WO2021071388A1

WO2021071388A1 - Locking system for electromechanical locking devices

Info

Publication number: WO2021071388A1
Application number: PCT/RU2020/000514
Authority: WO
Inventors: Вадим Павлович ЦЫВЬЯН; Виктор Георгиевич ПИСАРЕВ; Валентин Михайлович ФЕФЕР; Леонид Владимирович Алексеев
Original assignee: Вадим Павлович ЦЫВЬЯН; Фьюче Ресорсес Кэпитал Ллп
Priority date: 2019-10-07
Filing date: 2020-10-06
Publication date: 2021-04-15
Also published as: RU2740880C1

Abstract

A locking system and a method for using a locking system are provided, comprising an electronic key, and an electronic lock with decentralized control. The method includes: primary activation of the locking system, realized by a number n of insertions of the electronic key into the deactivated lock, during which cryptographic data is created; storing the cryptographic data and identifying information about component elements of the locking system in non-volatile areas of memory of microcontrollers of the electronic key and of the electronic lock, with assignment of an activated master-key status to the electronic key and an activated lock status to the lock; operating the locking system which is realized by a single insertion of the activated key into the activated lock, during which the activated key and the activated lock exchange identifying information for identifying the presence of permission to transfer the cryptographic information; transferring the cryptographic information from the activated key to the activated lock if there is permission to exchange information; deciphering the cryptographic information by the lock, and, if there is a match, unlocking a blocking device; storing an event log of identifying circumstances of opening of the locking system in the non-volatile areas of memory of the microcontroller of the activated key by means of which the unlocking was carried out and in the non-volatile area of memory of the microcontroller of the lock.

Description

LOCKING SYSTEM FOR ELECTROMECHANICAL LOCKING DEVICES

The group of inventions relates to a method of operating a locking system, as well as locking systems for electromechanical locking locking devices.

From the existing level of technology known electromechanical locking device, patent RU JSr "2416013, published on 10.04.2011, Electromechanical locking system, including: a key having a power source; and a lock comprising: a) a cylinder defining an axis of rotation and having a front end and an opposing rear end and which can be rotatably mounted on a lockable first component, a cylinder including at least one second lock configuration; a keyway on its front end for a key and an electrical connection means that provides an electrical connection to the key's power supply; B) a tail section that forms an axis of rotation common to the axis of rotation of the cylinder, a tail section including at least one first locking configuration and acting to inhibit movement of the lockable second component, the tail section being mounted on the cylinder on its a rear end with an arrangement in which relative rotation between the tail section and the cylinder is allowed in the open state of the lock, and where the cylinder and the tail section are rotatably connected in the closed state of the lock; c) an electrically operated clutch mechanism that includes at least one locking mechanism that operates when the clutch mechanism is actuated to disengage the first and second locking configurations, thereby driving the cylinder and a tail to rotatable connection in said closed state of the lock, a locking mechanism including a magnet, an electric coil displaceable within the magnetic field of the magnet, a locking element having engagement configurations for engaging said first and second locking configurations, a blocking element with which the coil is rigidly connected, and a first drive device for setting the blocking element in a position for blocking relative to the stop element, the blocking element acting in its blocking position to disengage the stop element in the first and second in several configurations in the open state of the lock, when the cylinder is rotated relative to the tail section, while the coil is electrically connected to the electronic control unit when the arrangement is in which the coil is energized by the energy supplied from the power supply of the key, in response to the stimulating signal received from the electrical control unit , in order to cause the blocking element to move from its locking position, thereby allowing the locking member to engage with the first and second locking configurations in the closed state of the lock; and d) an electronic control unit that is electrically connected to the electrical connection means and to the clutch mechanism and in so doing acts to generate an actuation signal for actuating the clutch mechanism.

