RU193102U1 - A device for accounting for energy consumption and adjusting the cost of electricity consumed depending on its quality, source of distortion and time of distortion of indicators of electricity quality - Google Patents

Abstract

The utility model relates to the field of information-measuring and computer technology and can be used in the electric power industry to account for the consumption of electricity, adjust its cost taking into account its quality, the source of distortion and the time of distortion of the quality indicators of electricity. The objective of the proposed utility model is to expand the functionality of the device by taking into account time of distortion of indicators of the quality of electricity according to regulatory documents. The stated problem is solved thanks to the fact that the device for metering energy consumption and adjusting the cost of electricity consumed depending on its quality and source of distortion, containing a current input terminal and an input voltage terminal, an AC to DC converter, a sampling pulse generator, a pulse counter, the first and fourth elements And, a counter power with an integrated pulse sensor, the current input and voltage input of which are connected to the corresponding input terminals of the analyzer, the input voltage terminal is connected with the input of the AC-to-DC converter, a digital memory unit, SR-flip-flop, the first and second D-flip-flops, a register, an OR element, a clock generator, a pulse distributor and an analog-to-digital converter, the information input of which is connected to the output of the AC voltage converter constant, and the information output is connected to the information input of the register, the output of which is connected to the group of the least significant bits of the address input of the digital memory unit, the output of which is connected to the information input the pulse counter house, the output of which is connected to the information input of the digital memory block, the output of the sample pulse generator is connected to the register write control input and to the clock input of the first D-trigger, the information input of which is combined with the information input of the second D-trigger and connected to the unit potential bus , the output of the energy meter with an integrated pulse sensor is connected to the clock input of the second D-flip-flop, the zero-setting input of which is connected to the output of the second element And, the second input of which combined with the second input of the fourth element And and connected to the inverse output of the SR trigger, the direct output of which is connected to the high bit of the address input of the digital memory unit and the combined second inputs of the third and first elements And, the output of the latter is connected to the zero setting input of the first D-trigger, whose direct output is connected to the first input of the third AND element, the output of which is connected to the first input of the OR element, the second input of which is connected through the fourth AND element to the direct output of the second D-trigger, and the output the OR element is connected to the clock input of the pulse counter, the output of the clock generator is connected to the clock input of the pulse distributor, the outputs of which are connected respectively to the first one to the control input of the pulse counter record, the second to the combined third inputs of the third and fourth AND elements, the third to the control input recording a digital memory unit and the first combined inputs of the first and second AND elements, the fourth - with the clock input of the SR trigger, the distortion source control unit and the control unit level of distortions, the inputs of which are connected to the information output of the digital unit, the outputs of which are connected respectively to the inputs of the unit for fixing the fact of distortion of the quality indicator of electricity by the consumer, the unit for fixing the fact of distortion of the indicator of quality of electricity by the power system, the control units for the level of distortion, the outputs of which are connected respectively to the inputs of the elements And, the outputs of which are connected respectively to the information inputs of the blocks, introducing a raising coefficient or a decreasing coefficient in According to the utility model, the moves that are connected to the information input of the digital block additionally introduce a block for determining the distortion time of electric power quality indicators, the inputs of which are connected to the outputs of the blocks for controlling the level of distortion. Thus, this device allows you to automatically record the amount of electric energy consumed and determine its cost depending on its quality, source of distortion and time of distortion of indicators of quality of electricity.

Description

The utility model relates to the field of information-measuring and computer technology and can be used in the electric power industry to account for electric power consumption, adjust its cost taking into account its quality, source of distortion and time of distortion of electric power quality indicators.

