SU521525A1 - Automatic device for determining the current combined electrical load of an enterprise - Google Patents

Description

not averaged information, but individual signals.

The aim of the invention is to improve the accuracy and automation of the measurement process.

This is achieved by inserting a counter-averager into the device, a counter-distributor, a shift register and a control unit, the counting input of the counter-averager is connected to the information receiving unit, the control input - to the control unit, and the outputs - to the inputs of the first Г the shift register, the installation inputs of the counter-distributor are connected to the last G bits of the shift register, its control input is connected to the control unit, and the outputs to the inputs of the distribution digester.

The drawing shows a structural electrical circuit of the device.

The device contains information receiving unit 1, counter-averager 2, shift register 3, enterprise current power meter 4, element OR 5, counter-distributor 6, distributor 7, generator 8, control unit 9, display and recording unit 1O.

The device works as follows.

The signals from the information receiving unit 1, which is a device for receiving and generating asynchronously received signals from any type of electrical energy consumption sensors (pulsed or potential), as well as generating signs that characterize this signal (own or third-party needs), go to the counting input of the counter - average 2 and to the counting input of the current electric power meter 4 through one of the inputs of the element OR 5. The information signals with a sign of their own needs are added to the information In the counter-averager 2 and in the current power counter 4, the signals with a sign of third-party needs are subtracted.

As a counter-average 2, a reversible binary counter is used, the width of which (G) is determined by the maximum number of pulses arriving from information receiving unit 1 for a selected period of time. According to the signals from the control unit 9, the contents of the counter of the averager 2 are entered into the first G bits of the shift register 3, the counter averager 2 is reset to the zero state, and information signals again begin to flow to the counting input.

Shift register 3 is a conventional shift register that promotes information when a signal is fed from the control unit by the number of bits determined by the bit of the average counter 2. The number of bits

the shift register 3 is determined by the number of time intervals (W) into which the time interval T "aE is divided, for which the current load of the enterprise is determined.

After the time, the information recorded at the beginning of this interval in the first G bits of the shift register 3 is read by signals from the control unit 9 from the last f bits of the shift register 3 to the distributor counter 6, which is a regular binary counter working on subtraction. The outputs of the counter-distributor 6 are connected to the distribution decoder 7, which, according to a signal from the control unit 9 and according to the information of the counter-distributor 6, selects one or another frequency of the generator 8 so that over the length of time d t the contents of the counter-distributor 6 can be uniform read by generator pulses 8, which simultaneously arrive through one of the inputs of the element OR 5 to the counting input of the current power meter of the enterprise 4 When the zero state of the distribution counter 6 is reached, the distribution decryptor 7 indicates a signal for stopping the operation of the generator 8.

The display and registration unit 1O visually monitors the values of the current load and records it on a self-powered potentiometer.

In this way, the half-hour error is reduced by replacing the discrete subtraction with a uniform reading over the entire gap Ai and a full automatic measurement process is achieved.

Claims (3)

1.Kahanovich V.S. et al., Device for tariff calculations of the enterprise for electric power. Industrial Energy, № 5, 1972 2. Cheban V. M, et al., Information system for electrical loads ISEN-2. Industrial power number 9, 1972 3. Avt. St. No. 427285, Cl. & O1 K11 / 56, O2.O9.71.