RU2669188C1 - System for distribution of electricity - Google Patents

Abstract

FIELD: electrical engineering.SUBSTANCE: to be used in electrical engineering. System for power distribution contains a computing device, N modems, M counters, N+1 consumers. Input of the system is the input of the first counter, the output of the first counter is connected to the inputs of the second and third counter, the output of the second counter is connected to the input of the first consumer, the output of the third counter is connected to the inputs of the fourth and fifth counter, the output of the fourth counter is connected to the input of the second consumer, and so until last counter M, whose input, as well as the input of counter M-1, is connected to the output of counter M-2, the output of counter M-1 is connected to the input of consumer N, the output of counter M is connected to the input of consumer N+1. Information output of the first counter is connected to the input of the first modem, the output of the first modem is connected to the input of the computing device, information outputs of the second and third counters are connected to the inputs of the second modem, the outputs of the second modem are connected to the input and output of the third counter, the information outputs of the fourth and fifth counters are connected to the inputs of the third modem, the outputs of the third modem are connected to the input and output of the fifth counter, and so until the last counter M, the information output of which, also as information output of the counter M-1, is connected to the inputs of the modem N, the outputs of the modem N are connected to the input and output of the counter M.EFFECT: providing electricity distribution, measuring consumption of consumed electricity, detecting the location of electricity leakage (illegal electricity sampling), monitoring the distribution network and fixing the time of electricity leakage.1 cl, 1 dwg

Description

The invention relates to the field of production, conversion and distribution of electricity.

Various electrical distribution systems are known [A. Gerasimenko Fedin V.T. “Transmission and distribution of electrical energy”, - 4th ed. - M. KNORUS, 2016 - 648 s], consisting of a common line to which consumers are connected through electricity meters. With this scheme, the place of leakage of electricity (illegal selection of electricity) is not detected. The disadvantage of such devices is the inability to detect the place of leakage of electricity.

The closest in technical execution to the proposed system is an electrical distribution network containing overhead power lines with connecting consumers to a common bus. [Patent No. 2548569, Russia, 2013. Electric distribution network / Bezrukov Yu.V., Zhukov P.M., Perepilov K.V., Schamel V.V.]. The disadvantage of this electrical distribution network is the connection of consumers to a common bus, which does not allow:

- get real-time information about the energy consumption of each consumer;

- detect the place of leakage of electricity (illegal selection of electricity);

- monitor the distribution network and record the time of energy leakage.

The claimed invention is aimed at solving the problem of electricity distribution, measuring the consumption of electricity consumed by consumers, detecting a place of electric leakage (illegal selection of electricity), monitoring the distribution network and fixing the time of electric leakage.

The tasks set arise when building an electric power transmission network with the possibility of organizing a differentiated tariff policy (by time of day, season, compliance with planned consumption, etc.) with monitoring the consumption of electricity consumed by consumers.

The claimed system is built on the basis of counters (electricity consumption meters) and modems transmitting the results of measuring electricity consumption through power lines.

The essence of the invention lies in the fact that a computing device, N modems, M counters, N + 1 consumers are introduced into the system, the input of the system is the input of the first counter, the output of the first counter is connected to the inputs of the second and third counter, the output of the second counter is connected to the input of the first consumer , the output of the third counter is connected to the inputs of the fourth and fifth counter, the output of the fourth counter is connected to the input of the second consumer, and so on until the last counter M, the input of which, like the input of the counter M-1, is connected to the output of the count M-2, the output of the counter M-1 is connected to the input of the consumer N, the output of the counter M is connected to the input of the consumer N + 1, the information output of the first counter is connected to the input of the first modem, the output of the first modem is connected to the input of the computing device, the information outputs of the second and the third counters are connected to the inputs of the second modem, the outputs of the second modem are connected to the input and output of the third counter, the information outputs of the fourth and fifth counters are connected to the inputs of the third modem, the outputs of the third modem are connected to the input and Exit of the fifth counter, and so on until the last meter M, information output of which, as well as information output counter M-1, is connected to the N inputs of the modem, the modem N outputs, connected to the input and output of counter M.

The system consists of a computing device 1, N modems 2i, i = 1,2 ... N, M counters 3i, i = 1,2 ... M, N + 1 consumers 4i, i = 1,2 ... N + 1.

The input of the system is the input of the first counter 3 ₁ .

The output of the first counter 3 _{1 is} connected to the inputs of the second 3 ₂ and third 3 ₃ counter. The output of the second counter 3 _{2 is} connected to the input of the first consumer 4 ₁ .

The output of the third counter 3 _{3 is} connected to the inputs of the fourth and fifth counter.

The output of the fourth counter is connected to the input of the second consumer 4 ₂ and so on until the last 3 _M counter, the input of which, like the input of the 3 _M-1 counter, is connected to the output of the 3 _M-2 counter, the output of the 3 _M-1 counter is connected to consumer 4 _N , the output of the 3 _M counter is connected to the consumer input 4 _{N + 1} ,

The information output of the counter 3 _{1 is} connected to the input of the modem 2 ₁ . The output (which is both the input and output) of the modem 2 _{1 is} connected to the input of the computing device 1.