Also known from the prior art is an electromechanical cylinder lock (variants), patent RUN ° 22 18462, published 10.12.2003. The electromechanical cylinder lock contains a key to it, a lock body and, inside the lock body, a rotary lock cylinder and a locking mechanism containing a locking means configured to prevent the lock cylinder from turning relative to the lock body and which is configured to be moved by said key to a released position allowing rotation the lock cylinder relative to the lock body, for which the said key includes means for transmitting an electronic code, and the lock accordingly includes means for receiving and identifying this key code in such a way that when the correct code is identified, the said means for receiving and identifying the code allow mechanical opening of the lock by means of a key, moreover, the lock additionally includes at least one locking disc with a hole for the key, which is arranged in such a way that when the key is turned there is no mechanical effect directly on the locking disc, the connecting means for connecting said at least one locking disc with a rotary movement of the key, and electrically acting means capable of being triggered by an electronic code from the key, and which, in an active state, controls the connecting means so that at least one the locking disc is made with the possibility of turning with a key to the position required to open the locking mechanism.

The disadvantages of these devices are:

- the presence of a centralized access control device, where the generation of access codes for key devices (hereinafter keys) and electronic locking devices (hereinafter referred to as the lock) reduces the reliability of the entire key-lock access system in the following and increases the likelihood of unauthorized access to the premises when intruders obtain the technology of writing codes access;

- to write the access code to the locks into the key, a special programmer device connected with the access control device is required. The programmer is the key device in this system. Without it, it is impossible to erase old and write new access codes into the key;

- the technology of using the programmer to write access codes into the key does not allow simultaneously into the key and the lock during training to write down a randomly generated private encryption key for coding of access codes when exchanging between a lock and a key, which reduces the cryptographic strength of access codes;

- the design of the keys, has control buttons, which reduces the reliability of the key;

- the design of the keys has such an arrangement of the power contacts of the locks in the tail part of the key, which does not provide for protection against accidental closure;

- the exchange of information between the key and the lock occurs by transmitting a pulsed high-frequency signal with an interruption in the supply of power to the power contacts or via a radio channel through an induction coil, which leads to radiation into the air and will allow intercepting the exchange code with the help of special equipment.

Also known from the prior art is a key device, a method of operation of such a device and a software product, patent RU 2016103107, 03.07.2014. Key device containing a mechanical interface (13) for mechanical manipulation of the locking device (20) upon successful access control, while the mechanical interface contains a connecting element (12) to provide power for the locking device (20) and for communication with the locking device (20) so that the locking device (20) is capable of performing electronic access control using a key device (1); clock (4); memory (17); radio module (6); and a controller (2) configured, using the radio communication module (6), to communicate online with the access control device (30) and use the memory (17) as a temporary storage for offline communication between the access control device and one or more locking devices (20), the controller is configured to receive the updated time for the clock (4) of the key device (1) by sending the challenge code to the access control device (30), receiving the response code along with the updated time, where the response code is based on the invocation code, and determining that the updated time is valid if the response code is determined to be valid.

The disadvantages of the technical solution are:

- the presence of a centralized access control device, where the generation of access codes for key devices (hereinafter keys) and electronic locking devices (hereinafter the lock) reduces the reliability of the entire key-lock access system in the following cases: a) failure of the centralized access control device including memory storing the database will lead to operation in the OFF LINE emergency mode and will not open the locks if the consumer does not have special devices for entering codes. In the absence of an up-to-date copy of the database, in order to restore the operability of the entire system, it is necessary to re-enter all the data into the database, re-generate the codes, record new codes in the keys and locks; b) modern technologies of remote unauthorized gaining access to the control device, will allow access to databases where authorization codes for access to keys and locks are stored, which will lead to the possibility of unauthorized opening of locks; c) in the absence of radio communication in OFF LINE mode, access codes can only be entered through a special code input device, which must be available in addition to the key. the presence of a centralized access control device, a software and hardware complex for reliable storage of a database, transmission equipment, and reception of access codes in a key increases the cost of the entire system;

- the presence of a radio communication module in the dongle for controlling the dongle via open communication channels in the ON LINE mode leads to an increased consumption of the dongle's battery;

- the request from the key and authorization access codes are transmitted to the key via open communication channels in ON LINE mode - they can be intercepted by special equipment and decrypted by special equipment for unauthorized settings of duplicate keys and unauthorized reconfiguration of locks;

- in the absence of radio communication in the OFF LINE mode, the access codes can be entered through the key control buttons, the presence of which reduces the reliability of the key, which makes it possible to obtain unauthorized access, increases the cost of the structure;

- in the absence of radio communication in the OFF LINE mode, the access codes can be entered in a special way through the code input device, which makes it possible to obtain unauthorized access and increases the cost of the lock-key system.

