SU1012148A1 - Electric power consumption checking and accounting device - Google Patents

Abstract

A DEVICE FOR MONITORING AND ACCOUNTING ELECTRIC POWER CONSUMPTION, contains an impulse sensor, the outputs of which through the corresponding serially connected first shift register and encoder are connected to the inputs of the matching unit, the output of which is connected to the first input of the selection unit, the outputs of which are connected. to the inputs of the controlled generator and to the first input of the address setting unit, the second input of which is connected to the first output switch, the second output of which is connected to the corresponding input of the matching unit, the input of the switch is connected to the output of the controlled generator, the first input of the first pulse distributor is connected with the output of the pulse converter, the outputs of the pulse distributor are connected to a group of inputs of the first counter, the first second and third outputs of which are connected respectively to the input of the display unit , with the recorder input and with the input of the first memory block, the time pulse sensor is connected to the clock input, the first output of which is connected to the input of the first counter, the first comparison block, and the coefficient setting block, characterized in that, in order to expand the information content of the device, It has And, the second and third shift registers, the second, third and fourth memory blocks, the second, third and fourth 4th counters, adders, the second, third, fourth and fifth comparison blocks, the division block and the information input block, the second the output of the chronizer through the second counter is connected to the first inputs of the first and second elements I and to the first input of the second distributor, the second input of which is connected to the fourth output of the first counter, the output of the second distributor is connected to the first input of the second memory block, the second input of which is connected to the third. the output of the chronizer, the outputs of the second memory block are connected to the second Vkhoch dam elements And, the outputs of which are connected to the inputs of the first adder, the first code of which is connected to the first input of the first block cf In addition, the output of the second shift register, ga, is connected to the first input of the third memory block, the output of which is connected to the first input of the second comparison unit, the second input of which and the first input of the second shift register 4 are combined and connected to n - :. Cx to the output of the first counter, exit :. the second comparison unit is connected to the second input of the third memory block, the first output of the chronizer is connected to the input of the third counter, the output of which is connected to the first inputs of the third and fourth comparison blocks, the output of the third comparison block podklk (measured to the first input of the third shift register and to the second input the second shift register, the output of the fourth comparison unit is connected to the first input of the second adder and c.

Description

the entrance to the fourth counter, .output; which is connected to the first input of the division unit, the second input of which {5th is connected to the output of the second adder, the sixth output of the first counter is connected to the first input of the fourth memory block, to the second input of the second. adder and to the second input the third-. The shift register, the output KOTOPOJ O, is connected to the first input of the fifth comparator unit, the second input of which is connected to the output of the fourth memory block, the second input of which is connected

with the output of the fifth comparison unit, the fourth output of the chronieter is connected to the second input of the selection unit, the outputs of the information input unit are connected respectively to the second inputs of the first, third li fourth fourth comparison units, the corresponding inputs of the display Apple are connected to the fifth output of the chroniser, to the output of the first adder, to exits first and second. units of comparison, to the output of the division block and to the output of the fourth memory block.

