RU2473916C1 - Method for monitoring and control of electric energy consumption process and device for its realisation - Google Patents

Abstract

FIELD: electricity.SUBSTANCE: method includes transfer of control commands, connection of electric energy loads via load switching devices, controlled by signals from electric energy counters with an assigned identifier, combined into groups, which measure capacity consumed by a load, and amount of consumed electric energy, connection with wire communication channels to devices of counters group control, recording values of complex resistances and values of lengths of sections of the supply power grid from the transformer substation to each load of electric energy into a unit of nonvolatile memory, calculation of the difference between released and total consumed electric energy, fixation of changes of technical condition of the supply power grid by the value of deviation beyond the rated limits of the difference between released and consumed electric energy, detection of correlation of the deviation schedule beyond the rated limits of the difference between the released and consumed electric energy with schedules of changes in consumption of electric energy by individual loads, comparison of actual and calculated voltage drops in the supply power grid. Also a device is proposed that realises the specified method.EFFECT: higher accuracy and validity of detecting sections in a supplying power grid with technical faults and unauthorised extraction of electric energy.2 cl, 1 dwg

Description

The invention relates to electrical measuring equipment for metering energy consumption and controlling the means of switching power supply networks and can be used by power supply organizations to identify and prevent unauthorized interference in the process of electricity supply to consumers.

A known method of centralized remote control of the process of supplying electric energy (RF Patent No. 2225011, G01R 21/00, 2004), which includes the transfer of control commands from the control center to individual data collection and transmission devices and control over bidirectional shared communication channels with unique identification addresses, connecting consumers of electricity to the supply network through load switching devices controlled by electric energy meters that measure conjugation to the mains, and electric current, power and power consumed by each load of the consumer of electric energy, and connection of electric power meters for each consumer of electricity directly to the individual data acquisition device and transmission control.

The disadvantage of this method is the high cost and significant complexity of implementation, due to the use of individual devices for collecting, transmitting data and control, as well as the lack of recognition of sections of the supply network with technical malfunctions and (or) unauthorized selection of electrical energy.

Closest to the claimed is the "Method of controlling the process of supply of electric energy in areas with a high concentration of consumers" (RF Patent No. 2277280, H02J 13/00, G01R 11/00, 2006), adopted for the prototype, namely that the team the control is transmitted from the control center via the radio channel, the control command consists of the address part, the command code and data, the electricity consumers are connected to the supply network via load switching devices, controlled by the signals from the electric energy meters, which measure the power consumed by the load and the amount of electric energy consumed, accumulate it with a cumulative total in the kilowatt-hour energy storage register, combine electric energy meters into groups, connect wired communication channels to control devices for a group of meters, each meter and each group control device counters assign their identifier, in the control center they keep records of the total number of kW-hours paid for each meter, information about the amount paid t-hours are transmitted over the air in the appropriate command, indicating in its address part the identifier of the control device for the group of meters and the identifier of the counter, and in the data part the total number of kWh paid for, the control devices of the group of meters receive the commands transmitted over the air, record and store own memory, the number of paid kW-hours for each counter of the subordinate group, then the received value of the paid kW-hours is transmitted via a wired communication channel to the counter with an identifier, a decree data in the address part of the command, and the electric energy meters receive the total amount of paid electric energy via a communication channel and write it into their register-drive of paid kW-hours, calculate the balance as the difference between the register-drive of paid kW-hours and the register-drive of consumed kW-hours, according to the calculated value of the balance in the table recorded in the memory of the meters, select the acceptable level of power consumption, if the level of power consumption measured by the meter has exceeded to Ustimov, issue a load switching device switching off the load signal from the power mains.

The disadvantage of this method is the lack of recognition of sections of the supply network with technical malfunctions and (or) unauthorized selection of electrical energy.

The technical result of the proposed method is to ensure the accuracy and reliability of determining sections of the supply network with possible technical malfunctions and (or) unauthorized selection of electrical energy.

