SU1188630A1 - Method of non-contact multiparameter inspection of articles from electro-conducting materials - Google Patents

Abstract

METHOD OF CONTACTLESS MULTI-PARAMETER CONTROL OF THE ELECTRO-CONDUCTING MATERIAL OF THE ELECTRICAL CONDUCTOR, which means that the control panel uses an external electromagnetic field to excite eddy currents and, by changing the frequency of the magnetic circuit, the area of the magnetizing area and the area of the area of the area of the area of the area of the area of the area. that, in order to increase the control accuracy, also change the amplitude of the magnetizing current of the converter, maintain the magnitude of the magnetic flux in a controlled product equal to a given one, and as informative parameters, use the values of frequency and amplitude of the magnetizing current of the converter at the moment of equality of amplitude and phase of the magnetic flux in the product to specified values of amplitude and phase.

Description

The invention relates to the field of non-destructive quality control by electromagnetic methods and can be used in electromagnetic defectoscopy and structuroscopy. 5

The purpose of the invention is improving accuracy.

The drawing shows a block diagram that implements the method of contactless multi-parameter control of 10 products from electrically conductive materials.

The circuit contains an alternator 1, a converter 2, a limiter 3 connected in series to the output of the last 15, a phase detector 4, the second input of which is connected to the second output of the converter 2, and a frequency modulator 5, the output of which jo is connected to the alternator 1 . The circuit also contains an amplitude modulator 6, connected between the generator 1 and the excitation coil (not shown) of the converter 1, J5, a functional converter 7, a measuring device 8, connected by its inputs to the generator 1, the second output of the amplitude modulator 6, the inputs of the phase detector 4 and the functional converter 7 and the input of the limiter 3. The output of the functional converter. 7 is connected to the second input of the amplitude modulator 6.

⁰ The method is as follows.

In a controlled product (not shown) placed in the transducer 2, eddy currents are excited by an alternating electromagnetic field excited in the transducer 2 by an alternating current generated by the alternator 1. The insertion voltage obtained in the converter 2 is limited by the limitation by the body 3 and is supplied to the phase detector 4, in which the phase of the magnetic flux in the controlled product is compared with a predetermined phase value (reference value). If their difference deviates from the set value at the output of the phase detector 4, a mismatch signal is generated that controls the frequency modulator 5, which changes the frequency of the generator 1 until the set value of the phase of the magnetic flux in the controlled product is restored. In this case, the introduced voltage obtained in the converter 2 is additionally supplied to the functional converter 7, where it is integrated and compared in amplitude with the reference signal. In the event that their difference is not equal to zero, a mismatch signal is generated, which is supplied to the amplitude modulator 6 and controls the latter. Amplitude modulator 6 changes the magnitude of the magnetizing current of the transducer 2 to restore the specified magnitude of the magnetic flux in the controlled product. Information taken from the sensor enters the measuring device 8, containing an ammeter and a frequency meter.

Maintaining the constancy of the test mode by maintaining the phase and amplitude of the magnetic flux in the controlled product equal to the specified value, as well as using as information parameters the frequency and amplitude of the magnetizing current of the transducer at the moment of equal amplitude and phase of the magnetic flux in the product to the specified (reference) values of the amplitude and phase allows to increase the accuracy of control of electrically conductive products.

Claims (1)

METHOD OF CONTACTLESS MULTIPARAMETER CONTROL OF PRODUCTS FROM ELECTRICALLY CONDUCTING MATERIALS, which consists in the fact that eddy currents are excited in the controlled product using an alternating electromagnetic field of the converter and, changing the frequency of the magnetized current of the converter, the phase of the magnetic flux is controlled by in order to increase the control accuracy, changing also the amplitude of the magnetizing current of the converter, the magnitude of the magnetic flux in ntroliruemom 'item, equal to the desired, and as informative parameters using the frequency and the amplitude value of the magnetizing current of the inverter at the time of equality of the amplitude and phase of the magnetic flux in the article specify the values of the amplitude and phase. >