The closest technical solutions selected as a prototype are a locking device with a key, patent RUN ° 2237143, published on October 27, 2003 and a locking device with a key, patent RUN ° 2261315, published on March 20, 2004, from which a method for authorizing a key or a locking device is known. ...

Invention patent RUN ° 2237143 "Locking device", consisting of a key and a lock, containing a first device including a first electronic processor, a first memory unit connected to the specified first electronic processor, and a first contact connected to the specified first electronic processor; a second device including a second electronic processor, a second memory unit connected to said second electronic processor, and a second contact connected to said second electronic processor and configured to mechanically interact with said first contact for transferring information between said key and a lock, when the specified key is inserted into the lock; as well as power supply, mechanical interlock mechanism and electrical interlock a mechanism configured to block operation of the lock when a key is inserted into it that has not received permission to unlock the lock, characterized in that said first memory unit is configured to store the open and secret identifiers of the key or lock; the specified second memory unit is configured to store the public and secret identifiers of the key or lock for the first devices authorized for use; said first electronic processor is configured to identify itself to said second electronic processor by said open identifier of a key or lock; and said first and second electronic processors are made with the possibility of exchanging a random number and calculating the corresponding code word using at least part of the specified secret identifier of the key or lock and at least part of the specified random number, while, if the specified code words calculated in said first and second electronic processors, respectively, are identical, said electrical locking mechanism is set to a non-locking position.

Locking device with a key, patent RUN ° 2261315, published 03/20/2004, from which a method for authorizing a key or a locking device is known, including the following steps: creating a first user device (UD1) with an electronic circuit; creation of the first system device (SD1) with electronic circuit used at the first level of the locking system (level 1); and recording the first encryption key (key 1) in the memory of the first user device, as well as in the memory of the first system device, characterized in that the authentication procedure between the first user device and the first system device is carried out using the first encryption key, and in case of successful implementation of this authentication procedures using the first system device perform a software operation consisting in replacing the first encryption key recorded in the memory of the first user device with a second encryption key (key 2), this second encryption key being written into the memory of system devices (SD2) and user devices ( UD2, UD3) used at the second level of the said locking system (level 2), thereby enabling the first user device to work with the said system and user devices used at the second level of the locking system.

The disadvantages of these technical solutions are:

- the presence of a centralized access control device, where the generation of access codes for keys and a lock is performed, which reduces the reliability of the entire key-lock access system and increases the likelihood unauthorized access to the premises when intruders obtain technology for recording access codes;

- the technology of using the programmer to write access codes into the key does not allow simultaneously writing into the key and the lock during training a randomly generated private encryption key to encode access codes when exchanging between the lock and the key, which reduces the cryptographic strength of the access codes;

- lack of protection against accidental closure in the construction of keys, which is due to the peculiarity of the location of the power contacts;

The objective of the claimed invention is to eliminate the above disadvantages.

The technical result to be achieved by the present group of inventions is to create a method for operating a locking system and a locking system for electromechanical locking devices that meet the requirements of increased safety, high reliability, autonomy, low dependence on influencing factors with simple maintenance and operation.