A device is known for metering energy consumption and adjusting the cost of electricity consumed, depending on its quality and source of distortion, comprising a current input terminal and an input voltage terminal, an AC to DC converter, a sampling pulse generator, a pulse counter, the first and fourth I elements, an electricity meter with a built-in a pulse sensor, the current input and the voltage input of which are connected to the corresponding input terminals of the analyzer, the input voltage terminal is connected about the input of the AC-to-DC converter, a digital memory unit, SR-flip-flop, the first and second D-flip-flops, register, OR element, clock, pulse distributor and analog-to-digital converter, the information input of which is connected to the output of the AC voltage to constant, and the information output is connected to the information input of the register, the output of which is connected to the group of the least significant bits of the address input of the digital memory unit, the output of which is connected to the information input the house of the pulse counter, the output of which is connected to the information input of the digital memory unit, the output of the sample pulse generator is connected to the register control input and the clock input of the first D-trigger, the information input of which is combined with the information input of the second D-trigger and connected to the unit potential bus , the output of the electricity meter with an integrated pulse sensor is connected to the clock input of the second D-trigger, the zero-setting input of which is connected to the output of the second AND element, the second input of which combined with the second input of the fourth AND element and connected to the inverse output of the SR trigger, the direct output of which is connected to the highest bit of the address input of the digital memory unit and the combined second inputs of the third and first AND elements, the output of the latter is connected to the zero setting input of the first D trigger whose direct output is connected to the first input of the third AND element, whose output is connected to the first input of the OR element, the second input of which is connected through the fourth AND element to the direct output of the second D-trigger, and the output is the OR element is connected to the clock input of the pulse counter, the output of the clock pulse generator is connected to the clock input of the pulse distributor, the outputs of which are connected respectively to the first to the control input of the pulse counter record, the second to the combined third inputs of the third and fourth AND elements, the third to the control input recording a digital memory unit and the first combined inputs of the first and second AND elements, the fourth - with the clock input of the SR trigger, the control unit for the source of distortion and the control unit for a list of distortions, the inputs of which are connected to the information output of the digital unit, the outputs of which are connected respectively to the inputs of the unit for fixing the fact of distortion of the quality indicator of electricity by the consumer, the unit for fixing the fact of distortion of the indicator of quality of electricity by the power system, the control units for the level of distortion, the outputs of which are connected respectively to the inputs of the elements And, the outputs of which are connected respectively to the information inputs of the blocks, introducing a raising coefficient or a decreasing coefficient you moves connected to the information input of the digital block. (Pat. 134338 Russian Federation, IPC G06F 17/18 (2006.01).) Published: publ. 11/10/2013, - 14 p.: Ill. - prototype.

The disadvantage of this device is that it does not allow you to take into account the time of distortion of the quality indicators of electricity.

The objective of the proposed utility model is to expand the functionality of the device by taking into account the time of distortion of the quality indicators of electricity in accordance with regulatory documents.

This problem is solved due to the fact that the device for metering energy consumption and adjusting the cost of electricity consumed, depending on its quality and source of distortion, contains a current input terminal and an input voltage terminal, an AC to DC converter, a sampling pulse generator, a pulse counter, the first and fourth elements And, an electricity meter with an integrated pulse sensor, the current input and voltage input of which are connected to the corresponding input terminals of the analyzer , the input terminal of the voltage is connected to the input of the AC-to-DC converter, a digital memory unit, SR-trigger, first and second D-triggers, register, OR element, clock, pulse distributor and analog-to-digital converter, the information input of which is connected to the output of the AC / DC converter, and the information output is connected to the information input of the register, the output of which is connected to the group of the least significant bits of the address input of the digital memory unit, the output to connected to the information input of the pulse counter, the output of which is connected to the information input of the digital memory block, the output of the sampling pulse generator is connected to the input of the register recording control and to the clock input of the first D-trigger, the information input of which is combined with the information input of the second D-trigger and connected to the unit potential bus, the output of the electricity meter with an integrated pulse sensor is connected to the clock input of the second D-trigger, the zero-setting input of which is connected to the WTO output of the second element And, the second input of which is combined with the second input of the fourth element And and is connected to the inverse output of the SR trigger, the direct output of which is connected to the highest bit of the address input of the digital memory unit and the combined second inputs of the third and first elements of And, the output of the latter is connected to the input zeroing the first D-flip-flop, the direct output of which is connected to the first input of the third AND element, whose output is connected to the first input of the OR element, whose second input is connected directly to the fourth AND element at the output of the second D-flip-flop, and the output of the OR element is connected to the clock input of the pulse counter, the output of the clock pulse generator is connected to the clock input of the pulse distributor, the outputs of which are connected respectively to the first one to the control input of the pulse counter record, the second to the combined third inputs of the third and the fourth AND element, the third - with the recording control input of the digital memory unit and the first combined inputs of the first and second AND elements, the fourth - with the clock input of the SR trigger, the control unit and the distortion source and the distortion level control unit, the inputs of which are connected to the digital block information output, the outputs of which are connected respectively to the inputs of the unit for recording the fact of distortion of the electric power quality indicator by the electric consumer, the unit for fixing the fact of distortion of the electric power quality indicator of the electric system, and the distortion level control units, the outputs of which are connected respectively with inputs of AND elements, the outputs of which are connected respectively to the information inputs of the blocks, introducing an increasing coefficient according to the utility model, the unit for determining the time of distortion of electric power quality indicators, the inputs of which are connected to the outputs of the blocks for controlling the level of distortion, is additionally introduced into the device according to the utility model.

