SU45001A1 - The method of increasing the accuracy of the readings of measuring instruments - Google Patents

Description

The present invention relates to a method for increasing the accuracy of the readings of measuring instruments when measured by two measuring instruments of different sensitivity included in the circuit so that, at any ratio of their resistances, the sum of their readings results in the value of the measured electrical voltage.

According to the invention, the fractional part of the deviation of the instrument arrow is not counted on the eye, but is measured using an auxiliary instrument with a nominal value 50-100 times smaller than that of the main instrument. With the help of a rheostat, the fractional part of the instrument reading is transferred to the auxiliary instrument, where this value causes a deviation of several tens of divisions. As a result, the error in the production of the fractional part decreases by as many times as the nominal scale division value of the auxiliary device is less than the same value of the main device, i.e., 50-100 times.

On the main instrument, the readout is performed under the most adverse conditions, when the arrow is mounted on the scale bar. The error of reference here is determined by the achievable point (253)

setting the arrow on the scale. According to the author's measurements made on the compensator, this value does not exceed in foreign devices of the 1st class + 0.01 - 0.0125 divisions. By taking into account the reference error on the auxiliary device, which can be taken as 0.0025 divisions, it will be obtained that the proposed method achieves a reference accuracy of 0.015 division. i.e., 3.3-6.6 times higher than now existing.

Since the fractional part of the deviation is measured for measuring instruments such as ammeters, voltmeters and wattmeters, various schemes are used accordingly.

In FIG. 1 shows a circuit for checking ammeters; FIG. 2 and 3 - the same for checking in lithmtres; FIG. 4 - the same for checking wattmeters.

The circuit of FIG. 1 for generality, is applied to the verification of an ammeter A. With a rheostat, an ammeter L is set to an integer number of divisions, and a measured value corresponding to the fractional part of the division of the main instrument scale is counted on the ammeter Lz. The verification of the voltmeter Vj is carried out according to the schemes of FIG. 2 and 3. If necessary

simply measuring the voltage, the voltmeter V turns off.

The forced distribution of voltages, between voltmeter Fj and voltmeter V in the circuit of FIG. 2 is achieved by moving the rheostat R slider. The voltmeter Kj in both schemes measures the fractional part of the voltage.

In the diagram of FIG. 4 in parallel with the sequential winding of the wattmeter AB, an ammeter A is included with a current measurement limit 50 to 100 times less than the rated current of the wattmeter and adjustable resistance /. After closing the breaker, select R so that the meter of the power meter is set to the nearest whole nth division. Let the readings of the ammeter / 4 be / 1. Then, by decreasing R, set the arrow of the wattmeter to the th-th division. The indications of the ammeter in this case are / 2- Then the fractional part of the division d will be equal to

4 L

Similar to connecting a voltmeter with a rheostat from the diagram of FIG. 2 to parallel wattmeter circuit can get previous results.

The subject matter of the invention.

The method of increasing the accuracy of the readings of measuring instruments when measuring two measuring

with devices of different sensitivity included in the circuit so that, at any ratio of their resistances, the sum of their readings would result in the value of the measured electrical quantity, characterized in that, using appropriately adjustable resistances, change the ratio of the deviations of both devices, set the arrow of the coarser device on one of the full scale divisions, in order to count the rest of the measured value corresponding to the fractional part of the scale division of the main instrument, according to more to a second device.