RU2172021C1 - Servicing method for automated cloak-room system - Google Patents

Abstract

FIELD: methods providing for reliability of cloak-room functioning. SUBSTANCE: after things are put into cell, code of key-identifier and individual code of user are entered by means of control board of section; mentioned codes are component parts of user identifier code. Such procedure provides for better protection of registered things. Then cell door is closed by hand and locked automatically. User can open and close his cell many times by entering code of key-identifier and individual code during paid time. Procedure is always the same and does not require additional operations. Unauthorized ingress in cell causes response of burglar alarm device. EFFECT: facilitated operating process; improved protection. 4 cl, 2 dwg

Description

 The invention relates to a method for operating a system of automated storage rooms (SAKH), designed to store various things, excluding flammable, toxic and explosive substances.

 A known method of controlling automated storage chambers [1], according to which the section with a free cell is first searched. Then, using the section control panel (CCP), a cell is selected using the CCP keyboard, and there, through the coin-receiving mechanism, the necessary tariff is paid using coins or tokens. Next, they put things in the cell, close the door, which is automatically locked, and get a key identifier (CI), which can be any, including printed at the client, or be an individual code (IR). To open the door using the CCP, enter the KI or IR code, and after the device establishes the identity of the code recorded during the placement of things and the newly entered code, the door will automatically open. If the paid time has expired, the identification code code mode is blocked, and the corresponding information is received on the control panel display, the required amount is paid in addition, and then the code identification code mode is unlocked, and after entering the code correctly, access to things is allowed. For multiple access to things during the paid time after opening the door at a certain period of time, press the button on the control panel.

 The device is also equipped with a special mechanism that allows you to automatically give KI, as well as reject defective ones. The specified invention has several disadvantages.

 First of all, the visual search for a free cell with things or luggage in a large area, for example, in the hall where storage rooms are usually located, is extremely inconvenient. Since the coin-accepting mechanisms are located in each section, payment of the tariff requires: firstly, their maintenance, including collection of collections in many places, which significantly increases the process time and labor intensity, which means it increases the likelihood of possible theft, distracts considerable forces operating organization, makes it difficult for this period to process baggage; secondly, the user should always have with him the necessary number of banknotes in the form of coins or tokens; thirdly, in principle, the possibility of using credit cards for payment is excluded; fourthly, in conditions of inflation, a readjustment of the mechanism for receiving tokens is required. The issuance of CIs pre-charged to the control panel has the following disadvantages: firstly, it is necessary to periodically maintain the mechanism, which means interrupting the process of receiving and issuing things; secondly, in the case of malicious intent in the manufacture of two identical KI and placing one of them in the control panel, the second can be used to steal things. On-site code production requires either a printing device or the use of special multilayer materials, which will also require regular refueling with consumables, which means that the sections of left-luggage offices will stop working. Using only IR is effective from the point of view of difficulty in selecting or observing from the side with a significant number of code elements, which in turn creates significant difficulties in memorizing and typing IR elements using the remote control.

 In addition, if the client forgot to press a special button during baggage packing, multiple access is interrupted and payment must be made again for baggage.

 The invention aims to eliminate these drawbacks, simplify the operation of sections for both service personnel and users, to increase the level of protection of things left in storage in cells, both in the normal mode of operation of the system and in attempts to unauthorized access to section cells.

 Achieving these goals can be achieved by combining all sections into a single network using various types of network communication lines. The server’s role in such a network will be played by the central control panel (CPU), on the system block of which the software module (PM) of the upper level subsystem (PLC) is installed, the role of the terminals will be played by the security console (software), the service control panel (PSE), on system the units of which are equipped with the appropriate ПУ ПРУ, and sections, the central elements of which are ПУС, each of which, using the control unit (БУ) included in it, communicates with the CPU and other ПУС, and also issues commands to the electromechanical shutoff devices (EMZU).

 Operating the system in normal mode assumes that all operations on the CPU are carried out by the administrator.