To achieve this technical result, a group of inventions is proposed, a method of operating a locking system and a locking system for electromechanical locking devices. A method of operating a locking system containing at least one electronic key, an electronic lock with decentralized control, is carried out by implementing the following steps: primary activation of the locking system is carried out by the n-th number of inserts of at least one electronic key into a deactivated lock with decentralized control, this generates cryptographic data; recording cryptographic data and identification information about the constituent elements of the locking system in the non-volatile memory areas of the microcontrollers of the electronic key and the electronic lock with decentralized control, assigning the status of the activated master key to the electronic key and the status of the activated lock to the lock; operation of the locking system, which is carried out by a single insertion of an activated key into an activated lock with by decentralized control, in which an activated key and an activated decentralized lock exchange identification information to determine whether the transmission of cryptographic information is authorized; transfer of cryptographic information from the activated key to the activated lock with decentralized control, if there is permission to exchange information; decryption of cryptographic information with a lock and, if it matches, the locking device is unlocked; records in the non-volatile memory area of the microcontroller of the activated key, which was used to unlock, and in the volatile memory area of the microcontroller of the lock, the event log about the identification circumstances of the opening of the locking system.

The locking system for electromechanical locking devices consists of an electronic lock with decentralized control, at least one electronic key, and the electronic key consists of a body, a tail section with a positive contact protected against accidental shorting by a metal object with a metal tail piece connected to the negative contact of the battery, electronic control board of the key, signaling device, contacts, at least one battery, and the lock consists of a lock body, lock cylinder, contacts, an electronic control board of the lock, an electric unlocking mechanism, and the electronic control board of the lock and the electronic control board of the key exchange information with transmission access key in encrypted form through contacts that transmit information without radiation to the air, while the electronic key contains two types of batteries: main and additional.

The essence of the invention is illustrated by drawings.

Figure 1 shows an electronic key

Figure 2 shows an electronic key inserted into the lock cylinder

1- key body

2- tail metal part of the key

3- electronic key control board

4- main battery

5- additional battery

6- positive contact of power supply and data transmission key

7- lock device status indicator

8- positive contacts of the power and data transfer lock

9- negative contacts of the lock

10- electronic board for lock control

11 - the larva of the castle

12.13 - electric unlocking mechanism The locking system for electromechanical locking devices consists of a decentralized electronic lock and at least one electronic key. The electronic key consists of a body 1, a tail part 2 with a protected positive contact 6 from accidental shorting by a metal object with a metal part of the shank connected to the negative contact of the battery, an electronic control board for a key 3, signaling devices 7, and the lock consists of a lock body (not shown in the figures ), lock larvae 11, contacts 8 and 9, the electronic control board of the lock, the electric unlocking mechanism 12, 13, and the electronic control board of the lock 10 and the electronic control board of the key 3 exchange information with the transmission of the access key in encrypted form through contacts 6 and 8, which transmit information without radiation into the air, while the electronic key contains two types of batteries: main 4 and additional 5.

The electronic key consists of a body without buttons, in dimensions close to a typical car key with a special tail section 2, an electronic control board 3, a lock device status indicator 7. The electronic key has two contacts: a metal tail section 2, to which a negative charge is constantly applied, and a positive contact of the tail section with protection against accidental shorting by a metal object with the metal part of the tail end connected to the negative contact of the battery, consisting of at least one isolated positive contact 6, through which the supply voltage from the battery 4 is supplied to the lock board 10 and at the same time a bidirectional exchange of encrypted data with the lock control board 10. The positive power contact is also a data transfer contact. The electronic key can contain two types of batteries: the main battery 4, designed to power the electronic control board of the lock 10, the electronic key and the electric unlocking mechanism 12, 13 and the additional battery 5, designed to operate the real-time clock circuit for keeping an electronic log with the date of the event, so that when the main batteries are replaced, the real time clock is not reset.

Key batteries 4 and 5 can be made in the form of rechargeable batteries or in the form of replaceable disposable batteries. The user dongle and master dongle can be made with the possibility of replacing the battery (in the case of using a disposable battery) and without the possibility of replacing the battery (in the case of using a rechargeable battery). When a rechargeable battery (accumulator) is used in an electronic key, the battery is charged through a charger with a counterpart design of a similar design lock larvae 11, having only positive contacts 8 and negative contacts 9, to which the charge voltage is applied. The signaling device 7 of the electronic key can be light, sound or vibration in order to give a signal when the phases of operation change, signaling the battery discharge, etc.

