RU2304336C1 - Station of automated control of electric power supply network - Google Patents

Abstract

FIELD: antitrouble control of electrical equipment and control of power flows in electric power supply networks.

SUBSTANCE: the station of automated control of electric power supply network has an automated controller's position composed of the central processor module, main and two auxiliary monitors, graphic manipulator, keyboard, printer, information processing unit, collective use panel, navigation receiver and a control unit, switchboard unit, communication panel, switchboard, VHF radio set with a receiver, feeder and an antenna, HF radio set with an antenna, information exchange device, data transmission equipment, operational communication equipment, power input unit with two AC external network channels connected to it, long-range communication adapter, lines input unit, long-range communication channels, connecting lines, customers service communication lines, automated manager's position comprising a central processor module, main and auxiliary monitors, graphic manipulator, keyboard, information processing unit, laser range finder and a control unit, as well as remote automated operator's positions.

EFFECT: enhanced efficiency of functioning and provided trouble-free operation of the electric power supply network.

4 cl, 4 dwg

Description

The point of automated control of the power supply network relates to the field facilities control technique and can be used for centralized emergency control of electrical equipment and regulation of power flows in power supply networks.

The power supply of consumers in the field is determined by the reliability of the power supply stations, largely depends on the organization of their correct operation and the possibility of ensuring the interaction of existing power plants with each other. Improved operational efficiency is also facilitated by well-established management of the power supply network.

Currently, there are various systems for managing power supply networks, including non-automated and automated control systems. For those and other control systems, the presence of a control body and a managed object, as well as an environment for transmitting information between the control body and the managed object, is characteristic. As a transmission medium, physical lines, communication channels and power circuits of power supply networks can be used.

Known power systems with fail-safe control devices incorporating generators, output power buses, power controllers, contactors and microprocessor control units, as well as devices for regulating power flows in a ring network [1, 2].

Known systems have insufficient reliability and cases of occurrence of "chain" emergency situations are not excluded in them, especially when operating in field sharply changing operating conditions (weather, physical and geographical conditions, as well as during negative deliberate environmental influences).

There is also an autonomous regulatory system that provides selective control of the supply of electricity to a group of loads. In such a system there is a device connected to each of the loads and generating control signals used to control the supply and disconnection of each of the loads [3].

Closest to the technical nature of the present invention is a control point, the composition and block diagram of which are given in [4].

A well-known control center comprises a control panel, a communication panel, operational communication equipment, display equipment, command input equipment, data transmission equipment, an electronic computer (computer), data transmission channels and telephone communication channels [4].

This control point with the help of data transmission equipment ensures the reception of information from a managed object via communication channels and its transmission to a computer. As a result of processing and analysis of information in a computer, data is issued to display the situation, and commands are also generated that are transmitted through the ADF via a communication channel to a managed object. If necessary, the operator using operational communications equipment clarifies the situation at the managed facility.

The disadvantages of the known control center are the limited ability to collect and display information from a managed facility and the low efficiency of its work.

The aim of the invention is to increase the efficiency of operation and ensure trouble-free operation of the power supply network.

