SU670884A1 - Device for ultrasonic inspection of porous bodies - Google Patents

Description

The input of the computational block included a block 13 for setting the code.

The device works as follows.

The generator / probe pulses produce short electrical impulses that are converted by the searcher 2 into elastic oscillation pulses and introduced into the material. With the help of the receiver 3, the pulses that have passed through the impregnation zone are converted into electrical pulses, which are amplified in amplifier 4 and subjected to spectral analysis in the analyzer 5.

The signal from the analyzer output is fed to the input of block 6, which detects this signal.

At the output of block 6, an analog signal appears that follows the spectrum of the received signal. Using an analog-to-digital converter 7, this slowly converts the voltage of an analog sigpal into sequences, the number of impulses in which is proportional to the area of the spectrum of the impulse that the analyzer receives during one operating cycle 5.

In order to eliminate the influence of the kind of material on the experimental data, the input of the computing unit 8 is pulsed from the output of the 5/5 block of the code, to another input of which a sequence of pulses comes from the output of the apalo-digital converter 7. In the registers of the computing block, material code at the time of arrival of the “Record.

At the moment of the arrival of the Comaid, the Start the computing unit stops recording and begins to multiply the numbers stored in the registers.

At the output of the computing unit, a sequence appears, the number of pulses in which determines the degree of impregnation of the porous body and does not depend on the type of material. This sequence is summed up in counter 9.

In the spectrum analyzer, the frequency spectrum analysis is automatically tuned.

At the same time, from the output of the apalizator 5, the output voltage through the differentiating circuit 10 is supplied on the generator input // pulses. Then the first impulse corresponding to the opacity of the working peak of the analyzer 5 transfers the generator // to the state 0.

The output of the Record of block 13 to the computing unit 8 receives a command impulse and begin recording in the corresponding registers of block 8.

The second pulse, corresponding to the end of the next analyzer cycle, translates the generator // of pulses into state I. At the same time, a command pulse is sent to the input "Reset of counter 9", as a result of which the previous readings are reset.

After some time, the same pulse through the delay stage 12 arrives at the start of the computing unit and the process of multiplying the registers of the spectrum and the material code begins.

On the indicator board of counter 9, a number appears that represents the result of multiplication.

The proposed device makes it possible to increase the accuracy of monitoring porous materials by automatically processing signals and eliminating the influence of the type of materials obtained.

Claims (2)

1. Author's certificate of the USSR L 200287, cl. G 01 N 29/04, 1964. 2. For the number 2337000, cl. G 01 N 29/04, 1976, according to which the decision to issue an author's certificate was made. , ;; Start