RU2111499C1 - System detecting faulty sections of electric networks - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: invention can be used for effective detection of faulty sections of electric networks and for re-establishment of electric supply of users. Proposed system incorporates elements controlling equipment, sensors of equipment condition, indicators of passage of short-circuit currents, transmitter and receiver on peripheral unit, indication and control unit with mimic panel, receiver and transmitter on central control desk. Peripheral unit of system substation is inserted with encoders interrogating sensors of equipment condition and emergency signalling. Central control desk is inserted with formers of signals of interrogation of condition and of signals of telecontrol. Peripheral unit of system substation and central control desk are in addition fitted with signal decoders, majority devices for isolation of true signal, series-to- parallel code and vice versa converters, formers of majority signal, filters of modulating signals, matching circuits with transmitters. EFFECT: improved operational efficiency and reliability of system. 1 dwg

Description

 The system for identifying damaged sections of electrical networks is designed to quickly identify damaged sections of electrical networks and restore power to consumers. At the same time, the system allows remote control and remote signaling of the status of oil circuit breakers and other control elements of electric networks.

 Currently, work on finding a faulty cable and turning on the voltage to consumers is carried out as follows. The power supply manager evaluates the situation by telephone calls of subscribers about the absence of voltage and, with a large area of outages, sends an emergency team to check the condition of the directional oil switches. Then begins the search for the faulty section in order to turn it off in order to power consumers on the remaining, working supply cables, after which the cause of the failure is determined and measures are taken to eliminate it or switch to the backup cables. In this case, the troubleshooting is performed by dividing the cable network into approximately equal sections and applying voltage to them in order to determine the faulty section of the cable network. Then, by subsequent division of the faulty section, the fault zone is reduced, and the possibility of powering consumers through redundant cables is determined.

This troubleshooting has the following disadvantages:
the cable network is repeatedly turned on in the overload and short circuit mode, which often leads to damage to serviceable cables;
the switching equipment of the substations at the same time operates in critical conditions, which can cause its failure;
there is an increased risk of switching for the personnel of the field teams when the cables and equipment of the substations are switched on to a deliberately faulty circuit;
the occurrence of additional malfunctions due to attempts to turn on in overload and short circuit modes increases the malfunction zone and leads to additional losses of time and material resources for restoring power to consumers.

 A device is known for determining the site of a damaged overhead power line (Japanese Patent No. 5058510, class G 01 R 31/08). In this technical solution, the current fault signal from each section is transmitted to the central station through the fiber, for each section the strength and phase of the current is determined by an index indicating possible damage, then the information is transmitted to the operation unit, which, according to the scheme, calculates the maximum value of the function for shorting to ground and defines a short circuit. Comparing on a comparator these values determine the highest maximum - this is the damaged area.

 This system is designed for overhead lines, while laying along the lines of optical fibers is required. The system serves one line.

 However, in the conditions of underground cable networks in the existing urban development and the lack of integrated fiber-optic networks in the cities of our country, the implementation of this solution seems to be a very expensive undertaking with costs approximately equal to the cost of laying the cable networks themselves.

 Also known is a transmission system for determining a damaged area in a power line (Japanese Patent No. 5056827, class G 01 R, 31/08 - prototype). Along the overhead power line, transmitters of current fault signals flowing in the ground lines and detected by the sensors are connected in series. Transmitters determine the absolute values of currents and phases and transmit them from one transmitter to another.

 This system can be used on overhead power lines with a certain direction, and is not suitable for underground cable networks in the city, where the cable network is very branched, there are frequent intersections and parallel laying.

 The objective of the invention is the operational search for damaged sections of electric cable networks without leaving the operational team on the line, as well as the elimination of emergency situations when searching for a faulty cable and reducing the risk of work.

