RU129668U1 - MOBILE CONTROL MODE OF OPERATION OF SUBMERSIBLE PUMP UNITS IN REAL TIME ON REMOTE ACCESS - Google Patents

Abstract

A mobile complex for controlling the operating mode of submersible pump units in real time at a remote access, containing “N” submersible pump units, “N” submersible pump unit control stations corresponding to each submersible pump unit, a communication module, a communication system, a remote control device, each control station of a submersible pump installation contains a communication unit with a frequency converter and, accordingly, with a submersible pump installation, a central processor, a communication unit with a modem, characterized in that the mobile complex further comprises at least one user terminal device, at least one remote control device, a server located at remote access and connected to each of the “N” control stations of the submersible pump installation through a communication module, each of the “N” control stations of the submersible pump installation consists of a frequency converter, a communication module and a control controller, which in turn contains a communication unit with a frequency converter, a central processor, an information storage device, a control device, as well as an exchange bus and a communication unit with a modem, the control device, in turn, includes indicators, a control panel, a frequency converter control panel, a circuit breaker, a frequency converter power control panel, and a communication module includes a modem and a communication channel, wherein the server includes a server communication module, a storage information storage unit, a processor module, a data exchange bus, the server communication module including

Description

The utility model relates to the field of oil production and can be used to analyze the operation of equipment and control oil production at remote access in real time.

The invention is known "Automated information system for continuous measurement and analysis in real time of the efficiency of pumps in the pumping and piping complex of a main oil pipeline" (RF Patent RU 2320007 C2 of 03.20.2008), which can be used to analyze the operation of main equipment oil pipeline in real time. The technical result of the invention is the measurement and analysis in real time of the current efficiency of each pump unit, information about which ensures the timely detection of possible deviations from the given operating mode of the pump units and eliminates their inefficient operation and possible emergency shutdowns. Information from the active energy meter of the currently operating pump unit in the place with the outputs from the pressure sensors at the pump inlet and at the pump outlet is submitted via a telemechanics system to the dispatch station of the oil pipeline system in the computer with a database of actual operating and consumption characteristics of the pump units calculates, for each pump unit, the active power acting on the pump shaft, the pressure developed by the pump, the flow coefficient, the volumetric flow rate, analyzes the average value with accurate data obtained in order to identify a continuous stationary mode of operation of the pumping unit for flow rate for at least four hours with flow fluctuations within three percent of the average value and calculates the average base and current value of the pump efficiency from them, the current data received is stored to the memory of a computer located at the central control center, which continuously analyzes the state of the pump and pipeline complex, for which graphs are built th flow rate and efficiency at the current operating mode of pumping units for all pumping stations for a controlled period of time, compare the data with previous values stored in the computer memory, both for each unit and adjacent pumping stations, and if these values are for any of a pump unit operating in nominal mode, less than the basic values, then a decision is made to switch the working pump unit to another with its further inspection and repair.

It is also known "Device for the operational management of the operating mode", RF Patent No. 2140524.

A device for the operational control of operating modes of electric drive pump units, comprises a system for measuring and generating control signals for electric drives of pumps, configured to sequentially interrogate wells, as well as sensors for parameters of well condition connected to the system, an electric motor shaft speed controller and switching devices configured to receive commands from the aforementioned system and designed to connect electric drives to the field network or to r an electric motor shaft speed regulator, at the same time, acoustic generation and reception units are installed at the mouth of each well, the generation unit being connected to the output of the measurement system and generating signals for controlling the electric drives of the pumps, and the receiving unit to its input.

The disadvantage of this device is that it can service the work of submersible pump units installed in a group of wells (cluster location) and cannot service the work of submersible pump units located at large distances from each other. It is also not envisaged to provide control of submersible pump units with devices located at remote access from them.