The essence of the proposed solution is illustrated by the drawing, which shows a block diagram of a device for accounting for electricity consumption and adjusting the cost of electricity consumed depending on its quality, source of distortion and time of distortion of indicators of quality of electricity.

The device comprises a current input terminal 1 and a voltage input terminal 2, to which the corresponding inputs of the electric power meter (SE) 3 are connected with an integrated pulse sensor, a memory unit, and an information transfer unit. The input terminal 2 of the voltage is connected to the input of the AC / DC converter 4 (PPNP), the output of which is connected to the information input of the analog-to-digital converter 5 (ADC), the information output of which is connected to the information input of the register 6, the output of which is connected to the group of the least significant bits of the address the input of the digital memory unit 7 (UPS), the output of which is connected to the information input of the counter 8 pulses (SI), the output of which is connected to the information input of the pulp and paper 7. Generator 9 pulses of sampling (GIV), the output to It is connected to the bis register input control input by the clock input of the first D-flip-flop 10, the information input of which is combined with the information input of the second D-flip-flop 11 and connected to the unit potential bus, the SE 3 output is connected to the clock input of the second D-flip-flop 11 the zero of which is connected to the output of the second element And 12, the second input of which is combined with the second input of the fourth element And 13 and is connected to the inverse output of the SR-trigger 14, the direct output of which is connected to the highest bit of the address input of the CPU 7 and by the single second inputs of the third 15 and the first 16 elements AND, the output of the latter is connected to the input of the zero setting of the first D-trigger 10, the direct output of which is connected to the first input of the third element And 15, the output of which is connected to the first input of the element OR 17, the second input of which is connected through the fourth element And 13 to the direct output of the second D-trigger 11, and the output of the element OR 17 is connected to the clock input SI 8. The output of the generator 18 clock pulses (GTI) is connected to the clock input of the distributor 19 pulses (RI), the outputs of which are connected to accordingly, the first is with the input for recording control SI 8, the second is with the combined third inputs of the third 15 and fourth 13 AND elements, the third is with the input for managing the recording of pulp and paper 7 and the first combined inputs of the first 16 and second 12 AND elements, the fourth is with a clock input SR-flip-flop 14. The control unit of the distortion source BKII 20 and the control unit for the level of distortion BKUI 21 inputs which are connected to the information output of the pulp and paper 7, the outputs of the block BKII 20 which are connected respectively to the inputs of the block for fixing the fact of distortion of the quality indicator of electric energy consumption by an electric consumer EP 22, a unit for fixing the fact of distortion of an indicator of quality of electric energy by an ES 23 power system, the output of a block 21 is connected to a block for determining a time of distortion of indicators of electric power quality 39, the outputs of which are connected to the inputs of the units for monitoring the level of distortion 1ur.26, 2ur.25, 3ur. 24, the outputs of which are connected respectively to the inputs of the elements AND, the outputs of which are connected respectively to the information inputs of the blocks, introducing an increasing coefficient of PC 33, PC 34, PC 35, or a decreasing coefficient of PC 36, PC 37, PC 38, the outputs of which are connected to the information input of the digital block of the pulp and paper processor 7.