 This problem is solved by the fact that in the system for determining damaged sections of electric networks, which contains equipment control elements, equipment status sensors, short-circuit current indicators, transmitters and receivers on the peripheral unit and an indication and control unit with a mnemonic circuit, as well as a receiver and transmitter on the central control panel, into the peripheral unit of the substation encoders of interrogation of status sensors and an alarm signal, a node of interrogation signals and control are entered, and into the central control panel I introduced signal conditioners for polling the status and telecontrol signals, in addition, signal decoders, majority devices for extracting a reliable signal, serial code converters to parallel and vice versa, majority signal formers, modulating signal filters were introduced into the peripheral unit of the substation and the central control panel, matching circuits with transmitters, while in the peripheral block of substations the outputs of the equipment status sensors and current passage indicators A short circuit is connected to the input of the encoder for polling the equipment status sensors, and the second output of the equipment status sensors is connected to the input of the alarm signal encoder, the outputs of the encoders are connected to the input of the parallel code to serial converter, the output of which is connected through the majority driver and the matching circuit with the transmitter the transmitter input, and the receiver output through a series-connected filter of modulating signals, a serial code converter in a parallel, majority device for extracting a reliable signal, a signal decoder and a node for polling and control signals are connected to the inputs of equipment control elements and equipment status sensors, on the central control panel, the receiver output through a series-connected filter of modulating signals, a serial code converter into a parallel, majority device for extracting a reliable signal, the signal decoder is connected to the input of the display and control unit, one output of which corresponds to it is connected to the shaper of the command for interrogating the state sensors, the parallel-to-serial code converter, the majority signal generator and the matching circuit with the transmitter and the transmitter input, connected to the second indication and control unit via the telecontrol signal generator, connected to the second input of the parallel code converter consistent.

 The drawing shows a diagram of the proposed system for determining damaged sections of electrical networks, where 1 - indicators of the passage of short circuit currents, 2 - equipment status sensors, 3 - equipment control elements, 4 - encoder polling status sensors, 5.24 - parallel code to serial converters, 6.25 - formers of the majority signal, 7.26 - matching schemes with the transmitter, 8.27 - transmitters, 9 - encoder of the alarm signal, 10.16 - receivers, 11.17 - filters of modulating signals, 12.18 - converters code in parallel, 13.19 - major devices for extracting a reliable signal, 14 - node of the polling and control signals, 15.20 - signal decoders, 21 - display and control unit, 22 - mimic diagram, 23 - conditioner polling command shaper, 28 - shaper of telecontrol signals.

 The system for determining damaged sections of electric networks contains equipment control elements 3, equipment status sensors 2, short-circuit current indicators 1, transmitters 8 and receivers 10 on the peripheral unit and an indication and control unit 21 with a mimic diagram 22, as well as a receiver 16 and a transmitter 27 on central control panel. Into the peripheral unit of the substation, encoders for interrogating status sensors 4 and an alarm signal 9, a node for interrogating and controlling signals 14, and in the central control panel, shapers of commands for interrogating the status 23 and remote control signals 28 have been introduced. In addition, in the peripheral unit of the substation and the central panel controllers respectively introduced signal decoders 15 and 20, majority devices for extracting a reliable signal 13 and 19, serial to parallel converters 12, 18, 5, 24, majority signal conditioners 1 3 and 25, filters of modulating signals 11 and 17, matching circuits with transmitters 7 and 26. At the same time, in the peripheral block of substations, the outputs of the equipment status sensors 2 and the short-circuit current indicators 1 are connected to the input of the encoder for interrogating the equipment status sensors 4, and the second output equipment status sensors 2 - with the input of the alarm signal encoder 9, the outputs of the encoders 4 and 9 are connected to the input of the parallel code to serial 5 converter, the output of which is through the shaper major connected in series the total signal 6 and the matching circuit with the transmitter 7 - is connected to the input of the transmitter 7, and the output of the receiver through a series-connected filter of modulating signals 11, a serial to parallel converter 12, a major device for extracting a reliable signal 13, a signal decoder 15 and a polling and control signal unit 14 is connected to the inputs of equipment control elements 3 and equipment status sensors 2. At the central control panel, the output of the receiver 16 through a series-connected filter modulating x signals 17, a serial to parallel converter 18, a majority device for extracting a reliable signal 19, a signal decoder 20 is connected to an input of an indication and control unit 21, one output of which is respectively connected to a serial encoder of a command for polling status sensors 23, a parallel code to serial converter 24, the driver of the majority signal 25 and the matching circuit with the transmitter 26 and to the input of the transmitter 27, while the second input of the display unit 21 and control h the transmitter of remote control signals 28 is connected to the second input of the parallel-to-serial code converter 24.