There is also a decision on the patent of the Russian Federation for utility model No. 65175 (prototype). According to this decision, a device for remote monitoring and control of technological processes is declared, including a control panel, a communication channel and a block of instrumentation for measuring the current parameters of technological objects, while the device additionally contains actuating mechanisms of stop valves and at least one controlled point, each of which includes an information transmission unit connected to a central processor unit, including a series-connected processor, a unit in water of analog signals and a digital input / output unit, an analog signal interface module block, a digital signal interface module block and a relay module block, each of the monitored points is connected by an information link via a communication channel to a control panel, the analog sensors of the instrumentation unit are connected with the block of modules for pairing analog signals, the output of which is connected to the block for inputting analog signals, discrete sensors of the block of instrumentation are connected with a block of discrete signal interface modules, the output of which is connected to a block of input / output modules of discrete signals, the output of which is connected to the input of the block of relay modules, which controls the actuators of the shutoff valves. At the same time, the block of control and measuring devices includes control and measuring devices for measuring cathodic protection parameters, pressure, temperature, current and voltage potentials, emergency, fire and security alarms in the form of analog and discrete sensors. The number of controlled points is equal to the number of remote technological objects connected to the telemechanics system. A radio channel was used as a communication channel. Wired communication lines can also be used as a communication channel.

The disadvantage of the claimed telemechanics and control device according to patent No. 65175 is the inability to control the actuators in the location of the controlled object itself, as well as the limited functions of the control device, i.e. the inability to control remotely from additional devices located remotely, except from the control panel, as well as the low reliability of the device in case of emergency failures of the control panel systems.

The technical problem solved by this utility model is the creation of a real-time oil production control device at remote access, providing continuous real-time monitoring at any given point in time, with the possibility of timely detection of deviations from the specified operating modes of any of the "N" connected to the declared mobile complex of submersible pumping units, as well as with the possibility of choosing the optimal modes of their operation as at the location of these submersible pumps software settings, as well as in any geographic location where the mobile communication and the ability to control the operation of submersible pump units may be provided. Full duplication by the device located at remote access of data coming from each of the “N” submersible pump units, which ensures the reliability of information storage for the entire life of the well.

The technical result is achieved due to the fact that the mobile complex for controlling the operating mode of submersible pump units in real time at remote access, contains "N" submersible pump units, "N" control stations for the submersible pump unit, corresponding to each submersible pump unit, a communication module, a communication system, a remote control device, and each control station of a submersible pump installation contains a communication unit with a frequency converter and, accordingly, with a submersible pump with a central processor, a modem communication unit, while the device additionally contains at least one user terminal device, at least one remote control device, a server located at remote access and connected to each of the “N” control stations of the submersible pump installation through the module communication, and each of the "N" control stations of the submersible pump installation consists of a frequency converter, a communication module and a control controller, which, in turn, contains a communication unit with converter, a central processor, an information storage device, a control device, as well as an exchange bus and a modem communication unit, the control device, in turn, includes indicators, a control panel, a frequency converter control panel, a circuit breaker, a frequency converter power control panel, and the communication module includes a modem and a communication channel, while the server includes a server communication module, a storage information storage unit, a processor module, a data exchange bus, and a communication module and the server includes the server’s communication channel and the signal reception and transmission unit, while the processor module includes the operational information storage unit and the processor, the Internet is used as the communication system, and for each of the “N” control stations of the submersible pump installation, the three-phase circuit output is connected to the input a frequency converter, the first input-output of which is connected to a submersible pump installation, and the second input-output is connected to the first input-output of the communication unit with the frequency converter of the control controller, its W With the input / output interface, the communication unit with the frequency converter is connected to the data exchange bus, to which the central processor, the information storage device, the control device, and the communication bus, are in turn connected with their first input / output, and the communication unit with a modem, the second input-output of which is connected to the first input-output of the modem of the communication module, while the second input-output of the modem is connected to the first input-output of the communication channel, the second input-output of which is connected to the Internet, with which its first inputs the user devices are connected with the outputs, the control device is connected with its first input-output, the server is connected with the first inputs and outputs, the server communication module is the first input-output of the communication channel of the server, the second input-output of which is connected with the second input-output of the remote control device, and the third input-output communication channel of the server is connected to the second input-output of the terminal devices of the user, while the fourth input-output of the communication channel of the server is connected to the first input-output of the signal transmission receiving unit, the second one with its second input-output is connected to the data exchange bus, with which the storage information storage unit is also connected with its first input-output, the second input-output of which is connected to the server communication channel, while the third input of the storage information storage unit is connected with the first input - the output of the operational information storage unit of the processor module, the second input-output of the operational information storage unit is connected to the first input-output of the processor, the second input-output of which is connected to the data exchange bus.

The claimed mobile complex control mode of operation of submersible pump units in real time at a remote access is illustrated by the drawing, where

figure 1 shows a functional diagram of a mobile complex for controlling the operating mode of submersible pump units in real time at remote access.

