RU2242830C1 - Power transformer monitoring device - Google Patents

Abstract

FIELD: electrical engineering; in-service monitoring of power transformer operating characteristics and controlling its systems.

SUBSTANCE: device has units performing following functions: calculation of transformer integral characteristics, recording of emergency processes and on-load voltage regulator position, calculation models using real-time measurement data, cooling system control, remote-control of on-load voltage regulator, keeping of transformer service log, visualization of parameters under measurement, data transfer and monitoring system integration into computer-aided supervisory control and electricity metering systems. Device provides for monitoring instant, medium, and RMS values of currents and voltages, as well as temperatures of high, medium-, and low-voltage windings, ambient temperature, transformer oil temperature at inlet and outlet of coolers, oil temperature, level, and pressure, its humidity, and concentration of dissolved gases in oil filling transformer and on-load voltage regulator tanks, oil pressure in high-voltage bushings, insulation leakage currents.

EFFECT: enlarged functional capabilities.

1 cl, 1 dwg

Description

The invention relates to the field of electrical engineering and can be used to monitor the main operating parameters of the transformer in real time during its operation and control of its main systems.

The closest in technical essence and the achieved technical result to the claimed device for monitoring power transformers is a device for measuring the response of power transformers (see Ukrainian patent No. 34253, MKI ⁶ G 01 R 31/06, 06/18/1999, publ. 15.02 .2001), including a unit for measuring the magnitude of the current, containing means for measuring current values in one winding of the transformer, a unit for measuring the magnitude of the voltage, a unit for measuring the ambient temperature, a unit for monitoring the oil cooling system of the transformer a matora containing means for measuring the temperature of the upper layers of transformer oil, a unit for monitoring the state of the high-voltage bushings of the transformer, containing means for measuring the oil pressure in the bushings, a device for processing the received data and a unit for alerting maintenance personnel about the state of the protection system, first, second, third, fourth and the fifth inputs of which are connected respectively to the outputs of the current measuring unit, voltage measuring unit, ambient temperature measuring unit, b loka control of the oil cooling system of the transformer and the control unit of the state of the high-voltage inputs of the transformer.

The current magnitude measuring unit contains means for measuring the current values in the circuit of one secondary winding, and the voltage magnitude measuring unit contains means for measuring the voltage values in the electric network. A device for processing the obtained data is made in the form of a sampling-storage device, the first input of which is connected to the output of the means for measuring voltage values in the electric network of the voltage value measuring unit through an AC to DC voltage converter.

The notification unit for maintenance personnel about the state of the protection system is made in the form of indicators and means of light and / or sound signaling. The unit for measuring the magnitude of the current through the current-to-DC converter, an adder, a functional converter, a comparator, an RS-flip-flop, logic elements and pulse counters is connected to the first input of the service personnel warning unit about the status of the protection system.

The unit for measuring the voltage value through an AC to DC voltage converter, a sampling-storage device, functional converters, scaling amplifiers, adders, a multiplication unit, an analog-to-digital converter, registers, digital comparators and logic elements is connected to the second input of the state personnel alert unit protection systems.

The unit for measuring ambient temperature through a temperature to DC voltage converter, an adder, a scaling amplifier, a multiplication unit, an analog-to-digital converter, adders and registers is connected to the third input of the personnel warning unit about the status of the protection system. The control unit of the oil cooling system of the transformer through a temperature to DC voltage converter, as well as an adder, RS-flip-flop, logic counters, pulse counters, a comparator is connected to the fourth input of the service personnel alert unit about the status of the protection system. The control unit for the condition of the high-voltage inputs of the transformer through a pressure to DC voltage converter, as well as an adder, RS-trigger, logic counters, pulse counters, a comparator is connected to the fifth input of the maintenance personnel notification unit about the status of the protection system. The device also contains resource job blocks.

The known device does not provide the ability to monitor all the main operating parameters of the transformer in real time and to obtain information about the absolute values of the main operating parameters in the form of tables and / or graphs at any time during operation of the transformer.

This is due to the fact that using a known device it is possible to measure and control only a limited number of operating parameters, namely the current value in one secondary winding of the transformer, the voltage value in the electrical network, the temperature value of the upper layers of the transformer oil and the oil pressure in the high-voltage input of the transformer, which is not enough to monitor and evaluate the condition of the windings and such important systems of the power transformer as the oil cooling system, stroystvo RPN and other systems. Only indirectly, by performing complex calculations, it is possible to approximately judge the state of the windings and transformer oil, but reliable data on their condition cannot be obtained. When using the known device, it is impossible to control the position of the on-load tap-changer (on-load tap-changer under voltage control) and the amount of its switching. The signals entering the registers in the form of digital codes are then fed to the resource job blocks and compared with the digital codes recorded in them. Depending on the results of the comparison, digital comparators receiving information about this issue a logical unit signal if the values of the digital codes coming from the registers are greater than or equal to the digital codes recorded in the resource setting blocks, after which the indicators turn on and the signal enters the signaling circuit of the block alerts staff about the status of the protection system. The absence of a system for archiving the measurement results does not allow analyzing the change in the main operating parameters of the transformer over time, which makes it impossible to diagnose the condition of the transformer, the absence of control units does not allow controlling the operation of the most important transformer systems through the automated dispatch control system (ASDU), and inclusion in the automated accounting system electricity (ASUE).

The basis of the invention is the task to improve the device for monitoring power transformers by introducing new structural elements, new connections between structural elements, a new implementation of structural elements, which will provide the ability to monitor all the main operating parameters of the transformer in real time and obtain information about the absolute values of the main working parameters in the form of tables and / or graphs at any time during operation.