The invention relates to an electric energy metering device and monitoring the power consumption modes of large industrial consumers and can be used for commercial and in-plant calculations for using electricity and controlling power consumption at a given level. A device for monitoring energy consumption is known, which contains sensors connected to an information receiving unit connected , through the OR elements with the address decoder, which is connected to the memory unit connected to the control unit, the outputs to orogo through infor mation processing units connected kvyhodnym blokamS Nedsestatkom it is bounded .chenna informativeness. The closest to the invention is a device for metering and monitoring of power consumption modes, which contains pulse sensors, the outputs of which are connected to the first input of the selection unit through the corresponding sequentially connected first shift register and encoder, whose outputs are connected to the inputs of the controlled generator and to the first input of the address setting unit, the second input of which is connected to the first output of the switch, the second output of which is connected the corresponding matching input, the switch input is connected to the output of the controlled generator, the first input of the first pulse distributor is connected to the output of the pulse converter, the outputs of the pulse distributor are connected to the input group of the first counter, the first, second and third outputs of which are connected respectively to the input of the display unit, with the input of the recorder and with the input of the first memory block, a temporal pulse sensor is connected to. to the input of the chronizer, the first output of which is connected to the input of the first counter, the first unit of comparison, the task block ks | frontal block; tracking interval block; master of load tracking program and check digit block C23. In order to increase efficiency. the work of power units of power systems introduced a surcharge for increased consumption of reactive power (Of compared with the specified optimal value) at the hours of maxima of the active load of the power system ts.zo, where RF is the actual value of the maximum active power of consumers, l for the billing period (quarter); a discount or surcharge to the tariff for rejecting the operation mode of compensating devices from the specified one. Ofagrza "By - g- - 2 Rl g where Rf2. - average reactive power over the period of the smallest active load of the power system, determined during the calculation period, 9, - given the optimum value of reactive power. While maintaining the values of Q. 9 (1 at the set optimal levels at the hours of maxima and at the hours of minima of the active load of the power system, the enterprise calculates for electricity at a reduced tariff. - The purpose of the invention is to increase the information content of the device by: checking the actual values of the maximum reactive power the hours of maxima of the active load of the power system and the average value of reactive power during the hours of the minima of the active load of the power system determined for the billing period. The fact is that in the control and metering device. electric power, containing pulse sensors, the outputs of which through the corresponding first shift register and encoder I are connected to the inputs of the unit according to ININ, the output of which is connected to the first (selection unit input, outputs which is connected to the inputs of the controlled generator and to the first input of the address setting unit, the second input of which is connected to the first output of the switch 1c, the second output of which is connected to the corresponding input of the matching unit / input 1F1 The device is connected to the output of the controlled generator, the first input of the first pulse distributor is connected to the output of the pre-pulse pulse, the output of the pulse distributor is connected to the input group of the first counter, the first, second and third outputs of which are connected respectively to the input of the display unit, the recorder input and the first input the memory block of the time pulse sensor is connected to the input of the chroniser, the first output of which is connected to the input of the first counter, the first comparison block, the coefficient setting unit And, the second and third shift registers, the second, third and fourth memory blocks, the second, third and fourth counters, the adder L, the second, third, fourth and fifth comparison blocks, the block is divided, and the information input block, The second output of the clock through the second counter is connected to the first inputs of the first and second elements I and to the first input of the second distributor, the second input of which is connected to the even output of the neiiBoro counter, the output of the second distributor connected to the first input of the second memory block, the second input of which with the single output of the second memory unit is connected to the second inputs of the AND elements, whose outputs are connected to the inputs of the first adder, the first output of which is connected to the first 4th input of the first comparison unit, the output of the second shift register is connected to the first input of the third memory block the output of which is connected to the first input of the second comparison unit, the second one of which and the first input of the second shift register are combined and connected to the fifth output of the first counter, the output of the second comparison unit is connected to The first input of the third memory block, the first output of the clock is connected to the input of the third counter, the output of which is connected to the first inputs of the third and fourth comparison blocks, the output of the third comparison block is connected to the first input of the third shift register and the second input of the second shift register, the fourth output the comparison unit is connected to the first input of the second adder and to the input of the fourth counter, the output of which is connected to the first input of the division unit, the second input of which is connected to the output of the second CiT "atope, the sixth output the first counter is connected to the first input of the fourth memory block, to the second input of the second adder and to the second input of the third shift register, the code of which is connected to the first input of the fifth comparator unit, the second input of which is connected to the output of the fourth memory block, the second input to the Zoro connected to the output of the fifth comparison unit, the fourth and fifth outputs of the chroniser are connected to the second input of the selection unit, the outputs of the information input unit are connected respectively to the second inputs of the first, third and fourth blocks of the average The corresponding signals of the input of the display unit are connected to the fifth output of the clock, to the output of the first adder, to the outputs of the first and second comparison blocks, to the output of the division block and to the output of the fourth memory block. The drawing shows a block diagram of the device. The device contains functional units: information collection node 1, information transfer node 2, information processing node 3, recording and storage information node 4, and dispatcher advisor node 5.. These nodes, in turn, consist of pulse sensors 6, first registers 7. Shift, encoders 8, matching unit 9, controlled generator 10, switch 11, selection block 12, address flare 13, coefficient setting unit 14, transducer 15 pulses: E dispenser 16 pulses, first counter 17, recorder 18, first memory block 19, time pulse sensor 20, chronizer 21, second counter 22, second pulse distributor 23, second memory block 24, first And 25 element , the second element And 26, the first adder 27, block 28 cc Information of the first comparison unit 29, the display unit 30, the second shift register 31, the third memory block 32,. the second comparison block 33, the third counter 34, the third and fourth comparison blocks 35 and .36, the fourth memory block 37, the third shift register 38, the fifth comparison block 39, the second cy lmapto 40, the fourth counter 41 and the dividing block 42 .