Information is accumulated in pulp and paper 7 of the analyzer for constructing histograms of deviations of electric power quality indicators and accounting for electric power consumption corresponding to each bit of the histogram: 1) information for constructing histograms is stored in cells of pulp and paper 7 with addresses 10000-11111; 2) in the cells of the pulp and paper mill 7 with addresses 00000-01111, data on accounting for electricity consumption are stored.

The boundaries of the histogram discharges are set using the ADC 5. The frequency of the output rectangular voltage pulses of the SE 3 voltage is proportional to the power consumed from the controlled network. Used in the device GIV 9 is performed quartz, its frequency can be set equal to 1 Hz. The frequency of the TGI 18 can be unstable and is set in the range from 1 kHz to 10 MHz. In PPNP 4 for the indicator of the quality of electricity of the steady-state voltage deviation, the low-frequency component of the deviations Uн (t) of the effective voltage value is extracted from the curve of the alternating voltage of the network U (t)

where U (t) is the effective value of the voltage at the current time t;

Un (t) is the nominal value of the mains voltage.

The voltage U4 from the output of the PPNP 4 is supplied to the information input of the ADC 5 and converted by it into a binary code, for example, 0010.

This code is applied to the group of the least significant bits of the address input of the CPU 7.

The pulses arriving every second from the output of the switchgear 9 carry out the i-th sample of voltage deviations, at which units are entered in the first D-trigger 10, the code from the ADC 5 output is in register 6 (in this example, code 0010).

The pulses arriving at a variable frequency from the output of the SE 3 translate the second D-trigger 11 into a single state when counting each j-th quantum of consumed electricity.

The frequency of the GTI 18 is 3-5 orders of magnitude higher than the frequency of the pulses of the GIB 9 and SE 3. The pulses from the output of the GTI 18 go to the input of the RI 19, at the outputs of which the control signals are continuously scanned. SR-trigger 14 at the end of each cycle of operation RI 19 changes its state to the opposite, contributing to the sequential removal of information from the first 10 and second 11 D-flip-flops.

Consider the next cycle of work RI 19.

The pulse appearing at the first output of RI 19 enters from the pulp and paper cell 7 with address 10010 (for a single state of SR-flip-flop 14) into SI 8 information n _{2 (i-1)} accumulated as a result of a previous statistical analysis of voltage deviations in the discharge of histogram number 0010.

The impulses from the second output of RI 19 gates the elements And 13 and 15. In the event that before this cycle of operation of RI 19 there was another sample of voltage deviations, then D-trigger 10 is in a single state. In this case, the pulse from the second output of RI 19 passes sequentially through the elements AND 15 and OR 17 to the clock input SI 8, increasing its content n _{2 (i-1)} by one, which becomes equal to

The pulse from the third output of RI 19, passing through the And 16 element, sets the D-trigger 10 to zero, and also acting on the recording control input of the pulp and paper processor 7, returns information n 2i increased by one to its address 10010.

The pulse from the fourth output of the RI 19 SR-trigger 14 is tilted to the zero state.

The pulse appearing in the next operation cycle at the first output of RI 19 enters from pulp and paper pulp 7 at address 00010 (SR-flip-flop 14 is now in zero state) in SI 8 information m _{2 (j-1)} , which was accumulated as a result of previous accounting for energy consumption with voltage deviations corresponding to the discharge of the histogram number 0010.

Pulse from the second output of RI 19 gates the element And 13. In the event that before this cycle of operation of RI 19 at the output of the SE 3 another pulse appeared, then the D-trigger 11 is in a single state. In this case, the pulse from the second output of the switchgear 19 passes sequentially through the elements AND 13 and OR 17 to the clock input SI 8, increasing its content m ₂ ( _j-1 ) by one, which becomes equal to

The pulse from the third output of RI 19, passing through the And 12 element, sets the D-flip-flop 11 to the zero state, and also acting on the recording control input of the pulp-and-paper mill 7, returns to its cell with the address 00010, the information m 2j increased by one.