The real-time mobile complex for controlling the operating mode of submersible pump units in remote access includes “N” submersible pump units 1, “N” control stations for submersible pump units 2, each corresponding to its own submersible pump unit 1, and the communication system is Internet 3, located on remote access: server 4, remote control device 5, user terminal 6, the number of which can be an unlimited number. It can be either data visualization devices or mobile communication devices.

Each of the “N” control stations of the submersible pump installation 2 contains a frequency converter 7, a control controller 8, a communication module 9. The control controller 8 contains a communication unit with a frequency converter 10, a central processor 11, an information storage device 12, a control device 13, a communication unit with a modem 14 connected to the exchange bus 15. The control device 13 includes indicators 16, a control panel 17, a control panel of the frequency converter 18, a circuit breaker 19, a power control panel of the frequency the forming unit 20. The connection 9 comprises a modem 21, communication channel 22.

The server 4 contains a processor module 23, a storage information storage unit 24, a communication module of a server 25, all are connected to a data exchange bus 26. A processor module 23 contains a operational information storage unit 27, a processor 28. The communication module of a server 25 contains a communication channel of a server 29, a reception unit - signal transmission 30.

Appointment of devices and blocks.

Submersible pumping unit 1 is an electric centrifugal pump for the operation of oil wells.

The control station of the submersible pump installation 2 can be used for low-production wells, wells of an unstable and complicated stock, or high-production wells with complicated inflow. The control station of the submersible pump installation 2 is made on the basis of the frequency converter 7 and provides the optimal operating mode of the well by selecting the optimal speed of the submersible pump installation 1 in accordance with the specified control algorithm.

The frequency converter 7 in addition to the function of converting a three-phase voltage from a three-phase network with a frequency of 50 hertz to a three-phase voltage, the required frequency in the range from 0 to 70 hertz, is also a means of measuring all the necessary parameters characterizing the operation of a submersible pump installation 1. In particular, these include voltage, current, torque on the motor shaft, output frequency, power consumption, and others. All measurements are made in real time and are available for reading both on the control device 13 of the control controller 8 for the submersible pump unit 2 submersible pump unit 1 operated by this control station, and on remote access devices, i.e. terminal devices of user 6, as well as remote control devices 5, on which information can be obtained from any of the “N” submersible pump units 1.

The control controller 8, being an integral part of the control station of a submersible pump installation 2, controls the operation of the frequency converter 7 in accordance with a predetermined algorithm for changing the rotational speed of the submersible pump installation 1 and organizes the information flow of data both to all blocks of the control controller 8 and through the module Communication 9, Internet 3, transmits information to remote access devices: server 4, remote control device 5, user terminal devices 6.

The Central processor 11 organizes the interaction between all the blocks of the control controller 8 through the exchange bus 15.

The information storage device 12 is intended for both temporary storage of data coming from the actuator 1, storage of predetermined parameters and settings - operation algorithms necessary for controlling the frequency converter 7, and for storing operational information.

The information storage device 12 contains program memory for implementing the algorithm of the operation of the control station of a submersible pump installation.

The communication unit with the frequency converter 10 supports continuous data exchange between the control controller 8 and the frequency converter 7, taking the current parameters and transmitting commands and settings to the frequency converter 7.

The control device 13 refers to the local control of the "N" -th control station of a submersible pump installation 2 "N" -th submersible pump installation 1 and is intended to issue control commands to the frequency converter 7 and change its parameters and settings. The control device 13 contains indicators 16, a control panel 17, a control panel of the frequency converter 18, a circuit breaker 19 and a power control panel of the frequency converter 20. Indicators 16 inform about the state in which the control station of the submersible pump unit 2 is located - “operation”, “” stop ”and others. Control panel - This is the operator’s touch control panel to control the settings of the operating modes of the submersible pump installation control station 2. Control panel of the frequency converter 18 s With its help, all the settings of the frequency converter 7 and control over its operation are performed. The circuit breaker 19 is the control of the on-off socket of the control station of the submersible pump unit 2 and its lighting. The power control panel of the frequency Converter 20 is the power management of the frequency Converter 7.

The communication unit with the modem 14 organizes the data flow to the communication module 9 through the modem 21, communication channel 22, Internet 3 to remote access devices: server 4, remote control device 5, terminal devices of user 6.

Server 4 is designed to collect and store the data stream from the control station of the submersible pump installation 2 and convert the received information, as well as to maintain databases for each control station of the submersible pump installation 2, the submersible pump installation 1, namely, to collect and store operational and cumulative information for each of the “N” pumping units 1.