 Before placing things on the CPU, which can be located at a considerable distance from the sections, software and PSE, they select the necessary cell, for which, by informing the administrator of the desired dimensions and location of the cell in the section, they pay the established tariff in any way, including using the electronic system payments. Having received the user's consent to rent a cell, using the interactive software module (IPM), the CPUs remotely record the identifier key code in the corresponding memory register of the CCP. The control unit consists of a signal input unit (BVS), receiving signals from the CPU, various section sensors, a microprocessor set (MPC), in the read-only memory of which a low-level subsystem (PN) PM is installed, and in the random-access memory (memory registers) of which current events are entered and recorded, including the KI and IR codes of the user, the control signal output unit (BVUS), issuing signals to the EMDU, and sound and light burglar alarm (OS) devices. Having received the CI and going to the section, place things in the cell, and before closing the door with the help of the control panel, which includes the reader (MF) and the remote control for entering the individual code (PVC), the CI and IR user codes are entered into the information-free memory registers devices (RAM) BU in the selected sequence. Further, in accordance with the PM PNU microcommands installed in the MPC read-only memory (ROM), the processor first identifies the entered CI code with the previously recorded same code located at a specific location in the RAM address space by comparing the codes, then after identification the command is executed records of the IR user and the sequence of entering the KI and IR code in the corresponding registers of the RAM address space in such a way that the KI code corresponds to a single IR of the user and the last sequence of their introduction, then the IPC issued a command for closing the cell door. Moreover, if the user's IR is not entered or is not fully entered, it is impossible to close the door.

 Using PVC, it is possible to replace the recorded information in the corresponding RAM registers of the IPC, in which the user's IR and the sequence of entering codes are stored. To do this, just before entering the IR user, press the appropriate button on the ICC ICC, and after identifying the entered CI code in the corresponding registers of the RAM of the IPC, the stored, previously recorded information will be replaced with the newly entered information. In this case, the newly recorded IR of the user and the sequence of entering codes will correspond to the previously recorded KI code. It is not possible to perform the operation of replacing the user's IR and / or code entry sequence with the cell door closed.

 To open the door, the user identifier code is entered into the memory of the control panel, saving the selected sequence of its introduction. Further, in accordance with the micro commands of the PM PNU installed in the ROM of the IPC, the microprocessor identifies the previously recorded and newly entered user identifier codes located in different registers of the RAM of the IPC by comparing the KI, IR codes and the sequence of their introduction. After identifying the control unit, the control panel issues a command to open the cell door. To repeatedly open and / or close the cell door, the sequence of actions for the user does not change.

The ICC code identification mode may be blocked. This means that the subroutine installed in the ROM of the IPC MPC for identifying previously recorded and newly entered codes is not executed, even if the user enters data for its implementation. This is achieved by recording in the memory of the RAM of the IPC relevant information. For the present invention, a code identification mode lock is introduced for the following cases:
- the paid cell rental time has expired. In this case, the PM PVP CPU generates an appropriate command and remotely transmits it to the control panel;
- sensors of the OS system have worked or an attempt has been made to select codes. In this case, when a signal arrives at the CPU from the control center, the control panel also generates and transmits the corresponding command to the control center;
- at the request of the user or law enforcement agencies. To do this, using the IPM, the CPU remotely transmit the corresponding command to the control panel.

 To open the cell door, if the lock of the identification code code has been entered, first, using the IPM CPU, the command to remotely unlock the identification mode is transmitted, that is, the information previously recorded in the corresponding RAM registers of the IPC to lock the identification code code is deleted, they are deleted from them, and the code identification routine installed in the IPC ROM is re-implemented when the data necessary for its operation appears. Then, using the CCP, the user identifier code is entered into the control unit's memory, which, after its identification according to the above-described scheme, issues a command to open the cell door. If the identification mode of codes was blocked as a result of the time that the cell rental time paid for under the tariff expired, then the user first makes the necessary surcharge and only after that using the IPM CPU remotely transmits a command to unlock the identification mode of codes.

 The use of a user ID, which consists of two parts: a KI code and an IR user, significantly increases the level of protection of things. With certain designs of KI, especially inexpensive from the point of view of manufacturing technology, there is always the possibility of manufacturing a duplicate, namely such designs are preferred for practical implementation. Therefore, the introduction of IR in the composition of the user identifier in this case allows not only to increase the level of security of the code as a whole, but also makes it possible to use a system with such a code in practice, in addition, it further increases the level of security and the presence of an arbitrary sequence of entering codes, as well as the possibility of unlimited the number of times to change the user's IR, which, in addition, is not in the current CPU database and cannot be read from the memory register of the control panel of the control panel by a command from the CPU. The presence of the proposed user identifier allows you to reduce the total number of IR elements while maintaining a high overall level of secrecy, and this makes IR available for memorizing to a wide range of users who do not have serious abilities to memorize a large number of IR elements. It is also important that the need to register it with something is excluded. This, in turn, virtually eliminates the possibility of theft of things in case of loss of CI or the manufacture of a duplicate CI by an attacker.

