SU1693527A1 - Device for eddy current flaw detection - Google Patents

Abstract

The invention relates to non-destructive testing and can be used for the flaw detection of large objects. The increase in the reliability of control is achieved due to a more complete acquisition of primary information. A measuring element consisting of inductors 1-3 is rotated about an axis lying in the plane of the turns of coil 1 and parallel to the straight line obtained by crossing the planes of turns of coils 1 and 3. The induced electromotive voltages 1-3 carry information about the presence defects and their parameters, 2 Il.

Description

The invention relates to non-destructive electromagnetic testing and can be used for flaw detection of large-sized electrically conductive products when determining the coordinates and orientation of cracks, fractures and other inhomogeneities, as well as their recognition.

The purpose of the invention is to increase the reliability of control is achieved by obtaining primary information in more full.

In FIG. 1 shows a block diagram of a device for eddy current flaw detection; in FIG. 2 - measuring element of the eddy current transducer.

A device for eddy current flaw detection includes a eddy current transducer, including a measuring element consisting of coils 1-3 inductors, identical coils 1 and 2 are orthogonal to each other, and coil 3 is placed coaxially with coil 2 with axial displacement, and the exciting system 4. In addition, the device contains a controlled oscillator 5, connected by the output to the exciting system 4, a drive 6, mechanically connected to the measuring element of the switch ', a signal processing unit 8, connected by an input through the switch to a coil 1-3 and the measurement element and the indicator 9 is connected to the output of the signal processing unit 8. The latter contains a control and measuring module connected to the control inputs of the generator 5, drive 6 and switch 7. The axis of rotation of the measuring element lies in the plane of the coil of coil 1 and is parallel to the straight line obtained by crossing the planes of the turns of coils 1 and 4 3.

The device operates as follows.

The exciting system 4, powered by the generator 5. The current parameters of which 4 are set from the control and measuring module, creates an electromagnetic field that excites eddy currents in the controlled product 10 (Fig. 2). In the coils 1-3 of the measuring element, eddy current 5 of the transducer, rotating in the plane of the orthogonal plane of the location of the monitored product 10, induced EMF, which contains information about the location and geometry of the defect. The signals from the coils 1-3 through the controlled switch 7 are sequentially fed to the measuring input of the signal processing unit 8, where the signals are processed according to a certain algorithm, and then 15 the result is induced on the indicator 10.

The law of rotation and the parameters of the excitation current are generated in the training mode of the device according to known algorithms using control samples.

Claims (1)

Claim A device for eddy current flaw detection, containing a series-connected generator 25, an eddy current transducer, the measuring element of which is made with two identical orthogonal inductors and a drive for rotating the coils, a signal processing unit and an indicator, characterized in that, in order to increase the reliability of control, it is equipped with a switch and a third inductor, the switch, the drive and the generator 5 are made controllable, the signal processing unit is made with a control-measuring mode a unit connected by control outputs to the controlled inputs of a switch, a drive, and a generator, the third 0 inductance coil is mounted coaxially with one of the first two with axial displacement, the rotation axis lies in the plane of the measuring element’s coil orthogonal to its third coil, and 5 is parallel to the straight line obtained when crossing the planes of turns of these coils. 1G93527 fie. 1