The problem is solved in that in a device for monitoring power transformers, including a current measuring unit, comprising means for measuring current values in one winding of a transformer, a voltage measuring unit, an ambient temperature measuring unit, a transformer oil cooling system control unit containing means for measuring the temperature of the upper layers of transformer oil, a control unit for the state of the high-voltage transformer bushings, containing means for measuring oil pressure in the inputs, a device for processing the received data and a notification unit for maintenance personnel about the state of the protection system, the first, second, third, fourth and fifth inputs of which are connected respectively to the outputs of the current magnitude measuring unit, voltage magnitude measuring unit, ambient temperature measuring unit , the control unit of the oil cooling system of the transformer and the control unit of the state of the high-voltage inputs of the transformer, according to the invention, new is that it additionally contains um winding temperature control unit, transformer oil condition monitoring unit, on-load tap-changer position monitoring unit, transformer integral characteristics calculation unit, emergency process registration unit, calculation model unit according to real-time measurement data, transformer oil cooling system control unit, remote control unit on-load tap-changer, transformer status logging unit, measured value visualization unit in the form of tables and / or graphs, transmission unit data and integration of the monitoring system in the automatic control system and automatic control system, the processing unit for information about changes occurring during the operation of the transformer, while the current measuring unit is equipped with means for measuring instantaneous, average and effective current values in the high, medium and low voltage windings in phases A, B, C, the voltage measurement unit is equipped with means for measuring instantaneous, average and effective voltage values in the windings of high, medium and low voltage in phases A, B, C, the system control unit The oil cooler of the transformer is additionally equipped with means for measuring the temperature of the transformer oil at the inlet and outlet of coolers, with means for monitoring the oil level and with means for monitoring the oil pressure in the tank of the transformer and the tank of the on-load tap changer, the unit for monitoring the state of the high-voltage inputs of the transformer is additionally equipped with means for measuring leakage currents in isolation, the device for processing the obtained data is made in the form of a processing and archiving unit for the received data, equipped with a system a programmed in accordance with the basic permissible parameters of the transformer in operation, the first output of the current measuring unit connected to the first input of the transformer integral characteristics calculation unit, its second output connected to the first input of the emergency recording unit, its third output connected to the first the input of the block of calculation models according to measurements in real time, its fourth output is connected to the first input of the processing and archiving block x data, its fifth output is connected to the first input of the transformer status logging unit, its sixth output is connected to the first input of the personnel alert unit, the seventh output is connected to the first input of the on-load tap-changer remote control unit, the first output of the quantity measurement unit voltage is connected to the second input of the integral characteristics calculation unit, its second output is connected to the second input of the emergency process registration unit, its third output is connected to the second the input of the block of calculation models according to measurements in real time, its fourth output is connected to the second input of the processing and archiving unit of the received data, its fifth output is connected to the second input of the transformer status logging unit, its sixth output is connected to the second input of the service personnel alert unit about the state of the protection system, the first output of the ambient temperature measuring unit is connected to the third input of the calculation model unit according to real-time measurement data, its output is connected to the third input of the transformer status logging unit, its third output is connected to the third input of the processing and archiving unit of the received data, its fourth output is connected to the first input of the transformer oil cooling control unit, its fifth output is connected to the third input of the warning unit staff on the status of the protection system, the first output of the control unit of the oil cooling system of the transformer is connected to the fourth input of the block of calculation models according to measurement in real time, its second output is connected to the fourth input of the transformer status logging unit, its third output is connected to the fourth input of the data processing and archiving unit, its fourth output is connected to the second input of the transformer oil cooling system control unit, its fifth the output is connected to the fourth input of the personnel alert unit about the status of the protection system, the first output of the temperature control unit of the windings is connected to the fifth input of the calculation unit according to real-time measurements, its second output is connected to the fifth input of the transformer status logging unit, its third output is connected to the fifth input of the processing and archiving unit of the received data, its fourth output is connected to the third input of the transformer oil cooling system control unit , its fifth output is connected to the fifth input of the notification unit for maintenance personnel about the status of the protection system, the first output of the transformer oil condition monitoring unit is connected to the input of the block of computational models according to measurements in real time, its second output is connected to the sixth input of the transformer status logging unit, its third output is connected to the sixth input of the data processing and archiving unit, its fourth output is connected to the fourth input of the system control unit oil cooling of the transformer, its fifth output is connected to the sixth input of the notification unit for maintenance personnel about the status of the protection system, the first output of the status control unit is high the transformer’s cold leads are connected to the seventh input of the personnel alert unit about the status of the protection system, its second output is connected to the seventh input of the transformer status logging unit, its third output is connected to the seventh input of the data processing and archiving unit, the first output of the on-load tap changer connected to the seventh input of the block of calculation models according to measurements in real time, its second output is connected to the eighth input of the block of state logs transformer, its third output is connected to the eighth input of the processing and archiving unit of the received data, its fourth output is connected to the second input of the on-load tap-changer remote control unit, the first output of the personnel alert unit is connected to the ninth input of the transformer status logging unit, the second its output is connected to the ninth input of the processing and archiving unit of the received data, the first output of the unit for calculating the integral characteristics of the transformer is connected the eighth input of the block of calculation models according to measurements in real time, its second output is connected to the tenth input of the transformer status logging unit, its third output is connected to the tenth input of the processing and archiving unit of the received data, the first output of the emergency recording unit is connected to the eleventh input transformer status logging unit, its second output is connected to the eleventh input of the processing and archiving unit of the received data, its third output is connected to eight the input of the notification unit for maintenance personnel about the status of the protection system, its fourth output is connected to the first input of the visualization block of the measured parameters in the form of tables and / or graphs, the first output of the block of calculation models according to the measurement data in real time is connected to the twelfth input of the state logging block transformer, its second output is connected to the twelfth input of the processing and archiving unit of the received data, its third output is connected to the first input of the data transmission and integration system monitoring topics in the automated control system and automatic control system, its fourth output is connected to the input of the temperature control unit of the windings, its fifth output is connected to the fifth input of the control unit of the oil cooling system of the transformer, its sixth output is connected to the second input of the visualization unit of the measured parameters in the form of tables and / or graphs , the first output of the on-load tap-changer remote control unit is connected to the third input of the measured value visualization unit in the form of tables and / or graphs, its second output is connected to the thirteenth block input ka of transformer status logging, its third output is connected to the second input of the data transmission unit and the monitoring system integration in the automated control system and automatic control system, its fourth output is connected to the ninth input of the personnel alert notification unit about the protection system status, the first output of the oil cooling system control unit is connected to the fourth input of the unit for visualization of the measured parameters in the form of tables and / or graphs, its second output is connected to the fourteenth input of the transformer status logging unit, the third its output is connected to the third input of the data transmission unit and the integration of the monitoring system in the automated control system and automatic control system, the first output of the processing and archiving unit of the received data is connected to the fifth input of the visualization unit of the measured parameters in the form of tables and / or graphs, its second output is connected to the fourth input of the unit data transmission and integration of the monitoring system in the automated control system and automatic control system, its third output is connected to the input of the information processing unit about changes that occur during operation of the transformer, its fourth output is connected to the fifth input of the on-load tap-changer remote control unit, its fifth output is connected to the sixth input of the transformer's oil-cooling system control unit, its sixth output is connected to the tenth input of the personnel alert unit, the first output of the transformer status logging unit is connected to the sixth input of the unit visualization of the measured parameters in the form of tables and / or graphs, its second output is connected to the thirteenth input of the processing and archiving unit of the received data, per the output of the information processing unit about changes occurring during the operation of the transformer is connected to the fifth input of the data transmission unit and the integration of the monitoring system in the automated control system and the automated control system, its second output is connected to the fourteenth input of the processing and archiving unit of the received data, the first output of the visualization unit of the measured parameters in the form tables and / or graphs connected to the fourth input of the remote control unit of the on-load tap-changer.