 The level of protection of things is increased by the introduction of OS device sections. When attempts are made to unauthorized access, that is, attempts to select codes, break into the protective panels of a section or force the doors of cells to be opened, after the corresponding sensors have been triggered, the signal is sent to the control panel of the control panel, and from it to the OS information output devices and to the CPU, and from it to the software. Having received this information, the section is put into repair mode by entering the appropriate command using the IPM CPU. After the cells of the section are freed from things, the normal operation of the elements of the section is restored by repairing or replacing them. The software, as a rule, is located in the premises of the facility security service. At significant distances, the software can be connected to the CPU using a modem.

 The decision to introduce a PSE, which is connected to the CPU using a modem, is directed to the process of timely preventive and repair work, so the maintenance service constantly has current information about the state of the system, and therefore can quickly respond to emergency events and eliminate them.

 The operability of the system as a whole, as well as its individual elements, largely depends on the installed PM, therefore, in order to exclude the introduction of low-quality PM at the various stages of its operation, the connected devices are tested using the CPU for compliance with the requirements established for them. After receiving positive test results, permission is given at the software level to connect the devices by entering the appropriate command using the IPM CPU.

 SAKH has only one CPU, where they pay the tariff, receive a receipt confirming the fact of cell rental and CI. In this case, there is no need for a significant number of coin-collecting and coin-accepting mechanisms and printing devices, which means that the process of operating the system, including cash collection, is simplified.

 Description of the graphic materials presented.

 In FIG. 1 is a block diagram of a SAKH showing two sections with six cells each; in FIG. 2 is a block diagram of a CCP.

 The implementation of the method according to this invention is shown by the example of a single SAKH network, where the CPU and sections are connected using a cable line (network devices are not shown conventionally), and the software and PSE are connected to the CPU using a modem via a telephone line. The section consists of six cells, each of which is equipped with an EMZU, which includes a direct current electric motor, an electric drive, a locking bolt and a housing. To implement the method, a user identifier will be used, consisting of a KI, which is a plastic card with a 28-bit barcode printed on its surface, and an IR, which is a 4-digit number. The general level of secrecy of such a code when it is entered in the following sequence: first the IR, then the barcode, will be approximately 1,000,000,000,000 (the number of combinations).

 The system consists of many sections 1, consisting of cells with a door 2, equipped with a locking strip, EMZU 3, which is controlled by the control unit 4. The control unit 4 includes the MPK 5, which performs all the basic functions of a microcomputer: through the BVS 6 it communicates with the CPU 7 , receives and processes signals from the midrange 8, PVC 9 with an indicator (IN) 10 for inputting and displaying the IR user, OS 11 sensors, identifies the entered codes with the ones recorded earlier, issues EMZU 3 commands through the BWUS 12, controls the display (DP) 13 , turns on and off the OS 14 information output devices permanent storage device IPC 5 installed PM PNU.

 To the CPU 7, which is a professional personal computer (PC) and on the hard drive of which is installed the corresponding PM PVU, are connected the CCP 15, as well as the cash register (KA) 16, printer (PR) 17, code input device (UVK) 18, which in turn, it consists of the midrange 19 for entering the KI code and the adapter 20, which communicates the UVK 18 with the CPU 7 via a serial interface. Communication between neighboring sections for monitoring the OS 11 sensors is carried out via communication line 21. Section 1 is supplied with power from an uninterruptible power supply (UPS) 22 via power supply line 23, and communication between CCP 15 and CPU 7 via line 24. PO 25 and PSE 26, each of which is a PCMM and on the hard drives of which the corresponding PM PVMs are installed, are connected to the CPU 7 using a modem 27 via a telephone line 28.