Server 4 includes a server communication module 25, a processor module 23, a storage information storage unit 24, while all devices are connected to each other via a data exchange bus. The processor module 24, in turn, includes a processor 28 and an operational information storage unit 27, and a communication module of a server 25 includes a communication channel of a server 29 and a signal receiving-transmitting channel 30.

Autonomous device for collecting and storing data 8 includes a central processor of the device for collecting and storing information 23, a data storage unit 24, a unit for collecting and storing operational information 25, a communication unit with a communication channel 21, connected by a data bus of the data collecting and storage device 22.

Remote control device 5 is designed to present data on the operation of a submersible pump unit 1 in a form convenient for the operator, usually in the form of graphs, allowing the operator to quickly analyze the nature of changes in the operation of the submersible pump unit 1 and, if necessary, take appropriate measures.

As the terminal devices of user 6 can be used any computer device equipped with a means of communication with the Internet and having means for graphically displaying information, or a mobile communication device, which is used to receive text messages and connected to the Internet system, such as a cell phone.

In the mobile complex for controlling the operating mode of submersible pump units in real time at remote access for each of the "N" submersible pump unit control stations 2, the output of the three-phase circuit is connected to the input of the frequency converter 7, the first input-output of which is connected to the submersible pump unit 1, and the second input-output of the frequency converter 7 is connected to the first input-output of the communication unit with the frequency converter 10 of the control controller 8, its second input-output communication unit with a frequency converter The user 10 is connected to the data exchange bus 15, to which the central processor 11, the information storage device 12, the control device 13, the inputs and outputs of the devices included in it: indicators 16, the control panel 17, the control panel of the frequency converter 18 are also connected with their inputs / outputs , circuit breaker 19, power control panel of the frequency converter 20. With the exchange bus, in turn, a communication unit with a modem 14 is connected to its first input-output, the second input-output of which is connected to the first input-output of the modem 21 of the communication module 9. The second input-output of the modem 21 is connected to the first input-output of the communication channel 22, the second input-output of which is connected to the Internet 3. The user devices 6 are connected to the Internet with their first inputs and outputs, their first input-output is connected control device 5, the first inputs / outputs are connected to the server 4 by the first input-output of the communication channel of the server 29 of the communication module of the server 25, the second input-output of which is connected to the second input-output of the remote control device 5, and the third input-output of the communication channel of the server 29 It is connected with the second inputs and outputs of the terminal devices of the user 6. In this case, the fourth input-output of the communication channel of the server 29 is connected to the first input-output of the signal transmission receiving unit 30, which is connected with its second input-output to the data exchange bus 26, which is also connected the first input-output unit for storing storage information 24, the second input-output of which is connected to the communication channel of the server 29. The third input of the unit for storing information 24 is connected to the first input-output unit for storing operational information 27 processor th module 23, and the second input-output line information storage unit 27 is connected to the first input-output processor 28, the second input-output of which is connected to the bus 26, the data exchange.

Description of the operation of the device.

Each of the “N” control stations of the submersible pump installation 2 cyclically with a given period receives data from the submersible pump installation 1. For this, the central processor 11 of the control controller 8 sends a signal via the data exchange bus 15 and the communication unit with the frequency converter 10 to the frequency converter 7 to request for current data. The frequency converter 7 sends a response signal containing the current data received from the submersible pump unit 1 to the communication unit with the frequency converter 10, the exchange bus 15 and enters the information storage device 12. Next, the signal from the information storage unit 12 through the exchange bus 15, block communication with the modem 14, the communication module 9, via the Internet 3 enters the server 4 through the communication module of the server 25 to the storage unit 24 and the storage unit of operational information 27 via the data exchange 26. In necessary cases, the process litter 28 of server 4 sends a signal to terminal devices 6 and remote control device 5 through the communication channel of server 29 directly, or through the communication channel of server 29 and the Internet 3 in the form of messages when surgical intervention is required, for example, stopping a submersible pump installation 1. Terminal devices user 6 and the remote control device 5 are designed to monitor the operation of the submersible pump installation 1 and reflect all the parameters characterizing the operation of the submersible pump installation 1. This is current, voltage, pilots at, the time the motor submersible pump assembly, the liquid level above the submersible pump shaft, flow rate, bottom hole pressure at the location of the submersible pump, reservoir temperature, engine temperature submersible pump assembly and another. Data can be presented both in real time and for any given period of time.