 We consider the operation of the system in the sequence of the alarm signal and the determination of the damaged section of the cable network.

 When the oil switch is turned off at the substation and overloads occur, the signal from the equipment status sensor 2 is sent to the alarm signal encoder 9, where a signal in a parallel code is generated, which enters the parallel code converter in a sequential pulse combination 5. The generated serial code signal is input to the majority signal shaper 6 and, having passed through the matching circuit with the transmitter 7, is converted into a sequence of frequency-modulated signals supplied by VHF transmitters are 8 to the antenna and radiated into space.

 The alarm signal is received by the receiver 16 of the central radio station installed in the control network, and gets on the filter of modulating signals 17, which selects signals with a modulating frequency for this system. The sequence of pulses allocated by the filter goes to the serial code converter in parallel 18 and then to the majority device for extracting a reliable signal 19. The signal passed through the majority device 19 goes to the signal decoder 20. From it, the signals go to the display and control unit 21 and then to the mnemonic circuit 22 cable networks.

 The power supply manager, having received the alarm signal, starts a polling of the passage of short circuit currents along the chain of cables operating from this oil switch. In this case, the control unit generates the polling commands for the state sensors 23. The polling signals in the parallel code are fed through the parallel code converter to the serial 24 and then to the majority signal shaper 25. The majority sequence of polling signals is fed through the matching circuit with the transmitter 26 to the transmitter 27 of the central radio station. The transmitter emits serial polling signals to the antenna.

 The polling signals received by the receiver 10 of the peripheral block and isolated by the filter of the modulating signals 11 go to the serial code converter in parallel 12 and through the majority device for extracting a reliable signal 13 to the signal decoder 15. The signal decoder 15 selects the polling signal of a specific indicator of the passage of short circuit currents and through the node interrogation and control signals 14 supplies them to the indicators of the passage of short circuit currents 1 and turns on the equipment status sensors.

 The status signal of the indicator of the passage of short-circuit currents 1 is supplied to the encoder for interrogating the state sensors 4, then through the parallel code converter to serial 5 and the majority signal generator 6 is fed to the matching circuit with transmitter 7 and then to transmitter 8. The transmitter 8 transmits to the antenna and radiates to space state signals of short-circuit current indicators and equipment status sensors.

 The status signals of the indicators of the passage of short circuit currents received by the receiver of the central control panel are selected by the filter of the modulating signals 17. The selected signal in the serial code is fed to the serial code converter in parallel 18 and then through the majority device for extracting a reliable signal 19 to the signal decoder 20. From it, the signal goes to the display and control unit 21 and the mnemonic 22 cable networks.

 Based on the indication on the mimic diagram, the dispatcher identifies a damaged cable and makes a decision on the quick provision of power to subscribers.

 Peripheral units installed in substations allow you to control the passage of short circuit currents through cables using the indicators of the passage of short circuit current and transmit information on request to the central complex via a radio channel. At the same time, the peripheral unit allows you to monitor the state of the oil circuit breakers and carry out their remote control.

 The complex of equipment installed in the dispatching power network allows you to monitor the condition and determine the damaged section of the cable network by passing short-circuit currents and overloads, receive an alarm when overloads or short circuits occur and the oil switches are turned off. The power manager can poll the status of the oil circuit breakers and carry out their remote control (turn on and off). Information on the passage of short-circuit currents, the condition of oil circuit breakers and equipment is reflected on the front panel of the central control panel and the mnemonic diagram of high-voltage cable networks.