This goal is achieved by the fact that at the point of automated control of the power supply network, comprising a control panel, a communication panel, operational communications equipment, data transmission equipment, a personal electronic computer, data transmission channels and telephone communication channels, a dispatcher workstation has been introduced, including central processor module, main monitor, graphic manipulator, keyboard, printer, information processing unit, first and second auxiliary monitors, t a collective use unit, a navigation receiver and the said control panel, as well as a switching unit, a switch, an ultra-short-wave radio station with a receiver, a feeder device and an antenna, a short-wave radio station with an antenna, an information exchange device, a long-distance communication adapter, a power input unit with the first connected to it and the second channels of the external AC network, a line input unit with connected connecting lines and subscriber lines of service communication, an automated working the place of the head of the network, including the aforementioned personal electronic computer, made in the form of a central processor module, a main monitor, a graphic manipulator, a keyboard, an information processing unit, an auxiliary monitor and a laser range finder, n remote operator workstations, the first inputs being the outputs of the switching unit through the switch are connected to the inputs / outputs of the communication panel, the second inputs and outputs of the switching unit are connected to the station side of the ultra-short-wave rad the remainder connected to the receiver, and the inputs and outputs of the high-frequency part of the ultra-short-wave radio station are connected to the antenna through a feeder device, the third inputs and outputs of the switching unit are connected to the station side of the short-wave radio station, the high-frequency part of which is connected to the antenna, the first, second, third and fourth inputs the outputs of the central processor module of the dispatcher workstation by means of controllers are connected to the inputs and outputs of the main monitor, respectively manipulator, keyboard and printer, the fifth inputs and outputs of the central processor module are connected via the RS-485 interface to the information inputs and outputs of the information processing unit, the first, second and third inputs and outputs of which are connected to the inputs and outputs of the first and second auxiliary monitors and a panel of collective use, the information input-output of the navigation receiver is connected to the sixth input-output of the central processor module, the second information input-output which, through the RS-485 interface, is connected to the inputs / outputs of the information exchange device, the linear inputs / outputs of which are connected to the fourth inputs and outputs of the switching unit, whose fifth inputs and outputs are connected via the RS-232C interface to the inputs and outputs of the control panel of the dispatcher workstation , the first linear inputs and outputs of the switching unit through the operational communications equipment are connected to the first linear inputs and outputs of the power input unit, the second linear inputs and outputs of which are through the equipment data transmission is connected to the second information inputs-outputs of the information exchange device, the second line inputs and outputs of the switching unit are connected to the first station inputs and outputs of the line input unit, to which remote automated workstations of operators installed in power plants are connected via subscriber line service communications having automation, the second station inputs and outputs of the line input unit are connected to the linear inputs and outputs of the long-distance adapter, the first, second and third inputs the odes-outputs of the central processor module of the workstation of the network head by means of controllers are connected to the inputs and outputs of the main monitor, graphic manipulator and keyboard, the fourth inputs and outputs of the central processor module via the RS-485 interface are connected to the information inputs and outputs of the information processing unit connected at the junction of RS-232 with an auxiliary monitor, the modules of the central processors of the workstation of the dispatcher and the head of the network interconnected via the RS-232 interface, the information inputs and outputs of the laser rangefinder are connected to the fifth inputs and outputs of the central processor module of the workstation of the network head, the information inputs and outputs of which are connected to the information inputs and outputs of the long-distance adapter, and the information inputs - the outputs of the control panel of the automated workstation of the head of the network at the RS-232C interface are connected to the sixth inputs and outputs of the switching unit.

This goal is achieved in that the switching unit comprises a connection block for external devices, a switching field unit and a subscriber set unit, a channel selector and a control unit, the third inputs and outputs of a switching field unit connected to the first inputs and outputs of the channel selector, the first, second, third and fourth control inputs and outputs of the control unit are connected to the control inputs and outputs, respectively, of the external device connection unit, the switching unit an ion field, a subscriber unit block and a channel selector, wherein the first, second and third inputs / outputs of the subscriber unit block are the first, second and third inputs and outputs of the switching unit, the fourth inputs and outputs of which are the second inputs and outputs of the channel selector, the first and the second linear inputs and outputs of the switching unit are, respectively, the fourth and fifth inputs and outputs of the subscriber unit block, the fifth and sixth inputs and outputs of the switching unit are, respectively, the first and orye input-output connection unit external devices via interfaces on which joints RS-232C are connected to the inputs-outputs respectively controls of workstations and the head controller power supply network.

This goal is also achieved by the fact that the remote automated workstation of the operator contains a matching unit sequentially connected at the inputs and outputs, a long-distance communication adapter and a central processor module, a signal receiving unit, a monitor, a keyboard and a control command generating unit, the first, second, third, the fourth and fifth inputs and outputs of the central processor module are connected to the inputs and outputs of the long-distance adapter, signal receiving unit, monitor, keyboards via the RS-232 interface interface s and the control command generation unit, the outputs of which are connected to the inputs of the executive devices of the functional technological systems of the power supply stations, the inputs of the signal receiving block are connected to the outputs of the sensors and control circuits of the functional technological systems of the power supply stations, while the second inputs and outputs of the matching unit are the inputs and outputs of each from n remote automated workstations of the operator, which are connected via modem interface to the inputs / outputs of the corresponding subscriber ii intercom.

A comparative analysis with the prototype shows that the proposed point of automated control of the power supply network is distinguished by the presence of new units: an automated workstation for the dispatcher as part of the central processor module, the main and two auxiliary monitors, a graphic manipulator, a keyboard, a printer, an information processing unit, a collective use panel, and a navigation receiver and control panel, switching unit, switch, ultra-short-wave radio station with receiver, feed a device and an antenna, a short-wave radio station with an antenna, an information exchange device, a long-distance communication adapter, a power input unit with two AC mains connected to it, a line input unit with long-distance communication channels connected to it, connecting lines and subscriber service communication lines, automated workstation of the operator as part of the central processor module, primary and secondary monitors, graphic manipulator, keyboard and laser rangefinder, n remote av omatizirovannyh operator workstations installed in power plants that do not have the control automation equipment, as well as their connections with the rest of the circuit.

