SU136458A1 - Device for static control of electricity meter errors - Google Patents

Description

The present invention relates to devices for static control of metering errors of electric power meters, verified on an automatic installation — according to author's certificate L 127326, based on the conversion of an imps code. derived from the specified lstanko.

The proposed device differs from the known ones in that it uses a block of scale intervals, which counts the number of equal intervals for the entire range of errors, an information distributor that selects an interval. corresponding to the value of error, and-digital. tables for registration control results.

Such an embodiment of the device makes it possible to obtain the distribution of the errors of the counters in the form of a table with continuously adjusted values of LS.

Below is a diagram of the proposed device.

The device performs the functions of static monitoring of the errors of electric power meters when operating under load. It solves the problem of determining the error distribution function in the form of digital tables with a given interval.

The magnitude of the error enters the device in the form of a series of pulses from the measuring set of the DUT performed according to the author's certificate. 127326, which is used for automatic calibration and deconstruction of electric power meters.

This code is applied to an interval scale unit (BMI), made in the form of an electronic conversion circuit with a conversion factor of 2. It counts but a given scale D, the number of equal intervals iV for the entire error range of the measured value. The number of intervals .;

So, NRE, 1ER; if-to the input of the block. 24 pulses were received, the block counts the number of intervals.

No. 136458-2. This means that this error falls within the 12th interval.

The distributor of information on the error intervals (OC) is made in the form of a relay counting line. It selects the Interval corresponding to a given error value by the received number of pulses, and then sends a coded signal in a single pulse through the switch of intervals of intervals / C to register an event, which means the occurrence of an error, stacked in this interval.

So, having received a readout from the BMI block equal to 12, the information distributor sends a single pulse to 12 and an interval of a row that makes up the table of the meter error distribution function at that load, pr: and which the error of this counter was measured.

A switch of a series of intervals K is used for switching circuits in the case of static control of the errors of measured values in several modes of operation of the object of measurement or in the case of a change in the nature of the measured value itself. Thus, in the process of calibration of class 2.0 electricity meters, the error of the latter is obtained at ten different combinations of load current and soss. In order to statically control the error of such a counter, it is necessary to determine ten distribution functions, which is achieved by switching in the device the circuits of the corresponding, first rows of intervals, which are tables of the distribution functions TI-T ,, on all loads.

If the device has to provide digital data with only one distribution function, then there is no need to use a switch.

The TI-T tables for the load error distribution functions are combined into a common digital block that consists of; several rows of intervals. The number of rows (tables) is determined by the number of modes of the measurement object, in this case the number of loads during calibration of the counters.

Digital data is recorded in the interval of a row. The latter are information on the number of cases in which the magnitude of the error in the measurement falls within a given interval. The digital data of the entire range of intervals compiles the table values of the distribution function for the data mode of the object to be measured. This data is continuously updated as information is received from the measurement set of the DUT.

In the device, a number of intervals are made on electromechanical pulse counters.

The value and sign of the incoming information is encoded under the slot number.

Thus, the 8th interval is zero (median interval). The number on the S-ro interval counter corresponds to the number of cases when the error of the electric meter on the load is in the range from -0.2% to + 0.2% (D ± 0.4%).

Pomer intervals from the 1st to the 7th encode a positive error, increasing to the 1st interval. Similarly, the numbers of the intervals from the 9th to the 15th encode a negative error, increasing in absolute value to the 15th interval.

Extreme intervals (O and 16) encode the number of cases when the error is out of range and therefore is not included in the table values.

Thus, in the process of continuous measurement, the numbers of cases are recorded and continuously corrected in a series of intervals.

the occurrence of certain errors of electricity meters on the loads. The numbers of each row and make a table of distribution functions. According to them, one can judge about the deviations of the average value of the errors of the impuded electric meters and introduce the corresponding adjustment in the measuring devices and control (exemplary) devices on the adjusting and testing sections.

This device can be used not only for static control of the error of meters on loads, but also for static control of measurement errors or of the measured values themselves.

For this, the measured quantity or its error must be entered into the device in the form of a sequential code of the number of pulses.

Subject invention

1. A device for static control of the errors of electricity meters tested on an automated installation according to the author's certificate No. 127326, based on the conversion of the code of pulses received from the specified installation, characterized in that, for the purpose of half-pupils, the distribution of the errors of the counters corrected values, a block is applied (Scale of intervals, counting the number of equal intervals for the whole range of errors, the information distributor, which selects the interval, corresponding values of error and digital recording control table for results.

2. The device according to P. I, which means that, in order to determine several error distribution functions, a switch of rows of intervals was used, switching the circuits corresponding to these rows.