The pulse from the fourth output of the RI 19 SR-trigger 14 capsizes to a single state, etc.

In those RI 19 operation cycles in which the D-flip-flops 10 and 11 are in the zero state, the information n _ki or m _{kj is} returned by pulses from the third output of RI 19 to the corresponding cells of the pulp and paper device 7 from SI 8 (where k is the code at the output of the ADC 5 corresponding to the discharge number of the histogram) without changes, i.e. without increasing by one.

After the end of measurements, which lasts for time T (day, week, month), a histogram of voltage deviations U t, the ordinates of each kth discharge of which is determined by the formula, is constructed from the contents of the pulp and paper cells 7 with addresses 10000-11111

where n _k is the contents of the k-th cell of the pulp and paper mill 7 in the region 10000-11111;

N is the total content of the pulp and paper cells 7 with addresses 10000-11111;

T is the measurement time, expressed in seconds;

f ₉ - the frequency of the GIV 9.

The content of the pulp and paper pulp 7 with addresses 00000-01111 determines the amount of electricity supplied to the consumer, corresponding to each k-th digit of the histogram of voltage deviations

where C ₃ is the price of the output pulse SE 3, kW * h / pulse;

mk is the content of the k-th cell of the pulp and paper mill 7 in the area 00000-01111.

According to the total content of the pulp and paper cells 7 with addresses 00000-01111, the compliance of electric power quality indicators with the requirements of GOST 13109-97 and the amount of electric energy consumed, respectively, are controlled. The histogram checks whether the electric power quality indicators in the network comply with GOST standards. If there is a distortion in the quality indicators of electric energy, a signal appears at the output of the pulp and paper 7, which is fed to the input of the BKUI 21 and BKII 20. They control the level of distortion and the source of distortion. Next, block 39 determines the time of distortion of the quality indicators of electricity. Suppose that the source of the distortion is the power system, the distortion is the presence of a steady voltage deviation, the level of distortion of the electric power quality indicator is 1st (the level is determined based on the deviation of the electric power quality indicator from the normalized one and it is set for each electric power quality indicator). In this case, from the block БКУИ 21 the signal goes to block 39 where the time of distortion of the quality indicators of electricity is determined, then the signal goes to block 1 level 26, and from the block БКИИ 20 the signal goes to block ЭС 23, since the source of distortion is the power system. Further, from the ES blocks 23 and 1ur.26, the signal is supplied to the And 32 element. From the output of the And 32 element, the signal is sent to the PC unit 33, which sets a decreasing coefficient to the cost of consumed electricity. The signal from its output goes to the input of the pulp and paper block 7, which determines the cost of electricity consumed, taking into account the corresponding reduction factor. If the consumer is the source of distortion at the 1st level of distortion of the same type as in the previous case, then from the block БКУИ 21 the signal goes to block 39 where the time of distortion of the quality indicators of electricity is determined, then the signal goes to block 1 level 26, and block BKII 20 the signal enters the block EP 22. Further, from the blocks EP 22 and 1ur.26, the signal goes to block I 29. From the block And 29 the signal goes to block PC 36, which sets the increasing coefficient according to table 1. The signal from its output to the input of the pulp and paper block 7, which determines the cost energy consumed taking into account the increasing coefficient.

The cost of electricity consumed, taking into account adjustments in the device, is proposed to be determined by formula 1:

where Spee is the cost of electricity consumed;

Tisch. - The initial tariff for electricity;

Kp - correction factor;

Kpee - the amount of electricity consumed;

If distortions in the quality of electricity are introduced both by the consumer and the energy supplying organization at the same time, then:

where K _PES - correction factor for the energy supplying organization (taken according to table 1);

K _PEP - correction factor for the consumer (taken according to table 1).