Thus, the claimed point of automated control of the power supply network meets the criteria of the invention of "novelty." Comparison of the proposed solution with other technical solutions shows that the devices and units newly introduced into the proposed automated control point are realizable to specialists in this field of technology and additional creativity, given the explanations below, it is not required to reproduce them.

This solution is significantly different from those known in the art. The claimed solution explicitly does not follow from the prior art and has an inventive step.

This allows us to conclude that the technical solution meets the criterion of "significant differences"

The claimed solution can be implemented using existing equipment, instruments and devices used in electrical and computer engineering, and is industrially applicable.

Figure 1 presents the structural electrical diagram of the proposed point of automated control of the power supply network; figure 2 and 3 shows the structural diagrams of the switching unit and the remote workstation of the operator, figure 4 shows a General view of the point of automated control of the power supply network.

Item automated control of the power supply network (see figure 1) contains the automated workstation 1 dispatcher (ARM-D) as part of the module of the central processor 2, the main monitor 3, the graphic manipulator 4, keyboard 5, printer 6, information processing unit 7, the first 8 and second 9 auxiliary monitors, a collective display 10, a navigation receiver 11 and a control panel 12, a switching unit 13, a switch 14, a communication panel 15, an ultra-short-wave radio station 16 with an ultra-short-wave receiver 17, a feed device 18 and antenna 19, shortwave radio station 20 with antenna 21, information exchange device 22, data transmission equipment 23, operating on power circuits of an external AC network, operational communications equipment 24, working on power circuits of an external AC network, power input unit 25, first 26 and second 27 channels of an external AC network, long-distance communication adapter 28, input unit of lines 29, long-distance communication channels 30, communication communication lines 31 and subscriber lines 32 service communication networks, workstation 33 chief of the power network (ARM-NS) as part of the central processor module 34, the graphic manipulator 35, the main monitor 36, the keyboard 37, the information processing unit 38, the auxiliary monitor 39, the laser range finder 40 and the control panel 41, n remote 42 workstations ( 42 ₁ -42 _n ) installed in power plants that do not have automation controls.

The switching unit 13 comprises (see FIG. 2) an external device connection unit 43, a switching field unit 44, a subscriber unit unit 45, a channel selector 46 and a control unit 47.

The remote workstation 42 of the operator contains (see FIG. 3) a matching unit 48, a long-distance communication adapter 49, a central processing unit 50, a signal receiving unit 51, a monitor 52, a keyboard 53 and a control command generation unit 54.

Figure 4 shows the appearance of the point of automated control of the power supply network, the equipment of which is located in an all-metal box body 55 on the chassis of an off-road vehicle 56.

The first, second, third and fourth inputs and outputs of the central processor module 2 of the dispatcher workstation 1 are connected by controllers to the inputs and outputs of the main monitor 3, graphic manipulator 4, keyboard 5 and printer 6, and the fifth inputs and outputs of the central processor module 2 by the RS-485 interface is connected to the information inputs and outputs of the information processing unit 7, the first, second and third inputs and outputs of which are connected to the inputs-outputs by means of corresponding controllers Am first 8 and second 9 and auxiliary monitors shared board 10, an information input-output navigation receiver 11 is connected to a sixth input-output module of the CPU 2.

The first inputs and outputs of the switching unit 13 through the switch 14 are connected to the inputs and outputs of the communication panel 15, the second inputs and outputs of the switching unit 13 are connected to the station side of the ultra-short-wave radio station 16 connected to the receiver 17, and the inputs and outputs of the high-frequency part of the ultra-short-wave radio station 16 through the feeder the device 18 is connected to the antenna 19, the third inputs and outputs of the switching unit 13 are connected to the station side of the short-wave radio station 20, the high-frequency part of which is connected to the antenna 21.

The second information inputs and outputs of the module of the central processor 2 of the dispatcher workstation 1 are connected via the RS-485 interface to the inputs and outputs of the information exchange device 22, the linear inputs and outputs of which are connected to the fourth inputs and outputs of the switching unit 13, whose fifth inputs and outputs are RS-232C interface connected to the inputs and outputs of the control panel 12 of the workstation 1 dispatcher.

The first linear inputs and outputs of the switching unit 13 through the operational communications equipment 24 are connected to the first linear inputs and outputs of the power input unit 25, the second linear inputs and outputs of which are connected via the data transmission equipment 23 to the second information inputs and outputs of the information exchange device 22. First 26 and the second 27 channels of the external AC network are connected to the power input unit 25. The second line inputs and outputs of the switching unit 13 are connected to the first station inputs and outputs of the line input unit 29, the second lation inputs-outputs of which are connected to linear inputs and outputs of the long-distance adapter 28. Long-distance communication channels 30, connecting lines 31 and subscriber lines 32 of the service communication are connected to the connectors of the line input unit 29.

