SU1647413A1 - Electric meter - Google Patents

Abstract

The invention relates to a measurement technique that can be used in industrial plants, power stations and substations. The aim of the invention is to simplify the device and expand the field of application due to the organization of electricity metering in automatic mode with the separation of payment for power and energy with the differentiation of the cost of energy by the time of day. The goal is achieved with the exception of the second switch and the formation of new connections, which allow to fix in the sixth counter 15 the maximum power consumption during a certain time for the entire time interval to be paid. The device also contains a power-frequency measuring converter 1, a frequency divider 2, a switch 4, a crystal oscillator 10, a decoder 13, fauMep 11, two elements 12, 16 coincidence, five counters 3,5,6,7,8, a reversing counter 9 and trigger 14, 1 Il. ate with

Description

The invention relates to measuring equipment and can find a name in industrial enterprises, power plants and substations for the organization of electricity metering with the separation of payment for power and energy with differentiation of the cost of energy by time of day.

At the same time, a power charge is charged for the entire billing period at the highest actual average load for a time interval of 30 minutes, 15 minutes, 10 minutes. The time intervals for measuring the load are counted from the beginning of the peak zone of the daily schedule and the estimated maximum load is measured at all intervals of the peak zone for the entire calculation period (month, quarter) as a whole.

The aim of the invention is to simplify the device and expand the scope by automatically measuring the highest load for the estimated time interval of the peak zone of daily schedules.

The drawing shows a structural diagram of an electric meter.

The circuit consists of a measuring transducer 1 power - frequency, a frequency divider 2, a first counter 3, a switch 4, a second, third, fourth, fifth counters 5-8, respectively, a reverse counter 9, a crystal oscillator 10, a timer 11, a first element 12 matches, a decoder 13, a trigger 14, a sixth counter 15, and a second match element 16.

In this case, the crystal oscillator 10, the power-frequency converter 1, the frequency divider 2 and the first counter 3 are connected in series, and the output of the frequency divider 2 is also connected to the information input of the switch 4, the control input of which is connected to the first output of the timer 11, connected in turn with the second output of the generator 10, and the first output of the switch 4 is connected to the second counter 5, the second output to the third counter 6, the third output to the fourth and fifth counters 7 and 8 and. the subtracting input of the reverse counter 9, the zeroing output of which is connected to the single input of the trigger 14, and the single output of the trigger 14 is connected q by the first input of the first coincidence element 12, the second input of which is connected to the first output of the decoder 13, the input of which is connected to the output of the timer 11, and the second the output of the decoder 13 is connected to the zeroing inputs of the trigger 14, the fifth counter 8 and the first input of the second coincidence element, through which the outputs of the sixth counter 15 are connected to the information inputs of the reverse counter 9, and inform counter outputs 8 through the first element 12 matches are connected to the information inputs of the sixth counter 15.

The electric meter works as follows.

Measuring current and voltage transformers are connected to the input of the measuring transducer 1 power-frequency, and pulse signals, each of which corresponds to, are output. a certain amount of electricity, the pulse repetition rate is proportional to the power consumed by the controlled input (connection).

These pulses are fed to the input of the frequency divider 2, which sets the frequency of the pulses, convenient for summing the counters. From the output of the frequency divider 2, the pulses characterizing the amount of energy are fed to the counter 3 and to the switch 4. The counter 3 provides a sequential count of all pulses coming from the measuring transducer 1 power-frequency through the frequency divider 2., i.e. like a conventional electricity meter, it sums up the total amount of energy supplied to the consumer through a controlled input for the billing period.

The same pulses from the frequency divider 2 are fed to the information input of the switch 4, which, depending on the signal of the timer 11, sends them to one of the electricity meters of the corresponding metering zone: counter 5 of the first zone, counter 6 of the second zone, counters 7 and 8 of the third (peak) zones and subtracting input of the reverse counter 9.

The pulses characterizing the time come from the crystal oscillator 10 to the Converter 1. power-frequency and timer 11.

The multi-program cyclic timer 11 at times corresponding to the beginning and end of each metering zone sends signals to the control input of the switch 4, which, depending on the code combination received from the timer 11, switches the information signal from the frequency divider 2 to the electricity meters of the corresponding metering zone. Simultaneously with the supply to the switch 4 of the signal corresponding to the beginning of the third (peak) metering zone, the timer 11 sends a signal to the decoder 13, which transfers the first element 12 matches into the property, prohibiting the transfer of the contents of the fifth counter 8 to the sixth counter

15. By the same signal of the timer 11, the decoder 13 sets the fifth counter 8 and trigger 14 to zero, and also through the second matching element 16 transfers the contents of the sixth counter .15 to the reverse counter 9.

Subsequently, the signals from the timer 11 are supplied to the decoder 13 at the beginning of each measurement interval of the highest load during the peak zone of the daily load schedule. To separate successive intervals between the corresponding signals of timer 11, there is a pause (low level), upon which the decoder 13 puts the first match element 12 into a state that allows the transfer of the contents of the fifth counter 8 accumulated over the past interval to the sixth counter 15. This transfer will occur provided that during the past interval there has been a passage through zero (zeroing) of the contents of the reverse counter 9. The output of zeroing the reverse counter 9 translates trigger 14 into one the initial state from which it is again brought to the zero state by the decoder 13 at the beginning of the next measurement interval set by the timer !!

Reversing counter 9 will only be reset if the number of pulses received during the current time interval from the power-frequency converter 1 through the frequency divider 2 and switch 4 is equal to or greater than the number of pulses received at the input of counter 8 and subtracting the input of the reverse counter 9 during any past measurement interval of the largest loads of the daily schedule zone.

If during the current interval the zeroing of the reverse counter did not occur, then the load of this interval is lower than the previously measured and stored in the sixth counter 15 for the entire past calculation period.

Thus, at the sixth counter 15, measurement and storing of the maximum of a half hour, fifteen minute or ten minute load in the peak zone of the calculation period is provided.

Compared with the known, the proposed electric meter has the following advantages:

the ability to organize electricity metering with payment sharing for the highest load power and energy with differentiation of the cost of energy by time of day; simplification of the structural diagram.

Claims (1)

Claim The meter containing serially connected measuring transmitter power-frequency, the input of which is the input of the counter, the frequency divider and the first counter, the output of the frequency divider is connected to the input of the switch, the first output of which is connected to the second counter, the second output to the second output the switch is connected to the first output of the timer, a crystal oscillator, the first output of which is connected to the control input of the power-frequency converter, the second output - to the input of the timer, decipher op, the first output of which is connected to the first input of the first element of coincidence, the fourth, fifth and sixth counters, the second element of coincidence, a reversible counter, whose input is connected to the third output of the switch, and the output of zeroing - with a single trigger input, characterized in that in order to simplify and expand the scope, the third output of the switch is connected to the fourth and fifth counters, the second timer output is connected to the input of the decoder, the second output of which is connected to the reset inputs of the fifth counter, trigger and a single trigger output is connected to the first input of the second match element, the third input of the first match element is connected to the output of the fifth counter, and the output of the first match element is connected to the input of the sixth counter, the output of which is connected to the second input of the second match element whose output is connected to the input of the reversible counter.