Node 1 of information collection is designed to collect information from individual electricity meters installed at substations of an industrial enterprise, node 2 to transmit information from individual power substations to one device using common communication channels for individual groups of electricity meters, node 3 to determine the addresses of the original meters, the energy weight of the received pulses to the named units (kW / h), the distribution of this information in accordance with the characteristics of the original electric meter i (active, reactive, receiving, output, etc.) also for controlling and coordinating other units of the device, node 4 for operative and long-term information storage, as well as for documenting the metering results, node 5 for monitoring power consumption and indication of excess control parameters.

Impulse sensors B are located on electrical substations in groups and serve to record the electricity consumed by an enterprise that is returned to the power supply system or given to the subsubs.

The device works as follows.

The pulse sensors, registering a certain portion of the electric power, impose on the shift registers 7 the pulses, the energy weight of which is determined by the transformation factors of the current transformers and the voltage of this connection. In shift registers 7, each sensor has a memory location for one bit of information, into which this pulse is entered.

The device received a polling system for transmitting information from substations to a control center. The sampling frequency was chosen so as to avoid the loss of pulses at the maximum speed of rotation of the electric Discs of the Discs. Each electrical substation containing N meters is connected to the control station via a communication link containing one communication link. The matching of the communication lines with the input of the selection unit 12 and the switch 11 is carried out by matching transformers and amplifiers of the matching unit 9. The controlled oscillator 10 generates a communication start signal, the number of which is determined by the number of communication lines. These signals are routed by switch 11 alternately to each link. At the same time, the switch 11 issues a signal to the address block 13 with the address of the communication line that is currently connected.

Upon arrival of the signal, the start of communication into the next coder 8 information is rewritten from registers 7 into intermediate registers of the coder 8, the 1st Manchester code is converted into a sequence, supplemented by a parity signal and output to the communication line. Through the block 9, the matching information enters the block 12 of the selection, where code and clock pulses are extracted and the received information is checked for parity. In the event of a negative test result, a signal is output to the controlled generator 10 to repeat the signal. Start of communication to the given communication line. If such a signal is not received; a controlled oscillator, 10 generates a start communication signal, which by means of the switch 11 enters the next communication line.

The received and verified information from the selection unit 12 goes to the address unit 13, which simultaneously receives information from the switch 11 about which cell is currently de-energized. Block 13, using the elements AND, sends the next regular pulse strictly to its address to the coefficient setting unit 14, which is a contact field where, using one group of jumpers, the equalization coefficient of the energy weight is assigned to each sensor; the second group of jumpers specifies the sign — active, reactive energy, reception, output, subscribers; a third group of jumpers allows you to set any number for each of the aforementioned factors. The next impulse of information, output from the address block 13 to the terminal of its address, is sent with a jumper of the first group to the bus of one of the coefficients, from where the jumpers of the third group convert it into a binary code corresponding to the decimal number of this coefficient. This code is transmitted to the converter 15. At the same time, the same impulse hits a part of the contact field with a second group of jumpers, from where it goes to one of four channels corresponding to four signs: active reception, active output, reactive reception, reactive output. Here, the terms active, reactive correspond to the type of energy counted by a given meter, and the reception or output correspond to the metering of electricity received from the power system or given to the subsubs.

In block 15, the impulse that comes from the impulse sensors b is converted into as many impulses as much energy is consumed. It consists of a three-decade binary-decimal counter and a generator whose frequency is several orders of magnitude higher than the polling frequency. When from block 14 the binary code of the interrogated pulse sensor b is received, the counter register is set to the state corresponding to the decimal number, in addition to this factor up to a thousand. After that, the counter input of the counter opens to the generator pulses, and these pulses act on the counter until it reaches the thousand. The last decade overflow pulse closes the counter input, and the counter itself remains at zero. At the same time, a packet of counting pulses, the number of which is equal to the number of energy registered by this electric meter, arrives at the first distributor of 16 pulses.