The causal relationship between the totality of the essential features of the invention and the achieved technical result is as follows.

An additional introduction to the device for monitoring power transformers of the winding temperature control unit, transformer oil condition monitoring unit, on-load tap-changer position control unit, transformer integral characteristics calculation unit, emergency process registration unit, calculation model unit according to real-time measurement data, system control unit oil cooling transformer, on-load tap-changer remote control unit, transformer status logging unit , a unit for visualizing the measured parameters in the form of tables and / or graphs, a data transmission unit and the integration of a monitoring system in the automated control system and automatic control system, a processing unit for information about changes occurring during operation of the transformer, as well as an additional supply of the current measuring unit for measuring instantaneous, average and the current values in the high, medium and low voltage windings in phases A, B, C, of the voltage measuring unit by means for measuring instantaneous, average and effective values voltage in the windings of high, medium and low voltage in phases A, B, C of the control unit of the transformer oil cooling system by means for measuring the temperature of transformer oil at the inlet and outlet of coolers, means for monitoring the oil level and means for monitoring the oil pressure in the transformer tank and the tank of the on-load tap-changer, and the implementation of the device for processing the received data in the form of a block for processing and archiving the received data, equipped with a system programmed in accordance with the main the unavoidable parameters of the transformer in operation in conjunction with the known features and in the presence of communication units claimed by the invention, provides the ability to monitor all the main operating parameters of the transformer in real time and to obtain information about the absolute values of the main operating parameters in the form of tables and / or graphs at any time during the operation of the transformer, allows you to analyze the change in the parameters of the transformer in operation for a preliminary assessment of developing failures.

The temperature control unit of the windings provides information on current values and all temperature changes in the windings of high, medium, and low voltage in phases A, B and C at any time. The transformer oil condition monitoring unit contains measuring instruments providing information on the oil temperature, its humidity and the concentration of gases dissolved in the oil in the transformer tank and on-load tap-changer tank. The on-load tap-changer position control unit provides information on the position of the on-load tap-changer in phases A, B and C, on the start and end time of the on-load tap-changer switch in each phase, on the number of on-load tap-changer switches, which allows operational monitoring of the on-load tap-changer operation. A current measuring unit equipped with means for measuring instantaneous, average, and effective current values in high, medium, and low voltage windings in phases A, B, C, and a voltage measuring unit equipped with means for measuring instantaneous, average, and effective voltage values in windings of high, medium and low voltage in phases A, B, C, provide the ability to control all values of current and voltage and monitor the presence or absence of overloads on current and voltage. Information from the current magnitude measuring unit and the voltage magnitude measuring unit enters the emergency process registration unit, where it is processed to determine if the permissible instantaneous, average, and effective values of any of the measured parameters are exceeded, and the waveforms are constructed based on the processing results. Information from the current magnitude measuring unit and the voltage magnitude measuring unit also enters the transformer integral characteristics calculation unit, which on the basis of the received information calculates all the necessary electrical and non-electric characteristics, including active, reactive and apparent power, energy, load factor, power factor. Due to the fact that the control unit of the transformer oil cooling system is additionally equipped with means for measuring the temperature of the transformer oil at the inlet and outlet of coolers, means for monitoring the oil level and means for monitoring the oil pressure in the transformer tank and the on-load tap-changer tank, it is possible to fully control the oil cooling system transformer, which allows you to timely prevent emergencies that may occur when increasing or decreasing the level of mas a transformer tank or a tank tap changer, the sudden increase of oil pressure in the tank of the transformer or tap changer tank, with an increase in the oil temperature in the transformer tank or in the tank above the permissible OLTC. The unit for monitoring the condition of the high-voltage bushings of the transformer allows you to control not only the oil pressure in the high-voltage bushings, but also leakage currents flowing through the insulation. Data obtained during monitoring and measurement by a current measuring unit, a voltage measuring unit, an ambient temperature measuring unit, a transformer oil cooling system monitoring unit, a transformer oil high voltage condition monitoring unit, a winding temperature control unit, a transformer oil state monitoring unit, a control unit the positions of the on-load tap-changer are continuously fed into the block of calculation models according to measurements in real time and are used to calculate the temperature value of the warmed-up point of the winding, the quality of the transmitted energy, active, reactive and apparent power, average values of current and voltage in a three-phase network, positive and negative sequences of current and voltage, unbalance of currents and voltages in a three-phase network, power factor, amplitude ratio of zero harmonic current to the sum of all harmonics of the current, the cosine of the phase difference of the harmonics of the current and voltage, the consumption of electricity (active and reactive), the total percentage of harmonic distortion, coefficient ienta transformation allowable load factor of the transformer term service life of the tap changer, the isolation rate of aging. In the event of an emergency in one or more transformer systems, the protection system is triggered, which causes the sound and light signaling to alert the maintenance personnel about the status of the protection system. The alarm is disabled only after the maintenance personnel take measures to eliminate the emergency.