The first, second and third inputs and outputs of the module of the central processor 34 of the workstation 33 of the network head are connected via controllers to the inputs and outputs of the main monitor 35, the graphic manipulator 36 and the keyboard 37, and the fourth inputs and outputs of the central processor module 34 via the RS- interface 485 connected to the information inputs and outputs of the information processing unit 38, connected at the RS-232 interface with the auxiliary monitor 35. Modules 2 and 34 of the central processors of automated work about places 1 of the dispatcher and the head of the network 33 are interconnected via an interface at the RS-232 interface, the information inputs and outputs of the laser range finder 40 are connected to the fifth inputs and outputs of the module of the central processor 34 of the automated workstation 33 of the network head, the information inputs and outputs of which are connected to information inputs and outputs of the long-distance adapter 28, and information inputs and outputs of the control panel 41 of the workstation 34 of the network head at the RS-232C interface are connected to the sixth inputs and outputs b eye switching 13.

Each of n remote automated workstations 42 of the operator is connected to the corresponding subscriber line 32 intercom.

The first inputs and outputs of the unit for connecting external devices 43 of the switching unit 13 are connected to the first inputs and outputs of the switching field unit 44, the second inputs and outputs of which are connected to the station inputs and outputs of the subscriber unit unit 45, and the third inputs and outputs of the switching field unit 44 are connected to the first inputs and outputs of the channel selector 46, the first, second, third and fourth control inputs and outputs of the control unit 47 are connected to the control inputs and outputs of the external device connection unit 43, respectively and the switching field 44, the block of subscriber sets 45 and the channel selector 46, while the first, second and third inputs and outputs of the block of subscriber sets 45 are connected respectively to the inputs and outputs of the switch 14, to the station side of the ultra-short-wave radio station 16 and short-wave radio station 20, the fourth inputs the outputs of the block of subscriber kits 45 are connected to the station side of the operational communications equipment 24, and its fifth inputs and outputs are connected to the first station inputs and outputs of the line input unit 29. Second inputs the outputs of the channel switch 46 are connected to the linear inputs and outputs of the information exchange device 22, and the second and third inputs and outputs of the external device connection unit 43 are connected via RS-232C joints with the information inputs and outputs of the control panel 12 of the automated workstation 1 of the dispatcher and the remote control Management 41 workstations 33 network chiefs.

The first inputs and outputs of the matching unit 48 of each remote workstation 42 of the operator (electromechanics) are connected to the linear inputs and outputs of the long-distance adapter 49, the station inputs and outputs of which are connected via the RS-232 interface interface to the first inputs and outputs of the central processing unit 50, the second, third, fourth and fifth inputs and outputs of which are connected via the RS-232 interface interface to the inputs and outputs of the signal receiving unit 51, monitor 52, keyboard 53, and control command generating unit 54, respectively, the outputs of which are connected to the inputs of the executive devices of the functional technological systems of the power stations, the inputs of the signal receiving unit 51 are connected to the outputs of the sensors and control circuits of the functional technological systems of the power stations, and the second inputs and outputs of the matching unit 48 of each of the n remote workstations 42 of the modem operator the joint is connected to the inputs and outputs of the corresponding subscriber line 32 intercom.

The automated workstation 1 of the dispatcher is intended for the operational management of the power supply network. At the same time, the module of the central processor 2 performs the functions of receiving, processing, and displaying information about the processes of managing the power supply network, including performing the functions of monitoring the current technical state of the electrical equipment of the network, ensuring trouble-free operation, and monitoring the deployment and collapse of network elements. Module 2 provides the connection of the following external devices: a main monitor 3 in SVGA standard, a hard disk drive (HDD) via an EIDE interface, a standard AT keyboard, two external devices via an RS-232-C interface, an external device via an LPT interface and an external flexible magnetic storage device disk (HDD). The module also contains a watchdog timer that provides a reboot (cold restart) of the module in the event of a user program freeze. The timer response time is set programmatically.

As a module of the central processor 2, a typical electronic computer VM-2401 or a board with an Intel microprocessor can be used [5, 6].

The main 3, the first 8 and second 9 auxiliary monitors, a collective display 10 are used to display information coming from the central processor unit 2 and the information processing unit 7. At the same time, operational information is displayed on the main monitor 3, the structure is shown on the first auxiliary monitor 8 power supply network, the second auxiliary monitor 9 shows the characteristics of the power supply network, and the collective display 10 shows a diagram of the power supply network with its elements to the geographical map.

