RU2015100695A - ELECTRONIC FILLING DEVICE OF REUSABLE ACTION (EPU MD) - Google Patents

Abstract

1. The electronic reusable sealing device (EPU MD) comprises a housing, means for storing sealing information and exchanging data with a portable and / or stationary reading device, characterized in that it includes: one modulated optical radiation source, one optical receiver radiation, which are sequentially closed by disposable power optoelectronic fasteners (OSOEK), a locking mechanism that locks OSOEK from two sides, a radio frequency identification communication channel 13.56 MHz total range, 2 reed switches, 2 field N (P) channel transistors, additional reed switch installed in the immediate vicinity of the radio frequency identification antenna at a frequency of 13.56 MHz, explosion-proof electrical power supply, external thermostat, asymmetric encryption chip , a storage device combined with a means of storing filling information, a microprocessor, a three-axis acceleration measuring sensor, an internal temperature measuring sensor with a built-in thermostat, vibration signaling device, light signaling device, 2.44 GHz short-range radio channel, 433 MHz radio frequency identification communication channel, 125 and 136 kHz radio frequency identification communication channel, mobile cellular channel, GLONASS / GPS radio navigation signal receiver with antenna unit; the electronic components of the EPU MD are embedded in a translucent enclosure in explosion-proof design with a given electrical resistance of the shell surface and are completely filled with a compound on

Claims (25)