The inventive device for monitoring power transformers provides automatic and remote control of the oil cooling system of the transformer and the RPN device. When controlling the transformer oil cooling system, information is used that comes from the control unit of the transformer oil cooling system and the block of calculation models according to real-time measurements. This allows for minimal fluctuations in the temperature of the oil in the oil cooling system of the transformer, as well as control the wear of the drives of the cooling system. The on-load tap-changer remote control unit allows switching the on-load tap-changer at the command of an operator or dispatcher from a remote control station through the visualization unit of the measured parameters in the form of tables and / or graphs. The remote control unit of the on-load tap-changer can block its switching upon receipt of information from the current measuring unit about current transformer overloads.

The transformer status logging unit carries out continuous registration of all alarms coming from the current value measuring unit, voltage value measuring unit, ambient temperature measuring unit, transformer oil cooling system control unit, transformer high voltage input state control unit, winding temperature control unit, unit monitoring the status of transformer oil, on-load tap-changer position control unit. The transformer status logging unit continuously also records all the calculated parameters coming into it from the transformer integral characteristics calculation unit, the calculation models block according to real-time measurement data, as well as from the emergency process registration unit. The transformer status logging unit records all the information about the operation of the notification unit for maintenance personnel about the status of the protection system, as well as the actions carried out using the on-load tap-changer remote control unit and the transformer oil cooling system control unit, as well as all actions of the operating personnel. Processing and archiving of all measured and calculated parameters, as well as all events occurring during the operation of the transformer, is carried out by the processing and archiving unit of the received data, equipped with a system programmed in accordance with the main acceptable parameters of the transformer in operation, which compares the data received in it with permissible parameters of the transformer. The processing unit for information about changes occurring during the operation of the transformer, also called historical trends, allows, based on archive data coming from the processing and archiving unit of the received data, to restore information at any time about the processes that have occurred and are ongoing during the operation of the transformer and about changes in the state of its most important systems, and also to predict its state on the basis of existing trends. The unit for visualizing the values of the measured parameters provides the operator with the opportunity to conveniently work with the current, archived and calculated values of the operating parameters in the form of tables and / or graphs, which allows you to timely track the occurrence of a pre-emergency or emergency situation and take measures to prevent and / or eliminate such a situation. The data transmission and integration unit of the monitoring system in the automated control system and automated control system allows dispatchers to control all operating parameters and work with archive data, as well as with information about changes occurring during the operation of the transformer at a distance. Information about the values of the measured operating parameters, about the parameters obtained by calculation, and about the events occurring during the operation of the transformer is received in the data transmission and monitoring system integration unit in the automated control system and automated control system from the calculation model unit according to the real-time measurement data, the remote control unit the on-load tap-changer, the control unit of the oil cooling system of the transformer, the processing and archiving unit of the received data, the processing unit of information about what is happening during the ex transformer operation changes. This allows you to remotely control the operation of the most important transformer systems from the central control center and constantly monitor its operation modes.

A device for monitoring power transformers is illustrated in the drawing, which shows a block diagram of the inventive device.