The technical result is achieved by the fact that in the method of monitoring and controlling the process of electric energy consumption, control commands are transmitted from the control center, electricity consumers are connected to the supply network via load switching devices, controlled by signals from electric energy meters, which measure the power consumed by the load and the amount consumed electric energy, electric energy meters are combined into groups, connected by wire communication channels to devices boards of a group of meters, each meter and each device for controlling a group of meters is assigned its own identifier, the values of the complex resistances and the lengths of the sections of the supply network from the transformer substation to each consumer of electricity are recorded in the non-volatile memory unit, the difference between the supplied and total consumed electricity consumers is calculated , record the change in the technical condition of the supply network in terms of deviation beyond the normalized limits of the difference between the electricity supplied and consumed by consumers of electric energy, a correlation is determined between the deviation schedule for the normalized differences between the electricity supplied and consumed by consumers of electric energy and the graphs of changes in electricity consumption by individual electricity consumers, the real and calculated by the complex resistances and lengths of sections of the supply network are compared from transformer substation to every consumer of electric power Sections of voltage drops in the supply network, identify sections of the supply network with possible technical malfunctions and (or) unauthorized selection of electric energy, send repair and technical personnel to emergency sections of the supply network and (or) disconnect individual consumers of electricity from the supply network that carry out unauthorized selection of electric power energy.

A device that implements this method contains "n" structurally identical local modules for metering and regulating the consumption of electric energy, each of which includes a meter for electric energy and load switching, which is connected to the input of the consumer by the output, and the first input is connected through the mains to the output of the transformer substation and the second input is connected via a bi-directional shared communication channel with a unique identification address to the block of data acquisition and control devices eniya and control center, connected via a bidirectional communication channels sharing a unique identification address to the data collection and transmission control units, and a transformer substation to the nonvolatile memory unit.

Figure 1 shows a block diagram of the proposed device for monitoring and controlling the process of consumption of electric energy.

A device for monitoring and controlling the process of electric energy consumption contains “n” structurally identical local modules for metering and regulating electric energy consumption, each of which includes an electric energy metering and load switching unit 2 _i , where 1 _i (i = 1 ÷ n), which output connected to an input power consumer 3 _i, the first input is connected via a feed circuit 4 with the output transformer substation 5, and a second input connected via a bidirectional communication channel shared with unique dentifikatsionnym location devices to block the data collection and transmission control 6. The control center 7 is connected for bidirectional communication channels sharing a unique identification address to the data collection device block transmission and control 6, to the substation 5, and a nonvolatile memory unit 8.

The method is as follows.

Preliminarily, in the non-volatile memory 8, the values of the complex resistances and the lengths of the sections of the supply network from the transformer substation to each consumer of electric energy are recorded and transmitted via a bidirectional communication channel with unique identification addresses to the control center 7 upon request.

The electric energy metering and load switching units 2 _i continuously measure the voltage U _i in the electric network 4, as well as the electric current I _i of the load power P _i and the electric energy W _i consumed by the load of each consumer of electric energy 3 _i .

, причем

а также определение корреляции графика отклонения за нормируемые пределы 6 разницы отпущенной W_o и потребленной «n» потребителями электроэнергии 3_i суммарной электрической энергии

с графиком изменения потребления электрической энергии отдельными потребителями электроэнергии 3_i и сравнение реальных и рассчитанных по комплексным сопротивлениям и длинам участков подводящей электросети 4 от трансформаторной подстанции 5 до каждого потребителя электроэнергии 3_i падений напряжений в подводящей электросети 4.The measurement results are sent via bi-directional communication channels with unique identification addresses to the data collection and control unit 6 and, upon request, to the control center 7, where the technical condition of the supply network 4 is analyzed by the deviation beyond the normalized limits δ of the difference delivered, t .e. measured at the output of the transformer substation 5 of electric energy W _о , and consumed by consumers of electricity 3 _i total electric energy

, and

as well as determining the correlation of the deviation schedule beyond the normalized limits 6 differences of the released W _o and consumed “n” by consumers of electricity 3 _i total electric energy

with a graph of changes in electrical energy consumption by individual consumers of electricity 3 _i and comparison of real and calculated by the complex resistances and lengths of sections of the supply network 4 from the transformer substation 5 to each consumer of electricity 3 _i voltage drops in the supply network 4.

