SU1458843A1 - Method of checking measuring instruments - Google Patents

Abstract

The invention can be used in the technology of mass primary inspection. The purpose of the invention is to improve the performance and quality of calibration. The method consists in the following. A signal equal to the value of one of the boundary values of the tolerance field of the calibrated mark is sent to the calibrated devices, then the input signal of all the calibrated devices is changed to the second tolerance field value, then the signal is changed in the same direction in the opposite direction and the cycles of such changes repeat. The result of the verification is determined by observing the readings of the instruments being checked, and the result is evaluated positively for those instruments whose readings pass through the check mark. 1 il. e

Description

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The invention relates to a measuring technique, in particular to methods for calibrating measuring instruments, and can be used in the technology of mass initial verification, as well as the alignment of measuring instruments.

The purpose of the invention is to understand the performance and quality of verification.

The drawing shows the characteristic of the change in the input signal, a wavy bold line shows the change in the input signal when checking the indication of the same checked mark; broken lines are limited to tolerance; thin line - nominal value of the checked mark; in the period of 1 time, the result of checking the reading of one instrument is determined, or there may be

The results of checks of indications of small-sized devices are determined.

The verification is carried out as follows.

At the beginning of the test cycle, at one checked mark at the output of the main measure, connected to the inputs of the inverted instruments, I set a signal equal to the value of one of the boundary values of the tolerance field of the check. marks, then using an additional measure, smoothly change the input signal of all turned devices to the second value of the tolerance field, then in the same range the signal is changed in the opposite direction and the cycles of such imputations are repeated. With such a wave-like signal, the checks are determined by observing the display} and the instruments being turned, and the result

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It is positive for devices whose readings pass through the checked mark from its one and second side.

The cycles of input signal changes are usually formed by the frequency of 0.8-1.2 Gy. The method is carried out using well-known calibration facilities having a source of measured value and switching means for controlling the output value of the measured value, which is controlled by an exemplary instrument. This device is used as a primary measure. As an additional measure, a calibrated calibration facility is used, with which the output signal level, set according to the indication of the main measure, can be smoothly changed from zero to the tolerance field value of the checked marks. and, conversely, for 1 ontrol variation of indications

When introducing the proposed method, an increase in labor productivity of not less than 2–3 times is achieved, by eliminating the need for restructuring the main measure when checking the readings of one and the same checked mark of each verifiable and adjusted instrument (this effect is more more instruments included by the B of the measuring circuit of the calibration installation) 5 as well as the quality of verification by observing the requirements of state standards, P The input signal independent of the sign of absolute error is more technological and reproduces Institution MO Jette be automated in the results

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In this case, the procedure is greatly simplified, and the verification process is also accelerated, since when checking the readings of each checked mark of all instruments connected to the installation, no manual operation is performed.

Form u.la and inventions

A method of calibrating measuring instruments based on the use of primary and secondary measures, including changing the input signal within the tolerance range of the checked mark, determining the result of checking in dependence on passing or not passing the indication through the check mark when changing the input signal and evaluating the checking process of the checked instrument is positive when receiving positive results of checking the readings of all the checked marks, characterized in that, in order to increase the performance and checking quality, when checking the indication of each calibrated mark at the output of the main measure, set the signal equal to the value of one of the boundary values of the tolerable mark tolerance field using the main measure, then using the additional measure the input signal is gradually changed to the second boundary value of the field tolerance, then in the same range, the signal is changed in the opposite direction and the cycle of such changes is repeated; with such a wave-like signal, the result of the verification is determined by observing the indications of verifiable 1 ra.

Claims (1)

Claim The verification method of measuring instruments based on the use of the main and additional measures, including changing the input signal within the tolerance range of the checked mark, determining the calibration result depending on the passage or non-passage of the testimony through the verified mark when the input signal is changed and the assessment of the calibration process of the calibrated instrument is positive for obtaining positive test results of all verified marks, characterized in that 25, in order to improve productivity and quality verification, when checking the readings of each verifiable mark at the output of the main measure, using the main measure • set a signal equal to the value of one of the boundary values of the tolerance field of the verified mark, then with the help of an additional measure the input signal is smoothly changed to the second boundary value of the tolerance field, then in the same range, the signal is changed in the opposite direction and the cycle of such changes is repeated, with such a wave-like signal, the verification result is determined by observing the readings of the instrument being verified. Ζ, u. R