To request the necessary data, the operator from the remote control device 5 selects the necessary number from the "N" numbers of the submersible pump unit 1 and, accordingly, the "N" station of the submersible pump installation control, which is part of the real-time submersible pump installation mobile control complex, then it sends a signal and sets the necessary time interval for data analysis through the Internet 3, the communication module 9 to the communication unit with the modem 14 to the central processor 11 of the control controller. The central processor decrypts the signal based on the available data stored in the information storage device 12 which is communicated through the exchange bus 15, then generates a response signal and sends it back through the communication unit with the modem 14, communication module 9, Internet 3 to the remote control device 5.

The remote control device 5 is autonomous and is designed to remotely control any and “N” submersible pump unit 1, change the parameters and settings of the submersible pump unit 1, allows the operator to access at any time to any of the “N” submersible pump units 1 of any geographical point in the Internet coverage area 3. The operator, if necessary, change the settings and operation parameters of the submersible pump unit 1, sets in the remote control device: at which control station the load pump installation 2 and which parameters should be changed, the remote control device 5 sends a signal via the Internet 3, the communication module 9, the communication unit with the modem 14 via the data exchange bus to the central processor 11 of the control controller 8. The central processor 11 sends a signal via the bus exchange 15 to the information storage device 12 for measuring control parameters; also, if necessary, sends a signal to the frequency converter 7 through a communication unit with the frequency converter 10 to change the settings of the submersible pine installation 1. After changing the settings, the frequency converter 7 sends an affirmative signal through the communication unit with the frequency converter 10 exchange bus 15 to the Central processor 7. The Central processor 11 after receiving an affirmative signal sends a signal via the exchange bus 15 to the information storage device 12 and also an affirmative signal via the exchange bus 15, the communication unit with the modem 14, the communication module 9, Internet 3, the communication module of the server 25, through the data exchange bus 26 to the storage unit for storage information 24, to the processor 28 and b approx operational information storage 27. The processor 28 sends a signal through positive bus data exchange unit 30 receiving the signal transmission channel is the communication server 29 to the remote control device 5.

Thus, the mobile complex for controlling the operating mode of submersible pump units in real time at a remote access can perform the following functions:

1. Collection of data on the operation of all "N" control stations of the submersible pump unit 2, and, consequently, the "N" submersible pump units 1 in real time and their storage.

2. Management of "N" control stations of the submersible pump installation 2, changing the main parameters, stopping, starting the submersible pump installation 1, which is carried out by operators from any geographical point without reference to the location.

3. Maintaining statistics of stops and warning operators through, for example, CMC from user terminals 6.

4. Monitoring the operation of the “N” control stations of the submersible pumping unit 2, displaying on remote devices, namely on the user's terminal devices 6, remote control devices 5, information in graphical form, alarm if there is a malfunction, viewing statistics for any period saved on server. A special program analyzes and records and stores data for an unlimited period of time, from the moment the control station of the submersible pump installation is launched.

5. Each individual control station of the submersible pump installation 2 operates independently of any of the “N” control stations of the submersible pump installation 2, thus, the operation of the submersible pump installation 1 can be controlled both remotely and directly by the operator at the location of this control station of a submersible pump installation 2, using a control device including indicators 16, a control panel 17, a control panel of the frequency converter 18, automatic off yuchatel 19, power control panel of the frequency converter 20, providing the operator visualization of the submersible pump unit 1 and the sensor and mechanical control of operating modes.

Examples of device implementation.

The frequency converter 7 can be of any type, equipped with means for measuring and calculating the necessary parameters, such as frequency, current, torque on the motor shaft, power consumption, and others. For example, the frequency converter from ABB ACS800-1 f7b42.aspx? ProductLanguage = us & country = RU

Control controller 8 can be of any type equipped with Internet communications, for example, Simatic S7-200 with central processor 11 - CPU226 .dll? Func = cslib.csinfo & nodeid0 = 10805245 & lanq = en & siteid = cseus & aktprim = 0 & extranet = standard & viewreg = WW & objid = 10805150 & treeang.

As a modem 21, for example, GSM / GPRS Modem MD720-3 is used, with the ANT794-MR .dll? Transceiver antenna? Func = cslib.csinfo & nodeid0 = 10805245 & lang = en & siteid = cseus & aktprim = 0 & extranet = standard & viewreg = WW & objid = 2828.