 Before placing things on the CPU 7, the necessary cell is selected, for which they inform the administrator of the desired dimensions and location of the cell in the section. Using the IPM, the CPU 7 searches for the ordered cell by viewing the corresponding PM database and the user is prompted to make a selection. After the selection, the established tariff is paid through KA 16, then using the SCh 19 UVK 18, the KI code is entered into the RAM of the CPU 7 by entering a plastic card into the SCh 19 and then deleting it. Using IPM CPU 7 remotely record the code KI in the memory register BU 4 having the corresponding address. After receiving the CI, they approach Section 1, put things in the cell, and then enter the CI code and the user's IR code into the memory of the IPC 5 BU 4. In this case, the code input sequence is as follows: The CI is inserted into MF 8 of the ICC 15 and “= = = is displayed on ID 10 = ", and on DP 13 the inscription" Enter a digital code "appears. Using the keyboard 9, a 4-digit number is dialed, which is displayed on ID 10, and on DP 13 the inscription "Remember the code, remove the card" appears. Next, the CI is extracted from the MF 8, and the CI code is read into the IPC memory register 5. The IPC 5 processor then identifies the entered CI code with the code recorded earlier in the same code located at a specific location in the RAM address space by comparing these codes . After identification, the command to write the IR user and the sequence of entering the KI and IR code into the corresponding registers of the RAM address space is executed, namely: first, the IR of the user having four digits, and then twenty-eight bits of the KI code should be entered. Next, a signal is issued for the preliminary closing of the door 2 of the cell, which is amplified by the BVUS 12 and supplied to the EMZU 3, the crossbar of which is advanced by a certain amount. Closing the door, bring it to the stop, while the EMZU 3 limit switch is triggered, the signal of which is recorded by the IPC 5 and which, in turn, generates a signal for the final closing of the cell door 2, after amplification of this signal BVUS 12, the command is sent to the EMZU 3 and locking bolt takes a regular position.

 During the period of paid time, the user can repeatedly open and close his cell, while the procedure is always the same and does not require additional operations. To do this, enter the user ID code using MF 8 and PVC 9 in the memory of the control device 15, while maintaining the selected sequence of entering codes. Further, the IPC 5 identifies the previously recorded and newly entered user identifier codes located in different RAM registers according to the program recorded in the IPC 5 ROM, and after identification issues a command to open or close the cell door.

 If the paid time has expired, then the identification mode of the codes is blocked and the user after entering the codes will see the message "Contact the administrator" on DP 13. Having approached the CPU 7, the CI is transferred to the administrator, who, using the midrange 19, enters the CI code into the RAM of the CPU 7 and determines the surcharge using the PM. After making the necessary amount, through KA 16, using the IPM, the CPU 7 sends a command to unlock the code identification mode to the CCP 15. Next, the user actions are the same as in the case when the paid time has not expired.

 When attempts are made to unauthorized access to SAH elements, the corresponding OS 11 sensors are triggered, the signal is sent to the IPC 5 BU 4, and from it to the OS 14 information output devices and to the CPU 7 and then via the modem communication line 28 to software 25. Having received this information, transfer the operation of section 1 to repair mode by introducing the appropriate command using the IPM CPU 7. After releasing the cells of section 1 from things, the normal operation of the elements of the section is restored by repairing or replacing them.

 PSE 26 receives information from CPU 7 using a modem 27 via communication line 28 about the health of the ASCS and its elements, which allows the service department to quickly solve the problems of prevention and repair of system elements.

Sources of information
1. French patent N 2763154, CL G 07 F 17/10, published. November 13, 1998

Claims (4)

 1. A method of operating a system of automated left-luggage offices, characterized in that a free cell is selected in a section of the specified system, things are placed in it and the cell door is closed, and for its opening, the user identifier code is entered into the memory of the section control panel, which, after identifying the entered identifier code the user gives a command to open the door, characterized in that the user ID code consists of a key identifier code and an individual user code, and when selected with the free cell records the identifier key code into the memory of the section control panel remotely using the central control panel, and before opening and / or closing the cell door using the section control panel, the user identifier code is composed of the key identifier code and an individual user code for subsequent identification with the previously recorded code.  2. The method according to claim 1, characterized in that before closing the cell door using the section control panel, the user identifier code is entered in the selected sequence into the memory of the section control panel, which, after identifying the identifier key code, writes an individual user code with the selected code entry sequence identifier in the memory of the section control panel.  3. The method according to claim 1 or 2, characterized in that the multiple opening and / or closing of the cell door is carried out by entering, using the section control panel, the specified user ID code, observing the selected sequence of its introduction into the section control panel memory, which after identifying the entered code gives the command to open or close the cell door.  4. The method according to claim 1 or 2, characterized in that they lock the identification mode of the code of the section control panel using the central control panel remotely by transmitting the appropriate command to the section control panel, and to open the cell door first, using the central control panel remotely transmit a command to unlock the identification mode of the section control panel, and then enter the user ID code into the memory of the section control panel for subsequent identification ifikatsii.

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