A device for monitoring power transformers comprises a current measuring unit 1, a voltage measuring unit 2, an ambient temperature measuring unit 3, a transformer oil cooling system monitoring unit 4, a transformer oil high voltage condition monitoring unit 5, and a received data processing and archiving unit 6 provided with system programmed in accordance with the main permissible parameters of the transformer in operation, block 7 alert staff about melting of the protection system, winding temperature control unit 8, transformer oil condition monitoring unit 9, on-load tap-changer position monitoring unit 10, transformer integral characteristics calculation unit 11, emergency process registration unit 12, unit 13 of calculation models according to real-time measurement data, unit 14 control transformer oil cooling system, on-load tap-changer remote control unit 15, transformer status logging unit 16, measured value visualization unit 17 in the form of tables and / or graphs, data transfer unit 18 and monitoring system integration in the automated control system and automated control system, information processing unit 19 about changes that occur during operation of the transformer. The first output of the current measuring unit 1 is connected to the first input of the transformer integral characteristics calculation unit 11, its second output is connected to the first input of the emergency process recording unit 12, its third output is connected to the first input of the calculation model unit 13 according to real-time measurement data, its fourth output is connected to the first input of the data processing and archiving unit 6, its fifth output is connected to the first input of the transformer status logging unit 16, its sixth output is connected connected to the first input of the unit 7 notifying maintenance personnel about the status of the protection system, its seventh output is connected to the first input of the on-load tap-changer unit 15, the first output of the voltage measurement unit 2 is connected to the second input of the integral characteristics calculation unit 11, its second output is connected to the second input of the unit 12 for recording emergency processes, its third output is connected to the second input of the block 13 of the calculation models according to real-time measurements, its fourth output is connected to the other input of the block 6 for processing and archiving the received data, its fifth output is connected to the second input of the transformer status logging unit 16, its sixth output is connected to the second input of the personnel alert notification unit 7 about the state of the protection system, the first output of the ambient temperature measuring unit 3 is connected with the third input of the block 13 calculation models according to measurements in real time, its second output is connected to the third input of the block 16 of the transformer status logs, its third output One is connected to the third input of the block 6 for processing and archiving the received data, its fourth output is connected to the first input of the transformer oil cooling system control unit 14, its fifth output is connected to the third input of the personnel alert notification unit 7, the first output of the control unit 4 the oil cooling system of the transformer is connected to the fourth input of the block 13 calculation models according to measurements in real time, its second output is connected to the fourth input of the block 16 ia transformer status logs, its third output is connected to the fourth input of the processing and archiving unit 6 of the received data, its fourth output is connected to the second input of the transformer oil cooling system control unit 14, its fifth output is connected to the fourth input of the system personnel notification unit 7 protection, the first output of the temperature control unit 8 of the windings is connected to the fifth input of the block 13 of the calculation models according to measurements in real time, its second output is connected to the first input of the transformer status logging unit 16, its third output is connected to the fifth input of the processing and archiving unit 6 of the received data, its fourth output is connected to the third input of the transformer oil cooling system control unit 14, its fifth output is connected to the fifth input of the service notification unit 7 personnel about the state of the protection system, the first output of the transformer oil condition monitoring unit 9 is connected to the sixth input of the calculation model unit 13 according to real-time measurements and, its second output is connected to the sixth input of the transformer status logging unit 16, its third output is connected to the sixth input of the data processing and archiving unit 6, its fourth output is connected to the fourth input of the transformer oil cooling system control unit 14, its fifth output is connected with the sixth input of the unit 7 notifying maintenance personnel about the state of the protection system, the first output of the unit 5 for monitoring the state of the high-voltage inputs of the transformer is connected to the seventh input of the unit 7 for notifying tinning personnel about the state of the protection system, its second output is connected to the seventh input of the transformer status logging unit 16, its third output is connected to the seventh input of the data processing and archiving unit 6, the first output of the on-load tap-changer position control unit 10 is connected to the seventh input of block 13 design models according to measurements in real time, its second output is connected to the eighth input of transformer status logging unit 16, its third output is connected to the eighth input of unit 6 processing and archiving the received data, its fourth output is connected to the second input of the on-load tap-changer block 15 of the on-load tap-changer, the first output of the protection personnel alert unit 7 is connected to the ninth input of the transformer status logging unit 16, its second output is connected to the ninth input of the block 6 processing and archiving the received data, the first output of the block 11 for calculating the integral characteristics of the transformer is connected to the eighth input of the block 13 of the calculation models according to the measured in real time, its second output is connected to the tenth input of the transformer status logging unit 16, its third output is connected to the tenth input of the processing and archiving unit 6 of the received data, the first output of the emergency process recording unit 12 is connected to the eleventh input of the logging unit 16 state of the transformer, its second output is connected to the eleventh input of the block 6 for processing and archiving the received data, its third output is connected to the eighth input of the block 7 alerts service personnel the state of the protection system, its fourth output is connected to the first input of the block 17 for visualizing the values of the measured parameters in the form of tables and / or graphs, the first output of the block 13 of calculation models according to the measurement data in real time is connected to the twelfth input of the block 16 of transformer status logging , its second output is connected to the twelfth input of the received data processing and archiving unit 6, its third output is connected to the first input of the data transmission and integration unit 18 of the monitoring system in the automated control system and automated control system, its fourth output is connected to the input of the winding temperature control unit 8, its fifth output is connected to the fifth input of the transformer oil cooling system control unit 14, its sixth output is connected to the second input of the measured value visualization unit 17 in the form of tables and / or graphs, the first output block 15 of the remote control of the on-load tap-changer device is connected to the third input of the block 17 for visualizing the values of the measured parameters in the form of tables and / or graphs, its second output is connected to the thirteenth input of the block 16 journaling The status of the transformer, its third output is connected to the second input of the data transmission and monitoring system integration unit 18 in the automated control system and the automatic control system, its fourth output is connected to the ninth input of the personnel alert notification unit 7 about the status of the protection system, the first output of the oil cooling system control unit 14 is connected with the fourth input of the measured value visualization unit 17 in the form of tables and / or graphs, its second output is connected to the fourteenth input of the transformer status logging unit 16, its third output One is connected to the third input of the data transmission and monitoring system integration unit 18 in the automated control system and the automatic control system, the first output of the received data processing and archiving unit 6 is connected to the fifth input of the measured parameter visualization unit 17 in the form of tables and / or graphs, its second output is connected to the fourth the input of the data transmission unit 18 and the monitoring system integration in the automatic control system and the automatic control system, its third output is connected to the input of the information processing unit 19 about changes that occur during the operation of the transformer, its fourth output is connected to the fifth input of the on-load tap-changer remote control unit 15, its fifth output is connected to the sixth input of the transformer oil cooling system control unit 14, its sixth output is connected to the tenth input of the personnel alert notification unit 7 about the status of the protection system, the first output of the transformer status logging unit 16 is connected with the sixth input of the measured value visualization unit 17 in the form of tables and / or graphs, its second output is connected to the thirteenth input of the processing and archiving unit 6 received yes ny, the first output of the unit 19 for processing information about changes occurring during the operation of the transformer is connected to the fifth input of the data transmission and integration unit 18 of the monitoring system in the automated control system and the automated control system, its second output is connected to the fourteenth input of the data processing and archiving unit 6, the first output of the unit 17 visualization of the measured parameters in the form of tables and / or graphs is connected to the fourth input of the remote control unit 15 of the on-load tap-changer. Block 1 measuring the magnitude of the current is equipped with means for measuring instantaneous, average and current values of the current in the windings of high, medium and low voltage in phases A, B, C. Block 2 measuring the magnitude of the voltage is equipped with means for measuring instantaneous, average and effective values of voltage in the windings high, medium and low voltage in phases A, B, C. The control unit 4 of the transformer oil cooling system is equipped with means for measuring the temperature of the upper layers of transformer oil, with means for measuring perature transformer oil at the inlet and outlet of coolers, means for monitoring the oil level and means for controlling the oil pressure in the transformer tank and the tap changer tank. Unit 5 monitoring the state of the high-voltage bushings of the transformer is equipped with means for measuring the oil pressure in the bushings and means for measuring leakage currents in the insulation. The winding temperature control unit 8 is equipped with means for measuring the temperature in the high, medium and low voltage windings in phases A, B, C. The transformer oil condition monitoring unit 9 is equipped with means for measuring the oil temperature, its humidity and the concentration of gases dissolved in the oil in the transformer tank and on-load tap-changer tank. The device for processing the obtained data is made in the form of a block 6 for processing and archiving the obtained data, equipped with a system programmed in accordance with the main acceptable parameters of the transformer in operation.

A device for monitoring power transformers operates as follows.

