SU983469A2 - Ultrasonic vibrometer - Google Patents

Description

The invention relates to acoustic measurement tools and can be used to measure displacements in any branch of engineering.

According to the main author. St. No. 746204 is known for an ultrasonic vibrometer comprising a series-connected auto-oscillator, the inductance of an oscillating circuit — which is a parametric displacement sensor, an amplifier-discriminator, a frequency detector, an ultrasonic frequency filter, a controlled amplifier and an indicator. A low-pass filter is turned on between the frequency output of the child and the control input of the controllable amplifier (1.

The disadvantage of the vibrometer is a narrow range of measured displacements. This is due to the fact that with a significant change in the distance between the monitored surface and the sensor, the frequency of the oscillator changes significantly, the operating point of the frequency detector goes beyond the linear part of the characteristic, which reduces the sensitivity of the vibrometer.

The aim of the invention is to clear the range of working distances.

The goal is achieved by; that an ultrasonic vibrometer, a series-connected auto-oscillator, whose oscillating circuit inductance is a parametric displacement sensor, discriminator amplifier, frequency detector, ultrasonic frequency filter, controlled amplifier and indicator, and connected between the output of the frequency detector and the control input of the controlled amplifier, lower filter frequency, is equipped with a DC amplifier, a current, the input of which is connected to the output of the low-pass filter, a functional converter, including one of the outputs of the latter and the control input of a controlled amplifier, and a varicap included in the circuit of the frequency detector and connected to the amplifier of direct current.

The drawing shows a functional diagram of the vibrometer.

The ultrasonic vibrometer contains a series-connected auto-oscillator 1, the oscillating circuit inductance of which is napaMerpH-i

2 offset sensor, amplifier-discriminator 3, frequency detector 4, ultrasound frequency filter 5, controlled amplifier b and indicator 7. A low-pass filter 8 is connected between the output of frequency detector 4 and the control input of a controlled one (Amplifier B. Amplifier 9 constant 1 current 8 is connected to the output of the low-pass filter, the functional converter 10 is connected between one of the low-pass filter 8 outputs and the control input of the controlled amplifier b, and the varicap 11 is connected to the circuit 12 of the frequency detector 4.

Ultrasonic vibrometer works as follows.

The parametric displacement sensor 2 of the oscillator 1 is set at a distance from the test surface, with oscillations of which the effective inductance of the oscillating circuit changes and, therefore, the instantaneous frequency of the oscillator 1, which carries information about the instantaneous values of the distance between the sensor 2 and the test surface. In the signal arriving at the amplifier-discriminator 3, amplitude modulation is eliminated;. In the output frequency of the frequency detector 4, the ultrasonic frequency of the frequency is proportional to the amplitude of the displacements of the monitored surface, then the constant component of the signal is proportional to the mean rad / stand between the sensor 2 and the monitored surface. The ultrasonic frequency component of the signal passes through the ultrasonic frequency filter 5, which does not transmit the constant component, and is amplified to the required value by a controlled amplifier b, which is fed to the indicator 7 with an electrical measuring device graduated in units of length.

In order that when the distance between the sensor 2 and the monitored surface changes, the operating point of the frequency detector 4 remains in the middle of the linear portion of the characteristic, the constant component of the signal extracted by the low-pass filter 8 is amplified by the DC amplifier 9 and fed to the varicap 11 frequency detector 4. The voltage on the varicap 11 is maintained such that at any time the circuit 12 of the frequency detector 4. is tuned to the middle frequency of the oscillator 1 and, therefore, the operating point ahodits the middle linear portion of the frequency detector characteristics.

To maintain the sensitivity of the vibrometer, the amplified constant component of the output of the amplifier 9 of the direct current through the functional converter 10 is fed to the control input of the amplifier 6. The functional converter 10 can be performed, for example, piecewise linearly approximating with adjustment of the transformation slope on each of the linear sections . When adjusting the vibrometer, the functional converter 10 is adjusted so as to eliminate the error at the junction points of the piecewise linear sections.

The use of the invention allows to expand the range of measurable displacements due to the fact that the frequency detector at any distance operates in the middle of the linear portion of the detector characteristic.

Claims (1)

1. USSR author's certificate 746204, cl. G 01 H 11/00, 1977 (prototype).,