As the main monitor 3, the first 8 and second 9 auxiliary monitors, a collective use panel 10, digital liquid crystal monitors of the VMTS-38ZhK type can be used.

The graphic manipulator 4 and keyboard 5 are intended for manual input of network management information into the central processor 2, and printer 6 is intended for printing the results of monitoring the power supply network. These graphic manipulator 4, keyboard 5 and printer 6 are typical and can be used from the composition of a typical electronic computer VM-2401, as well as other means of computer technology [6].

The central processor module 2 together with the information processing unit 7 are intended for processing information circulating in the power supply network management system, storing and issuing the necessary data to the channels and communication lines to the controlled objects (power plants) and to the control center of the higher-level system.

The control panel 12 of the automated workstation 1 of the dispatcher and the control panel 41 of the automated workplace 33 of the head of the network, as well as the communication panel 15 together with the switching unit 13 and the switch 14, are intended for organizing telephone communication channels, transmitting data and collecting data on the state of elements through them power supply networks and transmission of control commands by telephone.

The control panels 12, 41 and the communication panel 15 comprise intercoms and call devices, a typical typewriter keyboard of the decade system and devices for displaying information on the front panel. The control panels provide control of the operating modes of the channels and lines connected to the switching unit 13, and the ability to work on them from two workplaces using handsets (MT) or loud speaker devices (GHS).

These consoles 12, 41 and 15 can be made in accordance with the description of the invention according to the patent of the Russian Federation No. 2132596.

An ultra-short-wave radio station 16 with a receiver 17, a feeder device 18 and an antenna 19 is intended for the formation of a duplex VHF radio channel and the possibility of transmitting control commands and collecting data on the state of the electrical equipment of the power supply network over it, which are located at a considerable distance from the automated control center. As such a station, the 2RTM-A2-FM radio station from the complex of radio stations of the Granit radio communication system can be used [7].

The short-wave radio station 20 together with the antenna 21 is intended for the formation of a standard radio frequency channel used for transmitting control commands of electrical equipment that are located at a considerable distance from the control point. As such a station, a 5RT-300-2-OM type radio station from the complex of radio stations of the Rodnik radio communication system can be used [7].

The information exchange device 22 contains call receivers, a transceiver, and is intended for transmitting and receiving control commands of electrical equipment via long-distance channels and subscriber service communication lines through a switching unit 13 by connecting to them in a serial data transmission mode. After data transfer, said channels and communication lines switch back to telephone mode.

The information exchange device 22, together with the switching unit 13, provides data transmission and transmission signals generated by the module of the central processor 2 of the automated workstation 1 of the dispatcher to the channels and subscriber communication lines.

Data transmission equipment 23 is intended for the exchange of data between the control point and controlled electrical equipment via power circuits of the channels of an external AC network. As such equipment, APD-MA type data transmission equipment can be used, providing the exchange of alphanumeric information over tonal frequency channels, telegraph channels and physical communication lines with a transmission speed of 50 to 9600 bit / s [8].

Operational communications equipment 24 is intended for telephone conversations over communication channels formed on power circuits of channels of an external AC network. As such equipment, a train dispatch communication station with voice-frequency selective calling of the RSDT-1-61 type can be used, the technical capabilities of which are described in [7].

An automated workstation 33 of the head of the network as part of the central processor module 34, the main 35 and auxiliary 39 monitors, the graphic manipulator 36, the keyboard 37, the information processing unit 38 and the control panel 41 is intended for conducting operational accounting and analysis of the technological process for managing the power supply network, including assessment of pre-emergency situations, analysis of equipment status and causes of downtime, identifying bottlenecks and reserves, determining the availability of energy resources, stocks of raw materials and semi-finished products c, analysis of technical and economic indicators, identification of deviations from the norms of consumption of raw materials and energy resources, calculation of technical and economic parameters, planning and solving other problems.

The navigation receiver 11 of the automated workstation 1 of the dispatcher and the laser range finder 40 of the automated workplace 33 of the head of the network belong to the means of navigation support and are designed to autonomously determine and form the coordinates of the location of the automated control point and electrical equipment of the network, enter into the workstation and display the location of the point and EPS on an electronic map (panel for collective use 10), providing navigation and temporary information for use olzovaniya officials control point.

The automated power supply network control center also includes software designed to ensure the conjugate operation of its elements and includes system software based on the MS DOS and Windows operating system, functional software, and test software. The software is delivered loaded into the computer equipment of the automated workstations of the dispatcher 1 and the head of the network 33.

