SU591747A1 - Device for automatic detecting of natural oscillation frequency fluctuation of specimen being tested - Google Patents

Claims (1)

the equalizer DC frequency-voltage, direct-current voltage, and a comparator, the sensor output of the natural frequency of the test sample is connected to the input of a frequency-voltage direct-current converter, the output of which is connected to one input of the comparator, to another the input of which is connected to the output of the DC voltage source, and the output of the comparator unit is connected to the input of the relay element. The drawing shows a block diagram of the device. The sensor 1 of the natural frequency of the test subject is connected to the test sample 2, which is excited by the exciter 3. Through the converter 4, the DC frequency-voltage voltage sensor is connected to one of the inputs of the comparison unit 5, to the second input of which the output 6 of the reference voltage is connected direct current, and the OUTPUT of the comparator unit 5 is connected to the relay element 7. The output of the relay element is the output of the device. Device; Works in the following way. Energizer 3 informs the tested sample 2 mechanical oscillations with a frequency equal to the natural frequency of oscillation. When the natural frequency of the oscillation changes, the excitation frequency of the sample changes accordingly. Mechanical vibrations using a sensor are converted into electric frequencies of the same frequency, which are converted by means of converter 4 into a constant voltage. The level of the latter is proportional to the natural frequency of oscillation of the test sample. The output voltage of the converter 4 is the frequency of the direct current voltage and the voltage of the source 6 is fed to the inputs of the comparator unit 5. At the beginning of the tests on the Output of the block 5, a voltage level is established at which the relay element 7 does not operate. During the tests, in the case of lowering the natural frequency of the oscillations, the spring voltage of the frequency-voltage converter 4 is reduced, and therefore the input voltage of the comparison unit 5 changes. When the output voltage is converted. When the DC frequency-voltage ramp becomes equal to or less than the allowable value, a signal appears at the output of the comparator, causing the relay element 7, the output of which can be loaded on the control unit, to turn off the exciter. the oscillation frequency is shaped for a time interval determined by the inertia of the frequency-voltage converter DC 4, at its output a new voltage value is set, which, in the case of a transistor, is ur less than the DC voltage source setting causes the entire subsequent part of the circuit to work in. This device does not skip the fixation of an abrupt frequency change, since a sharp change in the natural frequency of the oscillation, although with a slight delay, always leads to a change in the DC voltage level. at one of the inputs of the comparator unit. The described device allows accelerating the tests, reducing their labor intensity and expanding the possibilities of varying the test conditions. Apparatus of the Invention A device for automatically detecting changes in the natural frequency of a sample to be tested, comprising a sensor for the natural frequency of a test sample and a relay element, characterized in that, in order to increase the speed of testing and the reliability of automatic detection of a change in the natural frequency of a test sample at large the speed of its change is 6, the voltage frequency-voltage of the direct current, the source of the reference voltage of the direct current, are introduced into it it and the comparison unit, where the sensor of the actual oscillation frequency of the test sample is connected to the input of a dc frequency-voltage converter, the output of which is connected to one input of the comparison unit, to another input of which the output of the dc voltage source is connected, and the output the comparison unit is connected to the input of the relay element.