Remote control device 5 and server 4 are any computer devices, any IBM compatible computer equipped with Internet connection, a display and keyboard, and equipped with disk memory for long-term data storage.

The terminal device of user 6 is any computer device equipped with means of communication with the Internet and having means for graphically displaying information, or a mobile communication device that is used to receive text messages and connected to the Internet system — for example, a cell phone.

All devices used to create a mobile complex are manufactured by industry.

Server 5 includes software such as Apache and PHP5. This software is designed to run the “WEB - Well Monitoring Program”. The hardware is built on the basis of, for example, HPProLiant servers running WindowsServer 2008

The operation of all units and devices included in the inventive mobile complex is ensured by a special well monitoring program and provides operators and service companies with monitoring and research of the operation of any of the “N” control stations of submersible pumping unit 2 and submersible pumping unit 1. Thus, monitoring is provided at any time, or obtaining data for any period of time of operation of any of the "N" control stations of the submersible pump unit 2 and the submersible pump unit 1.

Thus, the claimed device implements the control of all "N" control stations of the submersible pump unit 2 at remote access in real time.

All of the above confirms the industrial applicability of the claimed device, as well as the fulfillment of the technical task, namely, the creation of a real-time oil production control device for remote access, providing continuous real-time monitoring at any given point in time, with the possibility of timely detection of deviations from the set operating modes of any of the "N" connected to the claimed mobile complex of submersible pumping units, as well as with the option of pa optimal modes of their operation both at the location of the submersible pumping units, and in any geographic location where the mobile communication and the ability to control the operation of submersible pump units may be provided. Full duplication by the server 4, located at remote access of the data coming from each of the “N” submersible pump units 1 and the control stations of the submersible pump unit 2, ensures the reliability of information storage for the entire life of the well.

Claims (1)

A mobile complex for controlling the operating mode of submersible pump units in real time at a remote access, containing “N” submersible pump units, “N” submersible pump unit control stations corresponding to each submersible pump unit, a communication module, a communication system, a remote control device, each control station of a submersible pump installation contains a communication unit with a frequency converter and, accordingly, with a submersible pump installation, a central processor, a communication unit with a modem characterized in that the mobile complex additionally contains at least one user terminal device, at least one remote control device, a server located at remote access and connected to each of the “N” control stations of the submersible pump installation through a communication module, each of which is “N” of control stations submersible pump installation consists of a frequency converter, a communication module and a control controller, which in turn contains a communication unit with a frequency converter, a central processor, a device In order to store information, a control device, as well as an exchange bus and a modem communication unit, the control device, in turn, includes indicators, a control panel, a frequency converter control panel, a circuit breaker, a frequency converter power control panel, and a communication module includes a modem and a communication channel wherein the server includes a server communication module, a storage information storage unit, a processor module, a data exchange bus, the server communication module including a server communication channel and a receiving unit a-signal transmission, and the processor module includes an operational information storage unit and a processor, the Internet is used as a communication system, and for each of the “N” control stations of a submersible pump installation, the output of the three-phase circuit is connected to the input of the frequency converter, the first input-output of which connected to a submersible pump installation, and the second input-output connected to the first input-output of the communication unit with the frequency converter of the control controller, its second input-output communication unit with the frequency converter the lem is connected to the data exchange bus, to which the central processor, the information storage device, the control device are also connected via its inputs / outputs, the communication unit with the modem, in turn, is connected to the exchange bus by its first input-output, the second input-output of which is connected to the first the modem input-output of the communication module, while the second input-output of the modem is connected to the first input-output of the communication channel, the second input-output of which is connected to the Internet, to which the user's terminal devices are connected with their first inputs and outputs, the control device is connected with the first input-output, the server is connected with the first inputs and outputs, the server communication module of the server communication channel is the first input-output, the second input-output of which is connected to the second input-output of the remote control device, and the server communication channel is the third input-output connected to the second input-output terminals of the user devices, while the fourth input-output of the server communication channel is connected to the first input-output of the signal transmission receiving unit, which is connected to the exchange bus d by its second input-output data, which is also associated with its first input-output unit for storing information, the second input-output of which is connected to the communication channel of the server, while the third input of the unit for storing information is connected with the first input-output unit for storing operational information of the processor module, the second the input-output of the operational information storage unit is connected to the first input-output of the processor, the second input-output of which is connected to the data exchange bus.

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