The information outputs of the counters 3 ₂ and 3 _{3 are} connected to the inputs of the modem 2 ₂ . The conclusions (are both inputs and outputs) of the modem 2 _{2 are} connected to the input and output of the counter 3 ₃ .

The information outputs of the counters 3 ₄ and 3 _{5 are} connected to the inputs of the modem 2 ₃ . The conclusions of the modem 2 _{3 are} connected to the input and output of the counter 3 ₅ and so on to the last counter 3 _M , the information output of which, as well as the information output of the counter 3 _M-1 , is connected to the inputs of the modem 2N, the outputs of the modem 2 _N are connected to the input and output 3 _m counter.

The system operates as follows.

Electricity from the transformer substation is fed to the input of the first meter 3 ₁ . From the output of the counter 3 ₁ electricity is supplied to the inputs of the meters 3 ₂ and 3 ₃ . From the output of the counter 3 ₂ electricity is transmitted to the first consumer 4 ₁ . From the output of counter 3 _3, electricity is transmitted to the input of meters 3 ₄ and 3 ₅ . From the output of counter 3 _4, electricity is transmitted to the second consumer 4 ₂ , and so on until the last counter M, the output of which is connected to the input of the consumer 4 _{N + 1} .

Counters 3 _M-1 and 3 _M , having measured the consumption of electric energy consumed by consumers 4 _N and 4 _{N + 1} , transmit the measurement results through modems 2 _N , 2 _i , ... 2 ₃ , 2 ₂ , 2 ₁ to computing device 1.

Counters 3 ₄ and 3 ₅ , having measured the consumption of electric energy consumed by the consumer 4 ₂ and transmitted to the counters 3 _i-1 and 3 _i , transmit the measurement results through modems 2 ₃ , 2 ₂ , 2 ₁ computing device 1.

The counters 3 ₂ and 3 ₃ , having measured the consumption of electric energy consumed by the consumer 4 ₁ and transmitted to the counters 3 ₄ and 3 ₅ , transmit the measurement results through modems 2 ₂ , 2 ₁ to the computing device 1.

The counter 3 ₁ , having measured the consumption of electric energy transmitted to the counters 3 ₂ and 3 ₃ , transmits the measurement results to the computing device 1.

Thus, the computing device 1 receives the results of measuring the energy consumption from all counters 3 _{i, i = i, 2 ... M.}

The operation of computing device 1 can be represented in the form of the following sequential steps.

At stage 1, the equality of the energy consumption passing through the first counter 3 ₁ and the sum of the energy consumption passing through the meters 3 ₂ and 3 _{3 is} checked. If equality is observed, then between the counter 3 ₁ and the counters 3 ₂ and 3 ₃ there is no leakage of electricity (illegal selection of electricity), otherwise there is a leak.

At stage 2, the equality of the energy consumption passing through the counter 3 ₃ and the sum of the energy consumption passing through the meters 3 ₄ and 3 _{5 is} checked. If equality is observed, then between the counter 3 ₃ and the counters 3 ₄ and 3 ₅ there is no leakage of electricity, otherwise there is a leak.

At stage N, the equality of the energy consumption passing through the 3 _M-2 counter and the sum of the electricity consumption passing through the 3 _M-1 and 3 _M meters is checked. If equality is observed, then between the 3 _M-2 meter and the 3 _M-1 and 3 _M meters there is no leakage of electricity (illegal selection of electricity), otherwise there is a leak.

At stage N + 1, the place and time of the leakage of electricity are fixed, as well as the calculation of the cost of electricity consumed by each consumer.

Thus, the system allows:

- get real-time information about the energy consumption of each consumer;

- provides the ability to organize a differentiated tariff policy (by time of day, time of year, compliance with planned consumption, etc.);

- detect the place of leakage of electricity (illegal selection of electricity);

- monitor the distribution network and record the time of energy leakage;

The simplicity of this power distribution system and the possibility of detecting a leakage place make it very promising when building power distribution systems.

Claims (1)

A system for distributing electricity, characterized in that a computing device, N modems, M meters, N + 1 consumers are inserted into the system, the input of the system is the input of the first meter, the output of the first meter is connected to the inputs of the second and third meters, the output of the second meter is connected to the input the first consumer, the output of the third counter is connected to the inputs of the fourth and fifth counter, the output of the fourth counter is connected to the input of the second consumer, and so on until the last counter M, whose input, as well as the input of the counter M-1, connected to the output of the counter M-2, the output of the counter M-1 is connected to the input of the consumer N, the output of the counter M is connected to the input of the consumer N + 1, the information output of the first counter is connected to the input of the first modem, the output of the first modem is connected to the input of the computing device, information the outputs of the second and third counters are connected to the inputs of the second modem, the outputs of the second modem are connected to the input and output of the third counter, the information outputs of the fourth and fifth counters are connected to the inputs of the third modem, the outputs of the third modem By connecting the input and output of the fifth counter, and so on until the last meter M, information output of which, as well as information output counter M-1, inputs connected to the modem N, outputs modem N, are connected to the input and output of counter M.

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