. The radiation reflected from the hologram forms a valid code image in the area of the photodetector 4. The receiver generates an informational electric signal to the information processing unit 5, which, when this signal is completely identical with the code recorded in it, makes a decision on key identification and issues a control signal to open the actuator 6.

 In the absence of a key in the keyhole or an attempt to use a photodetector, an adequate informational code real image does not occur, and the information processing unit blocks the actuator.

 The proposed device has increased secrecy in comparison with the known devices, since it is practically impossible to decrypt the volume code hologram due to the special shape of the slit and the physical properties of the volume hologram. In addition, the hologram manufacturing process itself is an inaccessible and knowledge-intensive technology.

 The manufacturing cost of this device is low, since it allows the use of a cheap semiconductor LED or a conventional incandescent lamp as a radiation source, and a combination of several inexpensive photodiodes, for example, FD-265, is permissible to use as a photodetector.

 In mass production, the cost of manufacturing keys with a hologram is relatively low. Thus, the total cost of the proposed locking safety device while ensuring high secrecy will be available to a wide range of customers. The proposed device can be widely used in the national economy in conditions of high criminogenic conditions.

 The noted advantages make it possible to talk about its competitiveness in comparison with other known locking devices.

Claims (1)

 LOCKING SAFETY DEVICE containing a key and a lock with a radiation source and receiver located inside its housing, an output connected through an information processing unit with an actuator, and a keyhole located on the outer wall of the housing, characterized in that, in order to increase the privacy of the device, the key It is made in the form of a flexible plate with a volumetric code hologram deposited on it, and the keyhole is made in the form of a slit, the shape of which corresponds to the shape of the code hologram.

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