1. The electronic reusable sealing device (EPU MD) comprises a housing, means for storing sealing information and exchanging data with a portable and / or stationary reading device, characterized in that it includes: one modulated optical radiation source, one optical receiver radiation, which are sequentially closed by disposable power optoelectronic fasteners (OSOEK), a locking mechanism that locks OSOEK from two sides, a radio frequency identification communication channel 13.56 MHz total range, 2 reed switches, 2 field N (P) channel transistors, additional reed switch installed in the immediate vicinity of the radio frequency identification antenna at a frequency of 13.56 MHz, explosion-proof electrical power supply, external thermostat, asymmetric encryption chip , a storage device combined with a means of storing filling information, a microprocessor, a three-axis acceleration measuring sensor, an internal temperature measuring sensor with a built-in thermostat, vibration signaling device, light signaling device, 2.44 GHz short-range radio channel, 433 MHz radio frequency identification communication channel, 125 and 136 kHz radio frequency identification communication channel, mobile cellular channel, GLONASS / GPS radio navigation signal receiver with antenna unit; electronic components of the electronic control unit MD are installed in a translucent enclosure in explosion-proof design with a given electrical resistance of the shell surface and are completely filled with a compound, magnetic fasteners are installed on the housing; OSOEK is made of polyurethane, in its body it contains: a radio-frequency identification tag at a frequency of 13.56 MHz, optical fibers or end-glow fibers with a through exit to the ends; it has recesses on its shell for fasteners, service information is deposited on the OSOEC surface, which is also recorded in the microprocessor of the RFID identification tag at a frequency of 13.56 MHz OSOEC. 2. EPU MD according to claim 1, characterized in that it is a reusable filling device, i.e. when legally removing it from the locking device, the OSOEC is cut, while the MD EPU is not damaged and can be reused with the new OSOEC. 3. EPU MD according to claim 1, characterized in that it can be a padlock with a reusable action, i.e. when legally removed from the OSOEK locking device, it may not be cut, but removed from the EPU MD body without damage to the OSOEK by opening the locking mechanism, and then reused when it is used on the locking device again. 4. EPU MD according to claim 1, characterized in that it can exchange data not only by means of and at the time of bringing the reader to it or approaching the reader, but also at any time by means of a mobile cellular communication channel, a communication channel at a frequency of 433 MHz and a short-range communication channel of the frequency ranges 2.44 GHz, while the data can be transferred to the MD EPU with any frequency, either with the option of remotely updating the intra-system software, or received from it by the server at the control point. 5. EPA MD according to claim 1, characterized in that its location with impaired integrity can be obtained without waiting for the moment of approaching the reader, but at any time via a short-range communication channel of the frequency ranges 2.44 GHz and 433 MHz, or via mobile cellular. 6. EPU MD according to claim 1, characterized in that its location with impaired integrity can be obtained not only from the location of the reader at the time of its submission to the EPU MD, but also through global GLONASS / GPS positioning systems, and , but it is calculated on the server according to the location data of ground-based mobile cellular signal repeaters. 7. EPU MD according to claim 1, characterized in that it can exchange data not only with a reader, but also with any type of device equipped with radio transmitting and receiving equipment at frequencies of 125 and 136 kHz, 13.56 MHz, 433 MHz and 2 44 GHz. 8. EPU MD according to claim 1, characterized in that it transmits not only information about the violation of its integrity, but also information about the operator performing legal actions with him, about the OSOEC used in its composition by polling the EPO MD tags for radio frequency identification OSOEC and the operator. 9. EPU MD according to claim 1, characterized in that it is laid down and it contains not only sealing information, but also additional information necessary for the formation of a universal transfer document for financial statements. 10. EPU MD according to claim 1, characterized in that it transmits not only information about the violation of its integrity, but also, when it is violated, immediately forms, with subsequent transmission over the air, a universal transfer document for financial statements. 11. EPU MD according to claim 1, characterized in that it transmits not only information about the violation of its integrity, but also information about the location, speed and accelerations acting on it, as well as the ambient temperature acting on it. 12. EPU MD according to claim 1, characterized in that it transmits not only information about the violation of its integrity, but also information about the presence in the communication zone of the communication channel of a small radius of action of the frequency bands 2.44 GHz of other EPU MD and data on their status. 13. EPU MD according to claim 1, characterized in that it can form a single system of many closely located EPU MD through a communication channel with a short range of frequency bands 2.44 GHz when sealing or closing objects that need to control their integrity and completeness, and also from one or many MD EPUs and any number of simplified MD EPUs that do not contain a receiver of radio navigation signals from GLONASS / GPS systems with an antenna unit and a radio modem with an antenna unit for mobile cellular communications, combined x into a single system via a communication link short-range 2.44 GHz frequency bands. 14. EPU MD according to claim 1, characterized in that it transmits information about its state to the operator not only to the reader, but also using light and vibration alarms. 15. EPU MD according to claim 1, characterized in that the information EPU MD is signed by electronic digital signature using an asymmetric encryption chip. 16. EPU MD according to claim 1, characterized in that the casing is sealed in dust and waterproof design. 17. EPU MD according to claim 1, characterized in that the casing is explosion-proof with a shell surface resistance of not more than 10 ⁹ Ohms at a temperature of 23 ± 2 ° C and a relative humidity of 50 ± 5%. 18. EPU MD according to claim 1, characterized in that the housing provides for the possibility of attaching an electrical conductor to ensure its grounding. 19. EPU MD according to claim 1, characterized in that the internal elements of the EPU MD and the simplified EPU MD are filled with a compound. 20. EPU MD according to claim 1, characterized in that the EPU MD reads data from the radio-frequency identification tag of the frequency range 13.56 MHz of the operator, which performs legal actions with the EPU MD and transmits them via radio channels. 21. EPU MD according to claim 1, characterized in that the EPU MD to start receiving data by the internal receiver of the radio frequency identification of the frequency range 13.56 MHz from the radio frequency identification tag of the frequency range 13.56 MHz of the operator, the operator brings the magnet to the body of the EPU MD and the label in the place directly indicated on the case at the factory. 22. The EPA MD according to claim 1, characterized in that to activate the data transfer process at a frequency of 433 MHz, initiated from outside with respect to the EPA MD, directly to the EPA MD it is necessary to bring the transmitter of radio frequency identification of the frequency range 125 and 136 kHz, transmitting command to start a communication session. 23. EPU MD according to claim 2, characterized in that the inner core is made of a fiber or several optical fibers of the end glow twisted into a bundle and is an insulator with respect to electric current. 24. EPO MD according to claim 3, characterized in that the OSOEK is not attached to the EPU MD, and only after it is installed on the locked object, the OSOEK is fixed with two ends by the locking mechanism of the EPU MD. 25. EPA MD according to claim 5, characterized in that the switching mechanism is made in the form of an optical circuit with control of the emitted and received optical signal, as well as with the presence of a magnet integrated in the locking mechanism near the reed switch controlling them, as well as a second reed switch, on which is not affected by the magnet of the locking mechanism, and which only responds to the presence of an external magnetic field induced by intruders on the electronic control unit when trying to close the reed switch, which is responsible for interacting with the locking magnet On the mechanism of the EPA MD, in addition, the communication mechanism is protected externally from the external magnetic field by steel plates.