SU724915A1 - Displacement measuring device - Google Patents

Description

The invention relates to measuring equipment and can be used to measure linear displacements.

A device for measuring displacements is known, comprising a displacement sensor, two measuring generators, a frequency converter and an indicator [1]. The disadvantage of the device is the presence of two measuring generators and the associated insufficient measurement accuracy.

Closest to the technical nature of the invention is a device for measuring displacement, containing a series-connected displacement sensor, a measuring generator and a frequency converter, a tunable generator connected to the second input of the frequency converter, an indicator [2].

The disadvantage of this device is the reduced measurement accuracy with increasing measurement range due to the nonlinearity of the output signal of the measuring generator.

The aim of the invention is to improve the accuracy of measurements.

For this, the proposed device is equipped with a periodically-connected converter — code, a computing unit, a control unit, a period — code converter input connected to the output of the frequency converter, the output of the control unit connected to the input of the tunable generator, and an indicator connected to the output of the computing unit.

The drawing shows a structural diagram of a device.

The device comprises a displacement sensor 1, connected in series by a measuring generator 2, a frequency converter 3, a period converter 4 - code, a computing unit 5, a control unit 6, a tunable generator 7, the output of which is connected to the input of the frequency converter, an indicator 8 connected to the output of the computing unit 5.

The device operates as follows.

According to the signal of the displacement sensor 1, the measuring generator 2 generates a frequency signal corresponding to the state of the sensor.

The difference frequency generated at the output of the frequency converter 3, enters the period 4 converter - a code, from the output of which the signal enters the computing unit 5, where it is processed according to a given algorithm. Since the dependence of the frequency on the displacement (gap) is nonlinear, the curve of the dependence of the frequency on displacement is adjusted and the number at the output of the converter 4 decreases 724915. '3' is solved. Computing unit 5 monitors the number * th arriving at its input when it is reduced to a level lower, it is given in advance, in total, it issues a command to control unit 6, which changes the frequency of the tunable `` '' generator 7 so that the number at the output of converter 4 becomes not less than another predetermined number, i.e., increases the sensitivity of the device.

When switching to a new frequency, the displacement value at the moment of frequency change is recorded in the memory of the computing unit. The measurement result is read from indicator 8.

Claims (2)

.3 shas. Computing unit 5 monitors the incoming at its input when it is lowered to a level that is lower in advance, set, gives a command to control unit 6 Ne, changing the frequency of tunable generator 7 so that the number at the output of converter 4 becomes no less than the other in advance of a given number, i.e. increases the sensitivity of the device. When switching to a new frequency, the value of the movement at the time of the frequency change is recorded in the memory of the computing unit. The measurement result is read from the indicator 8. Formula of the invention A device for measuring displacement, comprising a series-connected displacement sensor, a measuring generator and a frequency converter, a tunable generator connected to the second input of the frequency converter, an indicator that, in order to improve the accuracy of measurements it is equipped with a period-code converter connected in series, a computing unit, a control unit, a period converter input-the code is connected to the output dy frequency converter, the output control unit coupled to the input of the tunable oscillator, and an indicator connected to the output of the computing unit. Sources of information taken into account during the examination 1.Goldman V.S. and Sakharov Yu.I. Inductive-frequency converters of non-electric quantities. M., “Energie, 1968, p. 61. 2. A. A. Yashin. Measurement of current and average thickness of conducting films by the contactless method. “Measuring equipment, 1972, No. 4 (prototype).