The proposed point of automated control of the power supply network provides the following functions:

1) the selection and implementation of the optimal way to achieve the goal of functioning, taking into account the variable composition of the autonomous power supply network (ASES) and the conditions of the operational situation;

2) determination and control of optimal operating conditions of the ASEC, forecasting, warning and operational response to developing emergencies, organization of use of the reserve of electrical equipment of the ASEC;

3) determination and implementation of measures to counteract emergency processes in the event of failure of electrical equipment as a result of various external influences, organization of repair and restoration of electrical equipment of ASES;

4) ensuring trouble-free operation, monitoring the deployment, curtailing and conducting maintenance of ASEC electrical equipment.

Based on the above purpose, the automated control point provides the following operating modes:

1) automatic collection through service communication channels and processing of data on the technical condition of electrical equipment of the power supply network. In the proposed automated control center, data is collected in the power supply network, which includes up to thirty power plants with a frequency of not more than 15 minutes during normal operation of the system, and in the event of an emergency (pre-emergency) situation in the system, information about it is sent to the control center manager within 1 seconds

2) automatic analysis of data on the current technical condition of electrical equipment of the power supply network and development of recommendations to the duty dispatcher on blocking possible emergencies. In the proposed paragraph, data analysis and development of recommendations is provided in a period of not more than ten seconds;

3) full remote control in automatic and manual modes by ASEC power plants of a controlled facility at ranges provided by service communication channels. In the proposed control center, such an opportunity is provided for thirty power supply stations via long-distance communication channels, subscriber service communication lines, radio channels and power circuits of external AC network channels;

4) the solution of information and design problems of ASEC management in the planning and implementation of measures for the power supply of a managed facility in the field.

Automatic collection of data on the current technical condition of electrical equipment is carried out through various channels and a communication line, including by:

a) physical subscriber lines (AL) service communications;

b) through long-distance communication channels and VHF radio channels;

c) along the power circuits of the channels of the external AC network.

The dispatcher from his automated workstation 1 through the module 2 of the central processor generates commands that are transmitted using the communication device 22 through the switching unit 13 and the block 29 input lines through subscriber lines of service communication to remote workstations (WARM) 42 of the operator or electrician, installed in power plants that do not have automation. In power plants, the transmitted commands are received by the long-distance communication adapters 49, which are part of the BAPM 42, and are transmitted through it to the input of the central processor module 50.

In each VAPM 42, the module of the central processor 50, through block 51, receives signals about the state of functional technological systems (for example, power supply, cooling, engine ventilation of an electric generating set, etc.) power supply stations (FCS EPS), analyzes them and generates status data from a set of parameters electrical equipment, which through the long-distance adapter 49, the matching unit 48 enters the subscriber line 32 of the service connection, and then through the input unit lines 29, the switching unit 13, the data are received exchange of information 22, which converts the received data into signals for transmission over the RS-485 interface to the input of the central processor module 2 of the dispatcher workstation 1.

If there are deviations of the parameters of the FCS EPS from the norm, control commands are received from the output of the central processor module 50, which are transmitted to the executive elements of the FCS EPS through the unit for generating commands 54, and under the action of these parameters, parameters that have deviations from the norm are corrected.

Automatic collection of data on the state of the electrical equipment of the power supply network is also carried out on the power circuits of the channels of the external AC network. In this case, the data transmission path is formed as follows: the central processor module 2, the information exchange device 22, the data transmission apparatus 23, the power input unit 25, the first 26 or second 27 channels of the external AC network, the power input of the power supply station, the long-distance communication adapter and a central processor module included in the workstation installed in the power station.

Automatic collection of data on the state of electrical equipment remote from the automated control center over considerable distances is carried out via long-distance communication channels 30 and radio channels formed by VHF radio station 16 with receiver 17 and KB radio station 20. In this case, a data transmission path is formed from the central processor module 2 workstations 1 through an information exchange device 22, a switching unit 13 to the input of the VHF radio station 16 or KB of the radio station 20. Further, from the output of the antennas 19 or 21 data they are broadcast and received at the opposite end by similar VHF or KB radio stations, from the output of the channels of which data on the physical line are transmitted through the long-distance adapter to workstations installed in power stations.

Generalized data on the state of electrical equipment from the central processor module 2 of the automated workstation 1 of the dispatcher via the RS-232 interface is transmitted to the central processor module 34 of the automated workstation 33 of the network head for analysis and transmission via long-distance communication channels 30 or connecting lines 31 from telephone stations public networks of generalized data to a higher point of automated control. At the same time, the data from the output of the central processor module 34 through the long-distance communication adapter 28 and the input unit of the lines 29 enter the long-distance communication channel 30 or the connecting line 31, then to the telephone exchange of the public switched telephone network, which includes the higher-level control center.