The first pulse distributor 16 commutes the incoming pulses in accordance with the signs signals coming from the coefficient setting unit 14 to the corresponding input of the first counter 17. This counter 17 contains reversible binary-decimal counters, the number of which is determined by the number of signs embedded and depends on the specific power supply circuit enterprises and electricity metering requirements. The capacitance of the counters is determined by the maximum interval of operation of the registration unit 18, which is enabled by the signals of the chroniser 21. Information for long-term storage is transmitted to the first memory unit 19, which stores it during power interruptions of the device. The time pulse sensor 20 is an electronic clock and allows you to set on your scale the hours of the morning and evening maximums and the loads of the power system.

g. Chroniator 21 generates control signals for outputting the contents of the first counter 17 of current information to the registration, every half hour at the maximum hours and after two hours at the rest of the time, as well as control signals at minute intervals also at the hours of the maximum of the power system u-el adviser dispatcher. In addition, the chroniser 21 generates the synchronizing impulses needed for the operation of other units. Node 5 is located on the dispatcher's console and serves to control the power consumption modes of the enterprise at the hours of maximum power system.

From the beginning of the hours of maximum load of the power system, the chroniser 21 outputs signals at minute intervals to the second counter 22, which feeds the signals through units of minutes, supplied to the second distributor 23, 1, and elements 25 and 2G. The second distributor 23 also receives information from the first meter 17 on the consumption of active electricity per unit of minutes. The second distributor, 23 pulses, contains elements And and: sends information about the flow rate to

0 the corresponding cells of the second block of 24 Ps1m ty on the signals of the second counter 22. The first cell of the second 24 memory is recorded, the consumption of active electricity for

5 the first minute, the second cell - 2 minutes, the third cell - 3.min, etc. The power consumption for 32 minutes is recorded again in the first memory location. Contents of memory cells by

0 signals of the second counter 22 is supplied through the first element And 25 to the summing input of the first adder 27, and through the second element H 26 to the subtracting input of the first adder 27.

5 Switching the outputs of the elements And 25 and 26 is carried out in such a way that the adder 27 determines the half-hour consumption of active electricity at any minute maximum hours in the last half hour. As a result, the first adder 27 determines the difference of the contents of the last one by the recording of the memory cell and the memory cell, in which the power consumption is recorded over a time of 5 m, which is 30 minutes away from the current one. The resulting half-hour consumption of active electricity from the output of the first adder 27 is supplied to a comparison unit 29, where values are also supplied. control and claimed levels

0 half-hour consumption of active electricity from the block 28 input information. The value of the control level is set 10-12% lower than the claimed value. This makes it possible

5 when the control level is exceeded, take the necessary measures to reduce the load of the enterprise so as not to exceed the stated value of the half-hour consumption of active

0 electricity. In comparator block 29, the current half-hour consumption of active electricity is compared with the control and claimed levels. When the control level is exceeded, a signal is given to the display 30 unit indicating that the control level has been exceeded and the magnitude of the excess of this level. When the claimed level is exceeded, a signal is also displayed to the block 30 of the indication of the excess of the claimed level. In addition, the display unit 30 receives a signal about the magnitude of the current half-hour active electric power from the first adder 27.

five

The / G of the first output xipoHHsaTopa 21 control signals at predetermined time intervals are fed through the first 34 to the first inputs of the comparison units 35 and 36. The second input of the comparator unit 35 is supplied with the second output of the information input unit 28 codes corresponding to the numbers of the time intervals related to the hours of the morning and evening maxima of the load on the power system. The second input of the comparator unit 36 is supplied with the third output of the information input unit 2B, the codes corresponding to the numbers of the time intervals related to the hours of minimum load of the power system.

When the maximum load hours arrive, the comparison unit 35 issues, every half hour, the enabling signals to registers 31 and 38, on arrival of which, in register 31, the information on active power consumption for the specified time interval is transmitted to the register 31, and consumption information reactive electricity for a specified time interval from the output of the first counter 17. At the same time, information on the consumption of active electricity is recorded in memory block 32, and information on the consumption of reactive electricity gii - in memory block 37. If, in the next time interval, the active energy consumption exceeds, the value recorded in memory block 32; and, comparison unit 33 outputs an enabling signal to record this new value of active energy consumption in memory block 32. If in the next time interval the value of active energy consumption entered into register 31 from the first counter 17 is less than the previous one recorded in memory block 32, then the comparison signal comparison block 33 does not produce, and the previous value is stored in memory block 32 . Thus, in memory block 32, the actual

the value of the active energy consumption for a given time interval, which is determined at the hours of the maximum load of the power system during the billing period. 5 In the same way, using the comparison unit 39, the memory unit 37 records and stores the actual value of the maximum consumption of reactive electricity for a given time interval determined during the hours of maximum loads of the power system during the billing period. .