All the main operating parameters of the power transformer are measured and monitored using measuring units for primary parameters. Block 1 measuring the magnitude of the current measures the instantaneous, average, and current values of the current in the windings of high, medium, and low voltage in phases A, B, C, providing constant monitoring of all current values and tracking the presence or absence of current overloads. The voltage measurement unit 2 measures the instantaneous, average, and effective voltage values in the high, medium, and low voltage windings in phases A, B, C, providing constant monitoring of all voltage values and monitoring for the presence or absence of voltage overloads. The ambient temperature measuring unit 3 constantly monitors the value of the indicated temperature. The control unit 4 of the transformer oil cooling system monitors the temperature of the upper layers of transformer oil, measures the temperature of the transformer oil at the inlet and outlet of coolers, controls the oil level and controls the oil pressure in the transformer tank and on-load tap-changer tank, which allows full control of the transformer oil cooling system and timely to prevent emergency situations that may occur when the oil level in or in the transformer tank rises or falls troystva tap changer, with a sharp increase of oil pressure in the tank of the transformer or tap changer tank, with an increase in the oil temperature in the transformer tank or tank OLTC above permissible. The transformer high-voltage bushings state monitoring unit 5 measures the oil pressure in the bushings and measures the leakage currents in the insulation. Unit 8 for monitoring the temperature of the windings measures the temperature in the windings of high, medium and low voltage in phases A, B, C. Unit 9 for monitoring the condition of the transformer oil measures the temperature of the oil, its moisture content and the concentration of dissolved gases in the oil in the transformer tank and on-load tap-changer tank . The primary parameters are processed by a block 11 for calculating the integral characteristics of the transformer and a block 12 for recording emergency processes. Based on the information received from the current magnitude measuring unit 1 and the voltage magnitude measuring unit 2, the transformer integral characteristic calculation unit 11 calculates all necessary electrical and non-electric characteristics, including active, reactive and apparent power, energy, load factor, coefficient power. Based on the information received from the current magnitude measuring unit 1 and the voltage magnitude measuring unit 2, and taking into account the calculated integral characteristics, the alarm recording unit 12 automatically records the oscillograms when the permissible instant, average and effective values of any of the measured parameters are exceeded. Unit 10 for monitoring the position of the on-load tap-changer device provides information about the position of the on-load tap-changer in phases A, B and C, about the start and end time of the on-load tap-changer switch in each phase, about the number of switch-overs of the on-load tap-changer, which allows operational monitoring of the on-load tap-changer operation. Block 13 of calculation models according to real-time measurements based on information received from current magnitude measuring unit 1, voltage magnitude measuring unit 2, ambient temperature measuring unit 3, transformer oil cooling system control unit 4, high-voltage bushings state control unit 5 transformer, winding temperature control unit 8, transformer oil condition control unit 9, on-load tap-changer position control unit 10, calculates the transformer service life taking into account the temperature of the warmest point of the winding, the quality of the transmitted energy, active, reactive and apparent power, average values of current and voltage in a three-phase network, positive and negative sequences of current and voltage, unbalance of currents and voltages in a three-phase network, power factor, amplitude ratio zero harmonic current to the sum of all harmonics of the current, the cosine of the phase difference of the harmonics of current and voltage, power consumption (active and reactive), the total percentage of harmonic distortion d, transformation coefficient, permissible load factor, transformer service life, on-load tap-changer service life, insulation aging rate. In the event of an emergency in one or more transformer systems, the protection system is activated, which causes the sound and light signaling of the unit 7 to alert service personnel about the status of the protection system. The alarm is disabled only after the maintenance personnel take measures to eliminate the emergency. The transformer oil cooling system control unit 14 uses information received from the transformer oil cooling system control unit 4 and the calculation model unit 13 according to real-time measurement data. The control of the oil cooling system of the transformer allows for minimal fluctuations in the oil temperature in the oil cooling system of the transformer, as well as controlling the wear of the drives of the cooling system. Unit 15 for remote control of the on-load tap-changer device switches the on-load tap-changer at the command of the operator or dispatcher from a remote control room through block 17 for visualizing the values of the measured parameters in the form of tables and / or graphs. The remote control unit 15 of the on-load tap-changer can block its switching upon receipt of information from the current measuring unit about current transformer overloads.

The transformer status logging unit 16 continuously records all current parameters measured and controlled by the current magnitude measuring unit 1, the voltage magnitude measuring unit 2, the ambient temperature measuring unit 3, the transformer oil cooling system control unit 4, and the transformer high voltage bushings state monitoring unit 5 unit 8 for monitoring the temperature of the windings, unit 9 for monitoring the status of transformer oil, unit 10 for monitoring the position of the on-load tap-changer. The transformer status logging unit 16 also continuously records all design parameters coming into it from the transformer integral calculation unit 11, the calculation model unit 13 according to real-time measurement data, as well as from the emergency process recording unit 12. It registers the transformer status logging unit 16 and information on the operation of the notification unit 7 for maintenance personnel about the status of the protection system, as well as the actions carried out using the on-load tap-changer remote control unit 15 and the transformer oil cooling system control unit 14. The unit 6 for processing and archiving the received data, equipped with a system programmed in accordance with the main permissible parameters of the transformer in operation, processes and maintains archives of all measured and calculated parameters, as well as all events occurring during the operation of the transformer, compares the data received with acceptable parameters of the transformer. Unit 19 for processing information about changes occurring during the operation of the transformer, also called historical trends, allows, based on archive data coming from unit 6 for processing and archiving the received data, to restore information at any time about the processes that have occurred and are occurring during the operation of the transformer and about changes in the state of its most important systems, as well as to predict its state on the basis of existing trends. The unit 17 for visualizing the values of the measured parameters provides the operator with the opportunity to conveniently work with the current, archived and calculated values of the operating parameters in the form of tables and / or graphs, which allows you to timely track the occurrence of a pre-emergency or emergency situation and take measures to prevent and / or eliminate such a situation . Block 18 of data transmission and integration of the monitoring system in the automated control system and automatic control system allows dispatchers to remotely monitor all operating parameters and work with archive data, as well as with information about changes that occur during operation of the transformer. Information about the values of the measured operating parameters, about the parameters obtained by calculation, and about the events occurring during the operation of the transformer is received in the data transmission unit 18 and the monitoring system integration in the automated control system and automated control system from the unit 13 of the calculation models according to the measurement data in real time, unit 15 remote control of the on-load tap-changer, block 14 for controlling the oil cooling system of the transformer, block 6 for processing and archiving the received data, block 19 for processing information about the percentage The operation of the transformer changes. This allows you to remotely control the operation of the most important transformer systems from the central control center and constantly monitor its operation modes.