 The communication of peripheral units and the equipment complex in the control room is carried out over the air. In this case, a central radio station of the power supply network and transceivers, peripheral units are used.

 The proposed system allows you to receive a shutdown message immediately upon its occurrence, to obtain information on the passage of short circuit currents through the cable network and to identify a faulty cable without leaving the emergency team, to eliminate the emergencies created when searching for a faulty cable, to reduce the risk of work being carried out, to reduce the time of system commissioning and cost through the use of a radio channel and the exclusion of physical communication lines.

 The proposed system can be implemented on industrial circuits and blocks.

 Filters for modulating signals 11.17 can be performed on the logic elements of the K561LA7 chip by introducing selective feedback implemented on the LC circuit and providing direct reception of logical levels of CMOS logic signals.

 Converters of serial to parallel code 12.18, for example, can be performed on four-bit static shift registers of the K176IR2 chip.

 Majority devices for extracting a reliable signal 13.19, for example, can be implemented on the counters of the K561IE10 chip by counting the coincidence of a reliable number of pulses for each binary bit and issuing a parallel binary code when the binary code matches.

 Signal decoders 15.20 can be performed on decoders 4 • 10 of K176ID1 microcircuits and allow you to get the address in decimal code and output it to the display and control unit in the control panel 21 or to the polling and control signal node 14 in the peripheral unit.

 The shaper of the command for polling the state sensors 23, the shaper of remote control signals 28 can be implemented on binary decimal reversible counters K561IE.

 Converters of parallel code to serial 5.24 can be implemented on a four-bit universal shift register K561IR3.

 The 6.25 majority signal generators can, for example, be implemented on the K651IE10 binary counter by counting the number of address series.

 Matching schemes with a 2.26 transmitter can be performed on bipolar transistor switches.

 The node interrogation and control signals 14 can be performed on remote switches - polarized relay RPS-45 and DC relay RES-49.

 The encoder for interrogating the state sensors 4 can be performed on K561IE10 counters with 4 • 10 K176ID1 decoders.

 The encoder of the alarm signal 9 can be performed on D-flip-flops with the setting "1" and "0" K561TM2.

Claims (1)

 A system for identifying damaged sections of electrical networks containing equipment control elements, equipment status sensors, short-circuit current indicators, a transmitter and receiver on a peripheral unit, and a display and control unit for a mnemonic diagram, as well as a receiver and transmitter on a central control panel, characterized in that the peripheral unit of the substation introduced the encoders for interrogating the status sensors and the alarm signal, a node for interrogating and controlling signals, and the forms signal encoders for interrogation of status sensors and telecontrol signals, in addition, signal decoders, major devices for extracting a reliable signal, serial code converters in parallel and vice versa, majority signal generators, modulating signal filters, matching circuits are introduced into the peripheral unit of the substation and the central control panel, respectively with transmitters, while in the peripheral block of substations the outputs of the equipment status sensors and short-circuit current indicators short circuits are connected to the input of the encoder for polling equipment status sensors, and the second output of the equipment status sensors is connected to the input of the alarm signal encoder, the outputs of the encoders are connected to the input of the parallel code to serial converter, the output of which is connected through the shaper of the majority signal and the matching circuit with the transmitter is connected to the input transmitter, and the receiver output through a series-connected filter of modulating signals, a serial code to parallel converter A primary, majority device for extracting a reliable signal, a signal decoder and a node for interrogating and controlling signals are connected to the inputs of equipment control elements and equipment status sensors and short-circuit current indicators, on the central control panel, the receiver output through a series-connected filter of modulating signals, a serial code converter to a parallel, majority device for extracting a reliable signal, a signal decoder is connected to the input of the display unit and control, one output of which is respectively connected to the shaper of the command for interrogating the state sensors, the parallel-to-serial code converter, the majority signal shaper and the matching circuit with the transmitter and to the transmitter input, while the second output of the indication and control unit via the telecontrol signal shaper is connected to the second input of the parallel to serial code converter.