An electronic lock with decentralized control consists of a lock body, a lock cylinder 11, positive contacts 8 and negative contacts 9 of the lock, an electronic control board of the lock 10, an electric unlocking mechanism 12,13. The electronic control board of the lock 10 and the electronic control board 3 of the key exchange information with the transfer of the access key with cryptographic protection through contacts 6 and the contacts of the metal tail of the electronic key and transmit information without radiation to the contacts 8.9 of the lock, which does not allow intercepting the exchange code ...

The proposed locking system uses cryptographic protection of access codes. If, during the decryption procedure, there is a matching authorization access code in the memory of the lock and key microcontroller, the lock board includes an electric unlocking mechanism 12,13 and the electronic key can be turned in the lock cylinder 11 to open / close the lock. When manufacturing a locking system for electromechanical locking devices at the factory, the electronic key and lock cards are configured with a special technological program by filling in the control descriptors into the microcontrollers of the key and lock electronic card, as ready for activation (deactivated) with blank data in the identification data storage tables, cryptographic security codes located in non-volatile EEPROM memory protected from unauthorized reading.

The primary activation of the locking system is carried out by means of the nth number of inserts of at least one electronic key into a deactivated lock with decentralized control, while cryptographic data are generated. Next, cryptographic data and identification information about the constituent elements of the locking system are recorded in the non-volatile memory areas of the microcontrollers of the electronic key and the electronic lock with decentralized control, assigning the status of the activated master key to the electronic key and the status of the activated lock to the lock. The primary activation of the locking system for electromechanical locking devices is a mandatory initial stage in the operation of the locking system. Without initial activation, the locking system is not functional, all elements of the locking system are not configured and cannot ensure the operation of the locking system. Any key can be configured as an activated electronic master key or user key by performing an initial or operational activation procedure.

One and the same key can be a master key for one lock and a user key for another lock at the same time. One and the same key can be registered in several locks, which makes it possible to carry only one electronic key with you to access different rooms. Using the electronic master key, you can not only carry out the activation and deactivation procedures, but also open the lock for which it is activated.

When the locking system is manufactured at the factory, the protocol of data exchange with the microcontroller of the key and lock does not provide for the possibility of writing and reading closed cryptographic information from the non-volatile EEPROM protected from unauthorized reading. In the manufacture and operation of the locking system for the key, a special adapter (programmer) can additionally be used to communicate with a computer or smartphone in a contact or contactless way. The programmer for connecting a key by a contact method has a counterpart of a similar design to the lock cylinder 11, which has only positive contacts 8 and negative contacts 9, to which the charge voltage is applied and information is exchanged. When the key is connected in a contactless way, the electronic key is equipped with an additional electronic module for contactless communication. The design of the lock may provide additional contacts for stationary connection through a special adapter (programmer) for communication with a computer or smartphone of electronic building management systems for the implementation of additional service functions that are controlled remotely. Examples of such service functions are the following functions: time-limited access to open the lock to selected keys in ONLINE mode with confirmation; restricting access to open the lock to a lost key in ONLINE mode with confirmation of the lock; transmission of the lock and key event log to the computer in ONLINE mode; replenishment of the key battery from the programmer to save its energy at the time of opening the lock, etc.

The implementation of the claimed group of inventions is carried out as follows:

When using a lock, the first step is the primary activation of the deactivated electronic keys to the deactivated lock by installing the deactivated electronic key into the lock, in which cryptographic data is generated. Next, cryptographic data and identification information about the constituent elements of the locking system are recorded in the non-volatile memory areas of the microcontrollers of the electronic key and the electronic lock. The key to be activated is inserted n times in a row into the lock to validate the records made in the key and lock EEPROM memory. After validation, the control assigns the status of an activated master key to the electronic key and the status of an activated lock to the lock. As part of the initial activation of master keys, several master keys can be activated for one lock. The initial completion of the configuration of several master keys for a given lock is done by inserting the already activated master key into the lock m-times. After the initial completion procedure, the activation of new master keys is blocked. The user then proceeds to the operating procedures for controlling the locking system. The locking system is operated by a single insertion of an activated key into an activated decentralized lock, in which the activated key and the activated decentralized lock exchange identification information to determine whether the transmission of cryptographic information is authorized. After that, cryptographic information is transferred from the activated key to the activated lock with decentralized control, provided that there is permission to exchange information. Further, the cryptographic information is decrypted by the lock and, if it matches, the locking device is unlocked. After that, an entry in the non-volatile memory area of the microcontroller of the activated key, which was used to unlock, and in the volatile memory area of the microcontroller of the lock, an event log about the identification circumstances of the opening of the locking system is made.

Activation of an additional user key (extended operation) to the activated lock is carried out using the activated master key in a special sequence, by means of N number of inserts into the activated lock, in order to exclude false alarms.

When inserting N + 1 times into an activated lock:

- a deactivated key not recorded in the lock memory, if the data storage limit in the lock memory and the electronic key is not exhausted, the key and the lock exchange unique identifiers, the key randomly generates cryptographic data. After that, cryptographic data and identification information about the constituent elements of the locking system are recorded in the non-volatile area. microcontroller memory of an electronic key and an activated electronic lock with decentralized control with assigning the electronic key the status of an activated user key,

- activated key. Operational deactivation of the activated user key is performed, while the cryptographic data and identification information about this activated user key are deleted from the non-volatile memory area of microcontrollers of the electronic lock with decentralized control and the key is assigned the status of a deactivated key.

The locking system can be made both with the possibility of deactivating the electronic lock with decentralized control, and without the possibility of deactivating the lock. Thus, when the locking system is executed without the possibility of deactivating the electronic lock, when inserting M times of the activated electronic master key into the activated lock into the locking system, in which deactivation of the electronic lock is prohibited, a remote general deactivation of the records of all activated electronic user keys for this electronic lock is performed. decentralized, in which the cryptographic information and identification information of all electronic user keys from the memory of the electronic lock is deleted. All electronic user keys activated for this lock are considered to be deactivated. Such locks, as a rule, can be installed in places where increased secrecy is required. This function can be used to remotely lock an unnecessary activated user key.

In the case of a lock, where deactivation of the activated lock is allowed, cryptographic data, recording of cryptographic data and identification information about all the constituent elements of the locking system are deleted from the non-volatile memory area of microcontrollers of the activated lock with decentralized control and the activated master key, which was deactivated, and other remotely activated user electronic keys, master keys for this lock acquire the status of deactivated. The lock becomes deactivated. This function is used to completely reconfigure the entire interlocking system.

The method of operation of the locking system is implemented through the implementation of the following stages:

The primary activation of the key for the lock is performed by inserting the deactivated key into the decattered lock, while the lock and key exchange unique identifiers, and the key generates randomly generated cryptographic data without the use of additional external devices, which, together with identification information, are recorded only in the non-volatile memory area of the key and lock microcontrollers specially protected from unauthorized reading and are not transferred anywhere else. For the purpose of validation, the activated master key is inserted into the lock n more times in a row. The activated key gets the status of the master key and the lock goes into the activated state. Then the primary activation of the master key is completed by m inserting the already activated master key into the lock.

Additionally, operational activation of the deactivated key can be performed by inserting the activated master key into the lock and then the deactivated key into the lock, while the lock and key exchange unique identifiers, the deactivated key generates randomly generated cryptographic data without the use of additional external devices, which together with identification information are recorded only in the non-volatile memory area of the key and lock microcontrollers, specially protected from unauthorized reading, and are not transferred anywhere else. The key that is activated during this procedure receives the status of the user key.