As can be seen from the foregoing, the claimed device for monitoring power transformers provides the ability to monitor all the main operating parameters of the transformer in real time and to obtain information about the absolute values of the main operating parameters in the form of tables and / or graphs at any time during operation not only by the servicing staff, but also from a remote control center.

In the inventive device for monitoring power transformers, as a means for measuring the instantaneous, average and effective current values in the high, medium and low voltage windings in phases A, B, C in the current measuring unit 1, standard means are used to measure the current, and to measure the instantaneous, average and effective voltage values in the windings of high, medium and low voltage in phases A, B, C in unit 2 of the voltage measurement, standard ones are used, designed to measure rhenium means stress in the relative frequency devices Power Monitor 3000 Allen Bradley manufactured. To measure the ambient temperature, block 3 contains standard means intended for this purpose, for example, PT100 devices. In the control unit 4 of the transformer oil cooling system for measuring the temperature of the upper layers of transformer oil, for measuring the temperature of transformer oil at the inlet and outlet of coolers, for monitoring the oil level and for monitoring the oil pressure in the transformer tank and on-load tap-changer tank, known means are used such as PT100 temperature control devices, OTI oil temperature indicators manufactured by AB QUALITROL, AKM oil pressure measuring device oil level Series 67/69. The unit 5 for monitoring the state of the high-voltage bushings of the transformer for measuring the oil pressure in the bushings and for measuring leakage currents in the insulation also uses well-known tools designed for this purpose, for example, the AKM oil level Series 67/69 oil pressure measuring device and conductivity current recorders with DB sensors -1 production company "Vibro-Center." In the unit 8 for monitoring the temperature of the windings for measuring the temperature in the high, medium and low voltage windings in phases A, B, C, well-known means are also used, for example, the temperature indicator in the WTI Series 35 winding manufactured by AB QUALITROL. In unit 9 for monitoring the condition of transformer oil, to measure the oil temperature, its humidity and the concentration of gases dissolved in the oil in the transformer tank and the on-load tap-changer tank, well-known tools are also used for this purpose, for example, for measuring the humidity of the oil - a Domino device manufactured by Doble Engineering Company, for Measuring the concentration of gases dissolved in oil - a Hydran instrument manufactured by GE Siprotec Ink. Unit 10 for monitoring the position of the on-load tap-changer, block 11 for calculating the integral characteristics of the transformer, block 12 for recording emergency processes, block 13 for calculation models based on real-time measurements, block 14 for controlling the oil cooling system of the transformer, block 15 for remote control of the on-load tap-changer, block 16 for reference transformer status logs, block 17 for visualizing the values of the measured parameters in the form of tables and / or graphs, block 18 for transmitting data and integrating the monitoring system in the automated control system and automatic control system, block 19 for processing Information on changes occurring during the operation of the transformer is made on the basis of well-known computer technology and equipped with programs designed to perform the necessary actions. Block 11 calculation of the integral characteristics of the transformer determines the parameters of idling and short circuit of the transformer, the transmitted power and energy. Block 12 registration of emergency processes registers oscillograms of currents and voltages in excess of a predetermined value. Block 13 of calculation models according to measurements in real time performs calculations according to predetermined methods, using the values measured during operation as initial data. The transformer oil cooling system control unit 14 turns on and off the pumps and cooler fans depending on the temperature of the warmest point of the winding. The on-load tap-changer remote control unit 15 allows switching of the on-load tap-changer from a remote terminal. The transformer status logging unit 16 registers all the responses of the control equipment, as well as all the actions of the maintenance personnel. Block 17 visualization of the values of the measured parameters in the form of tables and / or graphs allows you to display on the monitor screen as the data of the current measurements, and archive data for analysis. Block 18 of data transmission and integration of the monitoring system in the automated control system and automatic control system organizes the transfer of data necessary for integration into the existing automated process control systems at the substation (station). Unit 19 for processing information about changes occurring during operation of the transformer compares and analyzes changes in the parameters of the transformer during operation according to a given algorithm.

Claims (1)