The automatic analysis of data on the current technical condition of the electrical equipment of the power supply network and the development of recommendations for the duty dispatcher on blocking possible emergencies is carried out using the central processor module 2, the main monitor 3, the information processing unit 7, the first 8, the second 9 monitors and the collective display 10. In this case, generalized data on the power supply network are displayed on the main monitor 3, the structure of the power supply network on the first 8 auxiliary monitor, and second 9 auxiliary monitor - data on its main characteristics (power, fuel reserves, etc.). The collective use board 10, which shows the diagram of the power supply network with the location of its elements on the ground with the coordinates of the topographic map, allows you to choose a specific path and means for transmitting the necessary control commands to power stations and thereby eliminate the possibility of emergency situations in them.

The solution of the information and calculation problems of ASEC management in the planning and implementation of measures for the power supply of a managed facility in the field is ensured by means of an automated workstation 33 of the head of the power supply network. At the same time, the head of the network receives data on the state of the managed object, which is the power supply network, using the central processor module 34 through the central processor module 2 of the dispatcher’s automated workstation 1, and commands and instructions from the higher-level control point are sent to workplace 33 through the adapter long-distance communication 28 and the input unit of lines 29 via long-distance communication channels 30 and connecting lines 31 from the public telephone network.

The set and input of codograms to the control network is provided using the standard keyboard 5 of the workstation 1 of the dispatcher and the keyboard 37 of the workstation 33 of the network head.

If the automation equipment is damaged, an option is provided for manual control of the electrical equipment of the network. To do this, control panels 12 and 41 workstations of the dispatcher 1 and the head of the network 33 are used, with which telephone control by transmitting commands and conducting telephone conversations is carried out via long-distance communication channels, radio channels, connecting lines and subscriber service communication lines.

The technical efficiency of the proposed automated control network for the power supply network consists in ensuring uninterrupted and reliable power supply of facilities in the field, achieved by eliminating complete energy crashes of electrical equipment of the network, blocking and preventing “chain” accidents, as well as improving and facilitating the working conditions of the service personnel management decision-making on the management of autonomous systems and means of power supply.

A model of an automated power supply network control point mounted in a K2.4310 box van on the chassis of a KAMAZ-43101 all-terrain vehicle was manufactured, tests of which showed its reliable operation and confirmed the achievement of the goal set in the proposed invention. At the same time, as mentioned above, information on the occurrence of an emergency (pre-emergency) situation on the power supply network arrives at the dispatcher’s workplace within one second, and the development of recommendations for improving management efficiency and ensuring trouble-free operation of the electrical equipment of the network is provided in no more than ten seconds .

Information sources

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2. GB, application No. 2102219, cl. H2J 9/06, 1983.

3. US patent No. 4153936, class. H02J 3/00, G05B 19/00, G06F 15/56, 1979.

4. Volotsky A.N. Telephone communication in operational management systems. - M .: Communication, 1974, p.23 (prototype).

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6. Figurnov V.E. IBM PC for the user. Ed. 6th, rev. and add. - M .: INFRA-M, 1996.

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Claims (4)