The actual values of the maximum consumption of active and reactive

5 electric power from memory blocks 23 and 37 are outputted to. an indication unit that allows you to monitor these values during the calculation period I and determine the amount of the surcharge in

Q end of the billing period.

In the hours of minimum load of energy; the system, the comparison unit 36, at given time intervals, gives permissive signals to the input of the second adder 40, the arrival of which to the adder 40 receives information on the consumption of reactive electricity from the output of the first counter 17, where it is summed over the billing period. The signals from the output of the comparison unit 36 are currently received through the fourth counter 4.1 to the division unit 42, where the total information on the consumption of reactive energy for the billing period also arrives. In dividing block 42, the total information on the consumption of reactive electricity is divided into the number of measurement intervals, i.e. the average value of the reactive power consumption is determined, which is output to the display unit 30. This allows the actual average to be monitored during the calculation period. the value of the consumption of reactive power and keep at a given optimal level, as well as to determine the discount or surcharge H to the tariff at the end of the billing period.

Claims (1)

; ' A DEVICE FOR MONITORING AND ACCOUNTING ELECTRIC POWER CONSUMPTION, containing a pulse sensor, the outputs of which are connected via the corresponding series-connected first shift register and encoder to the inputs of the matching unit, the output of which is connected to the first input of the selection unit, the outputs of which are connected. they are connected to the inputs of the controlled generator к to the first input of the address setting unit, the second input of which is connected to the first output of the switch, the second output of which is connected to the corresponding input of the matching unit, the input of the switch is connected to the output of the controlled generator, the first input of the first pulse distributor is connected to the output of the pulse converter , the outputs of the pulse distributor are connected to the group of inputs of the first counter, the first second and third outputs of which are connected respectively to the d input of the display unit, with the input ohm of the recorder and with the input of the first memory unit, a time pulse sensor is connected to the input of the chronizer, the first output of which is connected to the input of the first counter, the first comparison unit. and the coefficient setting unit, characterized in that, in order to expand the information content of the device, elements And, the second and third shift registers, the second ^ third and fourth blocks of memory, the second, third and fourth counters, adders, the second, third, fourth and fifth comparison blocks, the division block and the information input block, the second output of chronization the torus through the second counter is connected to the first inputs of the first and second AND elements and to the first input of the second distributor, the second input of which is connected to the fourth • output of the first counter, the output of the second distributor is connected to the first input of the second memory block, the second input of which is connected to the third output of the chronizer , the outputs of the second memory block are connected to the secondary input ·; I will give AND elements, the outputs of which are connected to the inputs of the first adder, the first output of which is connected to the first input of the first comparison unit, the output of the second shift register _; hectare connected to the first input of a third • of its memory block, the output of which is connected to the first input of the second comparison unit, the second input of which and the first input of the second shift register are combined and connected to n <. to the output of the first counter, output ·. {the second comparison block is connected to the second input of the third memory block, the first output of the chronizer is connected to the input of the third counter, the output of which is connected to the first inputs of the third and fourth comparison blocks, the output of the third comparison block is connected to the first input of the third shift register and to the second · input the second shift register, the output of the fourth comparison unit is connected to the first input of the second adder and c. SU ... 1012148 input of the fourth counter, output; which is connected to the first input of the division unit, the second input of which is connected to the output of the second adder, the sixth output of the first counter is connected to the first input of the fourth memory unit, to the second input of the second adder and to the second input of the third. th shift register, the output of which is connected to the first input of the fifth block of comparison, the second input of which is sub-, of the keys to the output of the fourth memory block. the second input of which is connected to the output of the fifth comparison unit, the fourth output of the timing unit is connected to the second input of the selection unit, the outputs of the information input unit are connected respectively to the second inputs of the first, third and fourth blocks of comparison, the corresponding inputs of the display unit are connected to the fifth output of the timing unit, the output of the first adder, to the outputs of the first and second ·. horn comparison blocks, to the output of the division block and to the output of the fourth memory block.