A device for monitoring power transformers, including a current measuring unit, comprising means for measuring current values in one transformer winding, a voltage measuring unit, an ambient temperature measuring unit, a transformer oil cooling system control unit, comprising means for measuring the temperature of the upper layers of transformer oil , a unit for monitoring the state of high-voltage bushings of a transformer, comprising means for measuring oil pressure in the bushings, a device for processing of the received data and a notification unit for maintenance personnel about the status of the protection system, the first, second, third, fourth and fifth inputs of which are connected respectively to the outputs of the current magnitude measuring unit, voltage magnitude measuring unit, ambient temperature measuring unit, transformer oil cooling system control unit and a control unit for oil pressure in the high-voltage inputs of the transformer, characterized in that it further comprises a control unit for temperature of the windings, a control unit with melting of transformer oil, position control unit for voltage regulation device under load (on-load tap-changer), unit for calculating transformer integral characteristics, unit for recording emergency processes, unit for calculation models based on real-time measurement data, transformer oil cooling system control unit, on-load tap-changer remote control unit , transformer status logging unit, visualization unit of measured parameter values in the form of tables and / or graphs, data transmission unit x and integrating the monitoring system into an automated dispatch control system (ASDU) and an automated electricity metering system (ASUE), a unit for processing information about changes that occur during operation of the transformer, while the current measuring unit is equipped with means for measuring instantaneous, average and effective current values in the windings of high, medium and low voltages in phases A, B, C, the unit for measuring the magnitude of the voltage is equipped with means for measuring instantaneous, average and current values voltage in the windings of high, medium and low voltages in phases A, B, C, the control unit of the transformer oil cooling system is additionally equipped with means for measuring the temperature of the transformer oil at the inlet and outlet of coolers, means for monitoring the oil level and means for monitoring the oil pressure in transformer tank and on-load tap-changer tank, transformer high-voltage bushings condition monitoring unit is additionally equipped with means for measuring leakage currents in isolation, processing device The data obtained is made in the form of a processing and archiving unit for the received data, equipped with a system programmed in accordance with the main acceptable parameters of the transformer in operation, the first output of the current magnitude measuring unit connected to the first input of the transformer integral characteristics calculation unit, its second output connected to the first input of the unit for recording emergency processes, its third output is connected to the first input of the block of calculation models according to measurements in real time headquarters, its fourth output is connected to the first input of the processing and archiving unit of the received data, its fifth output is connected to the first input of the transformer status logging unit, its sixth output is connected to the first input of the personnel alert unit, the seventh output is connected with the first input of the on-load tap-changer remote control unit, the first output of the voltage measurement unit is connected to the second input of the integrated characteristics calculation unit, its second output connected to the second input of the unit for recording emergency processes, its third output is connected to the second input of the calculation model unit according to real-time measurements, its fourth output is connected to the second input of the processing and archiving of received data, its fifth output is connected to the second input of the reference unit transformer status logs, its sixth output is connected to the second input of the personnel alert unit about the status of the protection system, the first output of the ambient temperature measuring unit It is connected to the third input of the block of calculation models according to real-time measurements, its second output is connected to the third input of the transformer status logging unit, its third output is connected to the third input of the data processing and archiving unit, and its fourth output is connected to the first input the control unit of the oil cooling system of the transformer, its fifth output is connected to the third input of the notification unit for maintenance personnel about the status of the protection system, the first output of the control unit is topics of oil cooling of the transformer is connected to the fourth input of the block of calculation models according to real-time measurements, its second output is connected to the fourth input of the transformer status logging unit, its third output is connected to the fourth input of the processing and archiving unit of the received data, its fourth output is connected with the second input of the transformer oil cooling system control unit, its fifth output is connected to the fourth input of the maintenance personnel alert unit protection system, the first output of the temperature control unit of the windings is connected to the fifth input of the calculation model unit according to real-time measurements, its second output is connected to the fifth input of the transformer status logging unit, its third output is connected to the fifth input of the processing and archiving unit data, its fourth output is connected to the third input of the transformer oil cooling system control unit, its fifth output is connected to the fifth input of the personnel alert the state of the protection system, the first output of the transformer oil condition monitoring unit is connected to the sixth input of the calculation model unit according to real-time measurements, its second output is connected to the sixth input of the transformer status logging unit, its third output is connected to the sixth input of the processing and archiving unit received data, its fourth output is connected to the fourth input of the control unit of the transformer oil cooling system, its fifth output is connected to the sixth input of the unit the maintenance personnel on the state of the protection system, the first output of the control unit for the state of the high-voltage inputs of the transformer is connected to the seventh input of the alert unit for the personnel of the protection system, its second output is connected to the seventh input of the transformer status logging unit, its third output is connected to the seventh input of the unit processing and archiving the received data, the first output of the on-load tap-changer position control unit is connected to the seventh input of the calculation model unit according to the measurement data in real time, its second output is connected to the eighth input of the transformer status logging unit, its third output is connected to the eighth input of the processing and archiving unit of the received data, its fourth output is connected to the second input of the on-load tap-changer control unit, the first output of the maintenance personnel alert unit about the state of the protection system is connected to the ninth input of the transformer status logging unit, its second output is connected to the ninth input of the processing and archiving unit obtained data, the first output of the unit for calculating the integral characteristics of the transformer is connected to the eighth input of the unit of calculation models according to real-time measurements, its second output is connected to the tenth input of the transformer status logging unit, its third output is connected to the tenth input of the processing and archiving unit received data, the first output of the emergency recording unit is connected to the eleventh input of the transformer status logging unit, its second output is connected to the eleventh input of the processing and archiving unit of the received data, its third output is connected to the eighth input of the notification unit for maintenance personnel about the status of the protection system, its fourth output is connected to the first input of the unit for visualizing the values of the measured parameters in the form of tables and / or graphs, the first output of the block of calculation models according to measurements in real time, it is connected to the twelfth input of the transformer status logging unit, its second output is connected to the twelfth input of the processing unit and archiving the received data, its third output is connected to the first input of the data transmission unit and the integration of the monitoring system into the automatic control system and automatic control system, its fourth output is connected to the input of the temperature control unit of the windings, its fifth output is connected to the fifth input of the transformer oil cooling system control unit, its sixth the output is connected to the second input of the measured value visualization unit in the form of tables and / or graphs, the first output of the on-load tap-changer remote control unit is connected to the third input of the VI unit of measuring values of the measured parameters in the form of tables and / or graphs, its second output is connected to the thirteenth input of the transformer status logging unit, its third output is connected to the second input of the data transmission unit and the monitoring system integration in the automated control system and automatic control system, its fourth output is connected to the ninth the input of the notification unit for maintenance personnel about the state of the protection system, the first output of the control unit of the oil cooling system is connected to the fourth input of the visualization unit of the measured parameters in the form of a table and / or graphs, its second output is connected to the fourteenth input of the transformer status logging unit, its third output is connected to the third input of the data transmission and monitoring system integration unit in the automated control system and automatic control system, the first output of the processing and archiving unit of the received data is connected to the fifth input of the unit visualization of the measured parameters in the form of tables and / or graphs, its second output is connected to the fourth input of the data transmission unit and the integration of the monitoring system in the automated control system and automatic control system, its third output is connected to the input of the unit processing information about changes occurring during the operation of the transformer, its fourth output is connected to the third input of the on-load tap-changer remote control unit, its fifth output is connected to the sixth input of the transformer’s oil-cooling system control unit, its sixth output is connected to the tenth input of the maintenance personnel alert unit protection systems, the first output of the transformer status logging unit is connected to the sixth input of the measured parameter visualization unit in the form of persons and / or graphs, its second output is connected to the thirteenth input of the processing and archiving unit of the received data, the first output of the information processing unit of changes occurring during the operation of the transformer is connected to the fifth input of the data transmission and integration of the monitoring system in the automated control system and the automated control system, the second the output is connected to the fourteenth input of the processing and archiving unit of the received data, the first output of the visualization block of the measured parameters in the form of tables and / or graphs is connected to the fourth input of the dist ntsionnogo control unit of RPN.