1. The point of automated control of the power supply network, comprising a control panel, a communication panel, operational communication equipment, data transmission equipment, a personal electronic computer, data transmission channels and telephone communication channels, characterized in that a dispatcher workstation is included in it, including CPU module, main monitor, graphic manipulator, keyboard, printer, information processing unit, first and second auxiliary monitors, display panel active use, a navigation receiver and the mentioned control panel, as well as a switching unit, a switch, an ultra-short-wave radio station with a receiver, a feeder device and an antenna, a short-wave radio station with an antenna, an information exchange device, a long-distance communication adapter, a power input unit with the first and the second channels of the external AC network, a line input unit with connected connecting lines and subscriber lines of service communication, an automated workstation network network, which includes the aforementioned personal electronic computer, made in the form of a central processor module, a primary monitor, a graphic manipulator, a keyboard, an information processing unit, an auxiliary monitor and a laser range finder, n remote operator workstations, with the first inputs and outputs the switching unit through the switch is connected to the inputs / outputs of the communication panel, the second inputs and outputs of the switching unit are connected to the station side of the ultra-short-wave radio station, connected to the receiver, and the inputs and outputs of the high-frequency part of the ultra-short-wave radio station are connected to the antenna through a feeder device, the third inputs and outputs of the switching unit are connected to the station side of the short-wave radio station, the high-frequency part of which is connected to the antenna, the first, second, third and fourth inputs and outputs of the module the central processor of the dispatcher’s workstation through controllers are connected to the inputs and outputs of the main monitor, graphic manipulator, respectively a torus, a keyboard and a printer, the fifth inputs and outputs of the central processor module are connected via the RS-485 interface to the information inputs and outputs of the information processing unit, the first, second and third inputs and outputs of which are connected to the inputs and outputs of the first and second auxiliary monitors by means of corresponding controllers and a panel of collective use, the information input-output of the navigation receiver is connected to the sixth input-output of the central processor module, the second information input-output of which by means of the RS-485 interface, they are connected to the inputs and outputs of an information exchange device, the linear inputs and outputs of which are connected to the fourth inputs and outputs of the switching unit, whose fifth inputs and outputs are connected via the RS-232C interface to the inputs and outputs of the control panel of the dispatcher workstation, the first linear inputs and outputs of the switching unit through the operational communications equipment are connected to the first linear inputs and outputs of the power input unit, the second linear inputs and outputs of which are transmitted through the transmission equipment the data are connected to the second information inputs-outputs of the information exchange device, the second line inputs and outputs of the switching unit are connected to the first station inputs and outputs of the line input unit, to which remote automated workstations of operators installed in power plants that do not have automation equipment, the second station inputs and outputs of the line input unit are connected to the linear inputs and outputs of the long-distance adapter, the first, second and third inputs and outputs the central processor module of the workstation of the network head through the controllers are connected to the inputs and outputs of the main monitor, graphic manipulator and keyboard, the fourth inputs and outputs of the central processor module via the RS-485 interface are connected to the information inputs and outputs of the information processing unit connected at the RS interface -232 with an auxiliary monitor, the modules of the central processors of the workstation of the dispatcher and the head of the network are connected between battle through the interface at the RS-232 interface, the information inputs and outputs of the laser range finder are connected to the fifth inputs and outputs of the central processor module of the workstation of the head of the network, the information inputs and outputs of which are connected to the information inputs and outputs of the long-distance adapter, and the information inputs and outputs the control panel of the automated workstation of the head of the network at the RS-232C interface is connected to the sixth inputs and outputs of the switching unit. 2. The automated control point according to claim 1, characterized in that the switching unit comprises a unit for connecting external devices, a switching field unit and a subscriber unit block, a channel selector and a control unit, the third inputs and outputs of the switching field unit connected in series with the inputs / outputs with the first inputs and outputs of the channel selector, the first, second, third and fourth control inputs and outputs of the control unit are connected to the control inputs and outputs of the external connection unit of devices, a switching field unit, a subscriber unit block and a channel selector, wherein the first, second and third inputs and outputs of the subscriber unit block are the first, second and third inputs and outputs of the switching unit, the fourth inputs and outputs of which are the second inputs and outputs of the switch channels, the first and second linear inputs and outputs of the switching unit are, respectively, the fourth and fifth inputs and outputs of the subscriber unit block, the fifth and sixth inputs and outputs of the switching unit are respectively, the first and second inputs and outputs of the external device connection block, which are connected via RS-232C interfaces to the inputs and outputs of the control panels of the workstations of the dispatcher and the head of the power supply network, respectively. 3. The automated control point according to claim 1, characterized in that the remote automated workstation of the operator comprises a matching unit, a long-distance communication adapter and a central processor module, a signal receiving unit, a monitor, a keyboard and a control command generating unit, connected in series to the inputs and outputs, moreover, the first, second, third, fourth and fifth inputs and outputs of the central processor module are connected via RS-232 interface interface to the inputs and outputs of the long-distance adapter, signal receiving unit, respectively s, monitor, keyboard and control command generation unit, the outputs of which are connected to the inputs of the actuators of the functional technological systems of power supply stations, the inputs of the signal receiving unit are connected to the outputs of the sensors and control circuits of the functional technological systems of power supply stations, while the second inputs and outputs of the matching unit are inputs and outputs of each of n remote automated workstations of the operator, which are connected via modem interface to the inputs and outputs, respectively vuyuschey subscriber line intercom. 4. The automated control point according to claim 1, characterized in that the equipment of the point is located in an all-metal box body mounted on the chassis of an all-terrain vehicle, the box body being divided into two compartments: front and rear compartments, while in the front compartment there are automated workplace of the dispatcher of the aforementioned composition, switching unit, switchboard, communication panel, long-distance communication adapter, information exchange device, ultra-short-wave radio station with receiver and short-wave radio station, in the rear compartment there is an automated workstation for the head of the network of the aforementioned composition, and the feeder device of the ultra-short-wave radio station, antennas of the ultra-short-wave and short-wave radio stations are located outside the box body.

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