In the event that the SCE deviated from the value established by regulatory documents for a certain time, and then returned to the limits established by regulatory documents, then

where K _P - the n-th correction factor for a certain level of deviation of the SCE at a certain point in time and a certain SCE;

- сумма поправочных коэффициентов для энергоснабжающей организации;

- the sum of the correction factors for the energy supplying organization;

- сумма поправочных коэффициентов для потребителя;

- the sum of correction factors for the consumer;

n is the number of Ki values;

m is the number of values of Kj.

If there is no distortion in the quality of electricity, then K _P = 1

The history of accounting for a given period of time (Δt) with an indication of all the listed values of SE3 is stored in the memory of the meter in the form of a protocol, and is also transmitted using the information transfer unit to the database of an automated information-measuring system for commercial accounting of electrical energy (AIISKUE). SE 3 displays information on the amount of electricity consumed, its cost, tariff, increasing (decreasing) coefficient, type and level of distortion, time of distortion of indicators of electric power quality, data transmission, metering history.

In other cases, distortions in the indicators of the quality of electricity, the circuit works according to a similar algorithm, taking into account the fact that, depending on the quality indicator and the source of distortion, the corresponding elements of the circuit work.

Thus, this device allows you to automatically record the amount of consumed electric energy and determine its value depending on its quality, source of distortion and time of distortion of indicators of quality of electricity.

Claims (1)

A device for accounting for energy consumption and adjusting the cost of electricity consumed depending on its quality, the source of distortion and the time of distortion of the quality indicators of electricity, containing a current input terminal and an input voltage terminal, an AC to DC converter, a sampling pulse generator, a pulse counter, the first and fourth elements And, an electricity meter with an integrated pulse sensor, the current input and voltage input of which are connected to the corresponding input terminals devices, the input voltage clamp is connected to the input of the AC-to-DC converter, digital memory unit, SR-trigger, first and second D-triggers, register, OR element, clock, pulse distributor and analog-to-digital converter, the information input of which is connected to the output of the AC / DC converter, and the information output is connected to the information input of the register, the output of which is connected to the group of the least significant bits of the address input of the digital memory unit the output of which is connected to the information input of the pulse counter, the output of which is connected to the information input of the digital memory block, the output of the sample pulse generator is connected to the input of the register recording control and to the clock input of the first D-trigger, the information input of which is combined with the information input of the second D-trigger and connected to the unit potential bus, the output of the electricity meter with an integrated pulse sensor is connected to the clock input of the second D-trigger, the zero-setting input of which is connected to the output of the second element And, the second input of which is combined with the second input of the fourth element And and is connected to the inverse output of the SR trigger, the direct output of which is connected to the highest bit of the address input of the digital memory unit and the combined second inputs of the third and first elements And, the output of the latter is connected to the zero-setting input of the first D-flip-flop, the direct output of which is connected to the first input of the third AND element, whose output is connected to the first input of the OR element, whose second input is through the fourth AND element n to the direct output of the second D-flip-flop, and the output of the OR element is connected to the clock input of the pulse counter, the output of the clock pulse generator is connected to the clock input of the pulse distributor, the outputs of which are connected respectively to the first to the control input of the pulse counter recording, and the second to the combined third inputs the third and fourth elements And, the third - with the recording control input of the digital memory unit and the first combined inputs of the first and second elements And, the fourth - with the clock input of the SR-trigger, block control of the distortion source and a distortion level control unit, the inputs of which are connected to the information output of the digital memory unit, the outputs of which are connected respectively to the inputs of the unit for fixing the fact of distortion of the power quality indicator by the electric consumer, the unit for fixing the fact of distortion of the power quality indicator of the electric power by the power system, the distortion level control units, the outputs of which connected respectively to the inputs of AND elements, the outputs of which are connected respectively to the information inputs of the blocks, introducing multiplying factor or the reduction factor, the outputs of which are connected to the data input of the digital memory unit, characterized in that the apparatus further introduced distortion determining unit time power quality, the outputs of which are connected to the inputs of distortion control blocks.

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