The next step is the process of opening the lock, in which the activated electronic key and the activated electronic lock I exchange identification information to determine the presence of permission to transfer cryptographic information. If there is permission to exchange information, the electronic key transfers cryptographic information to the lock. The electronic lock decrypts the cryptographic access information and, if it matches, unlocks the blocking device. For subsequent control in the OFF LINE mode, an event log and information about when and which lock was opened by which key are recorded in the non-volatile memory area of the key and lock microcontrollers;

If necessary, operational deactivation of the activated user key can be performed by deleting information from the lock microcontroller memory using the activated master key, identification and cryptographic information, one key or all ordinary keys, in case of loss (theft) of any of the usual keys activated for this lock.

If necessary and if technically feasible, a re-operational activation procedure can be performed to restore access for the remaining keys of this electronic lock. With the help of special software, one and the same key can be a master key for one lock and a regular key for another lock at the same time. One and the same key can be enrolled in several locks, which allows you to carry only one key to access different rooms. Using the master key, you can not only activate, but also open the lock for which it is assigned by the master key. The method of information exchange when the lock is inserted into the key via the power contact without radiation into the air does not allow unauthorized interception of exchange codes using special equipment.

Analysis of the patent and scientific and technical literature did not reveal technical solutions with such a set of essential features, which allows us to conclude that the claimed invention meets the “novelty” criterion.

The claimed essential features that predetermine the obtaining of the specified technical result do not explicitly follow from the prior art, which makes it possible to conclude that the claimed invention meets the patentability condition “inventive step”.

Claims

FORMULA OF THE INVENTION LOCKING SYSTEM OPERATION AND LOCKING SYSTEM FOR ELECTROMECHANICAL LOCKING DEVICES

1. A method of operating a locking system containing at least one electronic key, an electronic lock with decentralized control, by implementing the following steps: a) primary activation of the locking system is carried out by means of the nth number of inserts of at least one deactivated electronic key into a deactivated lock with decentralized management, while generating cryptographic data; recording cryptographic data and identification information about the constituent elements of the locking system in the non-volatile memory areas of the microcontrollers of the electronic key and the electronic lock with decentralized control, assigning the status of the activated master key to the electronic key and the status of the activated lock to the lock;

B) operating the locking system, which is carried out by inserting an activated key once into an activated decentralized lock, in which the activated key and the activated decentralized lock exchange identification information to determine whether the transmission of cryptographic information is authorized; transfer of cryptographic information from the activated key to the activated lock with decentralized control, if there is permission to exchange information; decryption of cryptographic information with a lock and, if it matches, the locking device is unlocked; recording in the non-volatile memory area of the microcontroller of the activated key, which was used to unlock, and in the volatile memory area of the microcontroller of the lock, the event log about the identification circumstances of the opening of the locking system.

2. The method of operating the locking system according to claim 1, characterized in that the extended operational activation of the locking system, carried out by the initial n-th number of inserts of the activated master key into the activated lock and then inserting at least one additional deactivated electronic key into the activated electronic lock , thus forming cryptographic data; writing cryptographic data and identification information about the constituent elements of the locking system in the non-volatile memory area of the microcontrollers of the electronic key and the activated electronic lock with

fifteen

SUBSTITUTE SHEET (RULE 26) decentralized management with the assignment of an additional electronic key to the status of an activated user key;

3. A method of operating a locking system according to claim 1 and claim 2, characterized in that the operational deactivation of the activated user key is carried out by the initial n-th number of inserts of the activated master key into the activated lock and then inserting the activated user key into the activated lock, at the same time, cryptographic data and identification information about this activated user key are deleted from the nonvolatile memory area of the microcontroller of the electronic lock with decentralized control, and all information is deleted from the nonvolatile memory area of the microcontroller of the electronic key, and the status of this activated user key is terminated.

4. The method of operating the locking system according to claim 1, characterized in that the completion of the primary activation of the locking system is performed by an activated electronic master key by means of the m-th number of inserts of the activated electronic master key into the activated electronic lock.

5. The method of operating the locking system according to claim 1, characterized in that after the completion of the initial activation of the locking system, assignment of the status of the activated electronic master key to other electronic keys is impossible.

