SU275488A1 - DEVICE FOR CONTACTLESS ULTRASONIC TESTING OF MATERIALS - Google Patents

Description

A device for contactless ultrasonic testing of materials is known, comprising receiving and exciting transducers made in the form of electromagnets and inductors. In this device, electromagnets are supplied with direct current, which limits the sensitivity of the device, since the direct current electromagnet does not create a sufficiently strong constant field, and an increase in the current in the electromagnet winding leads to overheating.

The proposed device differs from the well-known fact that, in order to increase sensitivity, the generators of video pulses with accumulators are used as sources of electromagnet, and the instrument is equipped with a delay device connected between the synchronizer output and the inputs of the probing pulse generator and the scan generator.

The drawing is a block diagram describable device.

The device contains a synchronizer 1, receiving and exciting transducer 2 and 3, made in the form of inductance coils 4 and electromagnet 5, generator 6 probe pulses, generator 7 video pulses with a drive, amplifying path 8, indicator 9, sweep generator 10 and device

1} the delay included between the output of the synchronizer 1 and the inputs of the generator-generator 6 and the generator 10 sweep.

The device works as follows. The synchronizer / produces a sync pulse that starts the generator 7, energizes the electromagnetics 5 of the receiving and exciting transducers 2 and 3, and with a delay determined by the device // starts the generator 6. The induction coil 4, fed by the generator 6, induces eddy currents in the surface layer of the monitored product, which, I interact with the total magnetic field of the electromagnet 5 and inductive

coils 4 cause elastic ultrasonic vibrations. Elastic vibrations in a narrow beam propagate inside the product and reach the receiving transducer 2. The intensity of the excited ultrasonic vibrations and

the magnitude of the signal of the receiving transducer is proportional to the magnitude of the zero generated by the electromagnets 5. The power supply of electromagnets 5 by the generator 7 of video pulses allows you to significantly increase the amplitude of the pulse, maintaining the permissible average value of the current flowing through the electromagnets 5, and to avoid the effect of the sensor flowing to the controlled part occurring during power 5 permanent electromagnets

Subject invention

A device for non-contact ultrasonic testing of materials containing iriem and exciter transducers, each made in the form of an inductance coil and electromagnet; characterized in that, in order to increase the sensitivity, imitapil electromagnets and irienei generators video pulses with accumulators, and the device is equipped with a delay device connected between the synchronizer output and the inputs of the probe pulse generator and the sweep geierator.