SU1298633A1 - Method of electromagnetic flaw detection - Google Patents

Abstract

The invention relates to non-destructive testing. The purpose of the invention is to increase the information content of the control by determining the size of the defects and the current coordinates of the moving control zone. The surface of the test object is scanned by the primary converter and the receiver and, in the common measuring channel, signals from the edges of the test object and defects are located, the converter is moved using a driving collector motor, and the coordinates of the moving control zone of the converter are determined by the number of pulses of its collector current. When determining the coordinates, it is taken into account that the transducer scans the surface of the control object along a predetermined path. To determine the coordinates, it is enough to register at each time the distance the converter travels, which is uniquely related to the number of pulses of the collector current of the driving motor. 1 il. FL CZ tsD CO 00 o: with co

Description

The invention relates to non-destructive testing and can be used for the flaw detection of electrically conductive objects when scanning them with electromagnetic transducers.

The purpose of the invention is to increase the information content of the control by determining the size of the defects and the current coordinates of the moving control zone.

The drawing shows the block diagram of the device for implementing the method of electromagnetic flaw detection.

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scanning the converter 7. The argument of these functions is changed using the control of switch 5 synchronously with the pulse supply of the collector current of the driving motor 1, and therefore 5 synchronously with the movement of the control zone of the converter 7.

The signal f from the edge of the control object serves to synchronize the beginning and end of the sweep line on the oscilloscope screen. An oscilloscope beam intensity modulator Z input is given a signal V.J proportional to the signal

The driving motor 1 is under -5 from defect V. The controlled switch to the power supply unit 2 via the relay 5 is designed to match

a resistor 3, on which is allocated on-between the signals at its input and the output voltage proportional to the collector. When the device is in operation, the beam on the oscillating motor drive-current motor current is moved to

l 1, With the help of the filter 4, the time-lapse is at the same time

Claims (1)

from the first harmonic of the collector current, and is fed to the controlled switch 5 as a signal synchronous with the rotation of the drive motor shaft i. The drive motor I shaft is mechanically connected to unit 6, moving an electromagnetic converter 7 along a predetermined path, for example, performing line-by-line scanning on a flat plane of a rectangular control object. The power of the eddy-current converter 7 and the removal of information from it are carried out with the help of the measuring unit 8, determined in 35 stations in a real scale so that when the time zone appears in the time zone, the current coordinates of the movement of the eddy current transducer zone control of the converter 7 edges of the object of control or bodies on the surface of the object of control, effect, the output signal from block 8, which allows to determine the location of the signal, increases or decreases its value and the size of defects, thus increasing the relative about average. This is an informative control. The block of signals from defects V and edge 9 is used by the block 9. The claims of the test object are, for example, two amplitude 45. Electromagnetic defect detector method with initial bias, scattering, which consists in dividing said signals and apply their surface of the object under control to the control switch 5. Scan the eddy-current transform by the following wrapper and separate the signals from the edges at once. 50 from the object and from the defects different from and with the fact that, for the purpose of raising the block 10 in a digital form, nor the informativeness of the control due to Determining the size of defects and current coordinates of the moving zone to the vertical and horizontal from 55 control, scanning the eddy current cloning systems of the oscilloscope for the converter is carried out by moving the beam on its screen using a drive collector trajectory similar to the trajectory of the electric motor. V, V signals supplied scanning the converter 7. The argument of these functions is changed using the control of switch 5 synchronously with the pulse supply of the collector current of the driving motor 1, and therefore 5 synchronously with the movement of the control zone of the converter 7. The signal f from the edge of the control object serves to synchronize the beginning and end of the sweep line on the oscilloscope screen. An oscilloscope beam intensity modulator Z input is given a signal V.J proportional to the signal from defect V. Controlled commutation by moving the control zone of converter 7 along a similar trajectory. The appearance of a defect in this zone leads to an increase in the beam brightness.  oscilloscope. At the same time, on the oscilloscope screen, coordinates and dimensions of high-brightness sections are determined, which, when multiplied by an appropriate scale factor, give 50 coordinates and sizes of defects on the plane of the control object. The application of the proposed method makes it possible without the use of special transducers pulses of its collector current are determined by monitoring and are used to judge the coordinates of the moving defects. nig control and defects. with 5l. X hmm Y / (L. Z 5G 5c