SU953557A1 - Ultrasonic flaw detector - Google Patents

Description

(5) ULTRASOUND DEFECTION (ITS OPTIONS)

one .

The invention relates to non-destructive ultrasonic testing and using the ms to be used to control the quality of materials.

Known ultrasonic flaw detector containing serially connected. Synchronizer, probe pulse generator, transducer, amplifier-detector, video amplifier, indicator and scan generator connected between the input of the indicator and the output of the synchronizer Ci.

The disadvantage of it is low control accuracy.

The closest in technical essence and the achieved result to the invention is an ultrasonic flaw detector containing a series-connected synchronizer, probe pulse generator, transducer, amplifier-detector, video amplifier and indicator, as well as a sweep generator connected between the indicator input and the synchronizer output, connected between the amplifier -detector and video amplifier, the cascade of matches and the strobe pulse shaper, whose input is connected to the second output of the amplifier-detector and the output is with the Ch2 input of the cascade of coincidence T2.

The disadvantage of it is the low reliability of the control, due to the loss of information contained in the pulses with an amplitude lower than the strobe pulse formation level.

The purpose of the invention is to increase the reliability of the control.

Claims (2)

The goal is achieved by the fact that the ultrasonic flaw detector according to option 1 is equipped with a series of anti-coincidence circuit, the first input of which is connected to the output of the strobe pulse shaper, and the second input - to the output of the amplifier amplifier, voltage divider and adder coincidence, and the output -. to the input of the video amplifier. Ultrasonic flaw detector according to version 2 is equipped with a maximum signal extraction unit, connected to the output of the coincidence stage and a video amplifier input, and a yarn divider connected between the output of the amplifier detector and the second input of the maximum signal extraction unit. Fig. 1 shows the circuit block of the flaw detector ( option 1); in fig. 2 is a block diagram of a flaw detector (option 2); in fig. 3 and 4 are temporary diagrams that show how the circuits work. The ultrasonic flaw detector contains a series-connected syncronizer 1, a generator of 2 probe pulses, a transducer 3 amplifier-detector A, a cascade 5 matches adder 6, a video amplifier 7, an indicator 8, an oscillator E sweep, included. between the synchronizer 1 and the indicator 8, the shaper pulse generator 10, whose input is connected to the second output of the amplifier-detector t, and the output to the second input of the cascade 5 matches. In addition, the ultrasonic flaw detector according to option 1 contains an anti-coincidence circuit 11, the first input of which is connected to the output of the gate generator 10, and the second input to the output of amplifier 1, detector 4, and voltage divider 12. Transducer 3 is installed on the controlled product 13. Ultrasonic flaw detector according to option 2 contains a maximum signal extraction unit 14 connected between the output of the matching stage 5 and the input of video amplifier 7, and a voltage divider 12 is connected between the output of amplifier-detector k and the second output of selection unit 14 maximum signal. Ultrasonic flaw detector for option 1 works as follows. The synchronizer 1 starts the generator 2 of the probe 1 (their pulses and the sweep generator 9. The generator 2 activates the converter 3, which converts the electrical pulses into elastic pulses emitted into the controlled product 13. The pulses reflected from the product 13 are received by the converter 3 and are pre (the electric the pulses supplied to the input of the amplifier of the detector 4. Video signals 15 (Fig. 3) from the output of the amplifier-detector k are fed to the inputs of the generator 10 strobe pulses, the cascade 5 matches and the anti-coincidence circuit 11. The trimmer 10 produces strobe pulses 16, the temporal position of which is determined by the moments of intersection of the video signal 15 and the cutoff level. Strobe pulses from the output of the former 10 are fed to the inputs of the coincidence stage 5 and the anti-coincidence circuit 11. At the output of the coincidence stage 5, video signals 17 are obtained the output of the anti-coincidence circuit 11 video signals 18, which represent the difference between the original video signal 15 and the video signal 17. These signals are fed to the input of the voltage divider 12, the output of which relieves voltage 19, divided th t times. At the output of the adder 6, a total signal 20 is obtained, which through the video amplifier 7 is fed to the indicator 8. In the ultrasonic flaw detector for option 2, video signals 17 (Fig. 4) from the cascade 5 coincide to the first input of the maximum signal extracting unit 14, and the second input - video signal 21 from the output of the 12-voltage divider. The transfer characteristic of the maximum signal extraction unit 14 is such that the amplitude of the output signal at each time point is the greatest of the amplitudes of the input signals. The present invention makes it possible to increase the reliability of the control by storing the information contained in the pulses, whose amplitude is below the cutoff level. Claim 1. Ultrasonic flaw detector comprising a synchronizer connected in series, a probe pulse generator, a transducer, an amplifier-detector, a video amplifier and an indicator, and a sweep generator connected between the indicator input and the synchronizer output, connected between a amplifier-detector and a video amplifier, a cascade of matches and a driver the strobe pulses, the input of which is connected to the second output of the amplifier-detector, and the output to the second input of the coincidence cascade, characterized in that With increasing control reliability, it is equipped with a series of anti-coincidence circuit, the first input of which is connected to the output of the strobe pulse former, and the second input - with the output of the amplifier-detector, voltage divider and adder, the second input of which is connected to the output of the coincidence cascade, and the output to input video amplifier. 2. Ultrasonic flaw detector containing sequentially connected synchronizer, probe pulse generator, transducer, amplifier-detector, video amplifier and indicator, as well as a sweep generator connected between the indicator input and the synchronizer output. a cascade of matches connected between the amplifier-detector and the video amplifier, and a strobe pulse shaper, whose input is connected to the second output of the amplifier-detector, and the output to the second input of the coincidence cascade, characterized in that, in order to increase the control reliability, it is equipped with a signal connected between the output of the coincidence stage and the input of the video amplifier, and a voltage divider connected between the output of the detector amplifier and the second input of the maximum signal extraction unit. Sources of information taken into account in the examination 1. USSR author's certificate №, кп. G 01 N 29/0, 1971. 2. USSR author's certificate number 757976, cl. G 01 N 29/0, 1976 (prototype,). F {41.1 "with