SU911396A1 - Method of testing measuring instruments - Google Patents

Description

 , I.

The invention relates to a measuring technique and can be used in the calibration of measuring instruments.

There is a method of calibration of measuring devices based on the use of a measure or a calibrator of signals connected to a test measuring instrument. In this case, there are two options for verification.

The first is to set at the output a measure of the signal characteristics corresponding to the calibrated instrument scale marks and an estimate of the error on the scale of this instrument.

The second option is to change the characteristics of the signal at the output of the measure to a value corresponding to its determination of the instrument readings on the point being checked, and to determine the error of the instrument being turned on according to the scale or switches of measure 13.

The disadvantage of the first option is the low accuracy, the limited reading error of the readings from the scale of the instrument being tested, and the large amount of time spent reading these readings.

The second version of the calibration imposes sufficiently strict accuracy requirements over the entire range of measure adjustment and requires a large amount of time to establish the required instrument readings on the calibrated marks.

The closest to the proposed method is a calibration of measuring devices based on connecting a measure to a calibrated device, while at the output of the measure a signal is set equal to the lower tolerance of the input signal

the points, in succession with the measure, include an additional measure, graduated with zero in the middle, measure its signal from zero to the value of tolerance field 39 so as to set the value of the output signal of the device under test in accordance with the test point, and consider the additional measure with equal to the accuracy of the checked device 2. This method allows to reduce the accuracy requirements for an additional measure and to increase the speed of verification. However, the reduction in the calibration time is small and still remains very noticeable, which is due to the need to restructure the additional measure and read its readings. The purpose of the invention is to reduce the calibration time. This goal is achieved by the fact that, according to the method of calibration of measuring instruments, based on the use of the main and additional measures connected to the input of the device, the calibrated physical levels, corresponding to the test marks, are set at the output of the main measure, then using an additional measure calibrated levels are changed by an amount equal to the value of the permissible absolute error of the corresponding class of the instrument being turned, upward (downward) if the readings are The instrument okazyvayuts less (.bolshe) desired level iz 35

the measured physical quantity, and if, when the calibrated levels of the physical quantity change, the instrument readings pass through the corresponding detectable marks, then the instrument is considered to correspond to the established accuracy class.

This difference does not require the adjustment of the measure in a certain tolerance and the reading of the calibrated level of a physical quantity given by the measure.

The maximum increment of the calibrated level of a physical quantity, which is equal to the limit of the absolute permissible error of the instrument being checked, is enough, and the module of this increment remains constant for all calibrated levels corresponding to the scale of the instrument being checked. Only the sign of this increment can be changed.

The essence of the method is explained by the example of a switch instrument, the position of the shooter does not pass through a gauge (Fig. 15, fig. 26) „

Thus, when calibrating measuring instruments by the proposed method, the absolute error of the instrument is determined at all calibrated marks within the tolerance and according to the accuracy class of the instrument. To do this, just calibrate or increase or decrease the maximum allowable absolute error of the instrument being checked.

Such a change can be made either at the output of the measure, which forms the desired physical quantity, or with the help of an additional measure, which ensures the formation of the value of Dd.

The proposed method can be widely used in conditions where operational calibration of measuring devices is especially necessary. For which all possible cases of counting on one of the adjustable scale marks are shown in the drawing. The figures show the position of the arrow of the instrument to be tested (solid line) with a calibrated level of physical quantity at the output of the measure (signal calibrator), corresponding to one of the instrument's calibrated marks for positive instrument error on the gauge to be measured; in fig. 2 is the same for negative. The module of the absolute error of the instrument in the calibrated mark in the cases shown in FIG. 1 s | and FIG. 2e |, is less than the modulus of permissible basic error of the device being tested, D, determined by the accuracy class of this device, i.e. and in the cases shown in FIG. 15, and FIG. 25, - lu. D. When checking the device by the proposed method, the calibrated level of a physical quantity formed by the measure, in the first case, ChfiGo 1) must be reduced by the value of d, and in the second case (Fig. 2), the value of the same should be increased by D the instrument is in accuracy class, then; Ld | and the arrow necessarily passes through a permissible mark (Fig. O, Fig. 2a). If the device at the point of the scale does not satisfy the accuracy class, i.e. | and;; I 7 t L d I the measured levels of the physical quantity at the output of the measure change in the formula of the invention. The method of calibration of measuring instruments, based on the use of primary and secondary measures connected to the input of the instrument, is so that, in order to reduce the time the calibrations, at the output of the main measure, set the calibrated levels of the physical quantity corresponding to the verifiable marks, then with the help of an additional measure these calibrated levels are changed by the value equal to the absolute absolute error of the appropriate class of the instrument being checked, upwards (downwards), if the readings on 66 of the turned-on instrument turn out to be less (more) than the required level of the measured physical quantity, and if, when the calibrated physical level changes, the readings of the instrument pass verifiable marks, the device is considered to correspond to the established accuracy class. Sources of information taken into account in the examination of 1 "Lyubimov L.I., Forsilova I.D., Verification of electrical measuring instruments L ,, Energie, 1979, C- 798U 2, USSR Author's Certificate, cl. G 01 R 3.5 / 00, 197.

Claims (1)

Claim The calibration method of measuring instruments, based on the use of the main and additional measures connected to the input of the device, characterized in that, in order to reduce the verification time, calibrated levels of a physical quantity corresponding to the verified marks are established at the output of the main measure, then using of an additional measure, these calibrated levels are changed by an amount equal to the value of the permissible absolute error of the corresponding class of the instrument being verified 911396 6 of the device being verified are less (more) than the required level of the measured physical quantity, and if, when the calibrated levels of the physical quantity change, the readings of the device pass through the corresponding verified marks, then the device is considered to correspond to the established accuracy class. I