6. The method of operating the locking system according to claim 3, characterized in that for remote deactivation of the user electronic key, a general deactivation of the records of all activated electronic user keys for a given electronic lock with decentralized control is carried out by the m-th number of inserts of the activated electronic master key into the activated an electronic lock, in which the cryptographic information and identification information of all electronic user keys are deleted from the memory of the electronic lock, while all electronic user keys activated for this lock are considered to be in a deactivated state.

7. The method of operating the locking system according to claim 1, characterized in that the deactivation of the locking system is impossible after the completion of the initial activation of the locking system.

8. The method of operating the locking system according to claim 1, characterized in that the deactivation of the locking system is possible after the completion of the initial activation of the locking system by the m-th number of inserts

sixteen

SUBSTITUTE SHEET (RULE 26) the activated master key into the activated lock, while the cryptographic data and identification information about all the constituent elements of the locking system are deleted from the non-volatile memory area of the microcontrollers of the activated lock with decentralized control and the activated master key that was deactivated, and all activated electronic keys remotely for this lock and the electronic lock acquire the status of deactivated.

9. The method of operating the locking system according to claim 6, characterized in that after remote deactivation of all electronic user keys to restore access of the remaining electronic user keys to the electronic lock after the general deactivation of the records of all activated electronic user keys, the procedure for activating the user keys to the lock is repeated.

10. The method of operating the locking system according to claim 1, characterized in that reading the event log from the nonvolatile memory of the lock microcontroller and writing to the microcontroller memory of the key is carried out by an electronic user key for this electronic lock with decentralized control by the n-th number of inserts of an electronic user key to the castle.

11. Locking system for electromechanical locking devices, consisting of an electronic lock with decentralized control, at least one electronic key, characterized in that the electronic key consists of a body, a tail section with a protected positive contact from accidental shorting by a metal object with a metal part of the tail end connected with a negative contact of the battery, an electronic key control board, contacts, and the lock consists of a lock body, a lock cylinder, contacts, an electronic lock control board, an electric unlocking mechanism, an electronic lock control board and an electronic key control board exchange information with the transfer of an access key in an encrypted form through contacts that transmit information without radiation to the air, while the electronic key contains two types of batteries: main and additional, and is additionally equipped with at least one signaling device.

12. Locking system for electromechanical locking devices according to claim 11, characterized in that the batteries 4 and 5 of the key are made in the form of a rechargeable battery

13. Locking system for electromechanical locking devices according to claim 11, characterized in that the batteries 4 and 5 of the key are made in the form of replaceable disposable batteries

17

SUBSTITUTE SHEET (RULE 26)

14. Locking system for electromechanical locking devices according to claim 11, characterized in that the electronic key does not contain control buttons.

15. Locking system for electromechanical locking devices according to claim 11, characterized in that the lock is equipped with additional contacts for permanent connection via a special adapter (programmer) to a computer or smartphone to connect to a building automation system to implement additional service functions that are controlled remotely.

16. The locking system for electromechanical locking devices according to claim 15, characterized in that the additional power supply of the electronic lock with decentralized control is provided from the building automation system in order to conserve the energy of the key battery.

17. Locking system for electromechanical locking devices according to claim 12, characterized in that the rechargeable batteries 4 and 5 of the key are recharged from an external source through the contacts of the key shank

18. A locking system for electromechanical locking devices according to claim 11, characterized in that the electronic key signals a decrease in the battery charge below the permissible value by the available signaling device.

19. The locking system for electromechanical locking devices according to claim 11, characterized in that for the implementation of additional service functions for the activated electronic key, it is produced through a special adapter (programmer) connected to a computer or smartphone.

20. Locking system for electromechanical locking devices according to claim 19, characterized in that the programmer is connected to the key by a contact method.

21. Locking system for electromechanical locking devices according to claim 19, characterized in that the programmer is connected to the key in a contactless way.

22. A locking system for electromechanical locking devices according to claim 19, 21, characterized in that the electronic key has a built-in additional module for contactless communication.

eighteen

SUBSTITUTE SHEET (RULE 26)