то можно сделать вывод об ухудшении технического состояния контактов подводящей электросети 4 либо о несанкционированном отборе электрической энергии в случае одновременного снижения мощности нагрузки P_i потребителя электрической энергии 3_i.The data on the released electric energy W _o from the transformer substation 5 is transmitted, upon request, to the control center 7 via a bi-directional shared communication channel with unique identification addresses. If

then we can conclude that the technical condition of the contacts of the supply network 4 deteriorates or that unauthorized selection of electric energy occurs in the case of a simultaneous decrease in the load power P _i of the electric energy consumer 3 _i .

More reliably indicates the unauthorized selection of electric energy by the consumer of electric energy 3 _{i the} fact of the following relationship between the actual voltage drop ΔU _i from the consumer of electric energy 3 _i and ΔU _{i (pasch.)} , Calculated by the values of electric currents I _i , complex resistances and lengths of sections of the supply _Mains 4: ΔU _i > ΔU _(pack) .

Based on the analysis of the technical condition of the supply network 4 in the control center 7, a decision is made to send repair and technical personnel 4 to the emergency sections of the supply network and (or) disconnect 4 individual consumers of electricity 3 _i from the supply network, who are carrying out unauthorized selection of electrical energy.

Thus, the implementation of the proposed method and device allows for high accuracy and reliability of determining sections of the supply network with possible technical malfunctions and (or) unauthorized selection of electric energy, as well as take the necessary measures to quickly eliminate the identified violations.

Claims (2)

1. A method of monitoring and controlling the process of consumption of electric energy, including the transfer of control commands from the control center to the unit of data collection and transmission and control via bi-directional public access channels with unique identification addresses, connecting consumers of electricity to the supply network via load switching devices controlled by signals from electric energy meters, which measure the voltage in the electric network, electric current, load power and the amount of electric energy consumed, and the connection of electric energy meters of each electric consumer to the block of data collection and transmission devices and control via bi-directional communication channels with shared identification addresses, characterized in that the values are pre-recorded in the non-volatile memory unit the values of the complex resistances and the lengths of the sections of the supply network from the transformer substation to each consumer electricity, calculate the difference between the electricity supplied and the total consumed by consumers of electric energy, fix the change in the technical condition of the supply network by the deviation for the normalized limits of the difference between the electricity supplied and consumed by the consumers, determine the correlation of the deviation chart for the normalized limits of the difference between the electricity supplied and consumed by consumers with graphs of changes in electrical energy consumption and by individual consumers of electricity, compare the real and calculated by the complex resistances and lengths of the sections of the supply network from the transformer substation to each consumer of electricity, the voltage drops in the supply network, identify the sections of the supply network with possible technical malfunctions and (or) unauthorized selection of electric energy, and send them to emergency sections of the power supply network repair and maintenance personnel and (or) disconnect from the power supply and individual electricity consumers carrying siphoning off of electric power. 2. Device for monitoring and controlling the process of electric energy consumption, characterized in that it contains “n” structurally identical local metering and regulation modules for electric energy consumption, each of which includes an electric energy metering and load switching unit, which is connected to the input of the consumer of electricity by the output , the first input is connected through the supply network to the output of the transformer substation, and the second input is connected via a bi-directional shared communication channel with a unique th location identification to the data acquisition and transmission and control devices and a control center connected by bidirectional communication channels sharing a unique identification address to the data collection and transmission control units, and a transformer substation to the nonvolatile memory unit.