SU628437A1 - Stuck-on eddy-current differential transducer - Google Patents

Description

The invention relates to the field of non-destructive testing and can be used for the flaw detection of electrically conductive objects by the eddy current method.

Known eddy-current overhead df-transducers containing a stimulating and one or several pairs of identical measuring inductance coils, symmetrically located relative to the exciting inductance coil.

The disadvantage of the known converter is the dependence of the useful signal on the variation of the parameters of the control object and the complexity of its balancing.

The closest to the proposed by technical sushichnost is the eddy current slip differential transducer L2J, which contains the excitation inductance coil and two identical measuring inductance coils, symmetrically located relative to the excitation coil and consisting of turns with linear stretches. .

However, this converter does not have the required reliability of control, since when the centers of the coils are located on one direct absolute sensitivity of such a converter to an extended defect does not exceed the absolute sensitivity of the converter composed of the exciting and one (any two) measuring coils. This is due to the fact that the maximum sensitivity to the defect occurs at its position, corresponding to the maximum increment of the EMF of one measuring coil (the coil above the defect-free area of the product). When the defect is located in the sensitivity zone of both measuring coils, the thermal increment of their EMF and, consequently, the absolute sensitivity of the transducer decreases (to zero l when the coils are symmetrical with respect to the defect), since the phases of the EMF increments of both coils are the same.

Claims (2)

This disadvantage is especially noticeable when testing subsurface defects when the increments of the EMF of the measuring coils are small. The purpose of the invention is to increase the reliability of the control. This is achieved by the fact that the exciter coils are made with at least two linearly extended sections, forming an internal right angle, and the measuring coils are located near, forming an external right angle linearly extended sections of their turns. my angle of the exciting coil. FIG. 1, 2 and 3 shows the proposed Converter options. The Converter contains the exciting coil 1 and two identical measuring coils 2 and 3, located symmetrically with respect to the exciting. The exciting coil is made according to. with at least two linearly extended sections 4 and 5, and measuring with at least one linearly extended section 6, and linearly stretched sections 4.5 of the exciting coil form an angle CO between them 9O, and the measuring ones are located that their linearly extended clocks 6 form an outer straight utop & covering the right angle of the exciting coil. Lines 7 and 8 show the position of the defect in product 9, corresponding to the maximum sensitivity to the transducer. The proposed Converter work em as follows. An alternator (not shown in the figures) energizes the exciter 6 37 coil 1 of the converter, which excites after eddy currents in the monitored product 9. The eddy current field induces an emf in each of the measuring coils 2 and 3, connected in series in antiphase, which is amplified and measured A voltmeter (not shown on the Faguar), and its value is judged on the presence or absence of the defect and its size. The claims Eddy current invoice differential converter comprising exciting coil indyktivnoctiJH two identical measuring coils arranged symmetrically relative to the exciting kauushki and consisting of a coil linearly-extended-conjugated portions, characterized in that, in order to increase reliability of control, coils of the excitation coil formed by with at least two linearly stretched sections,. forming an internal straight angle, and the measuring coils are located side by side, forming an external right angle forming the straight angle of the exciting coil in linearly stretched sections of their turns. Sources of information taken into account during the examination: 1. USSR author's certificate No. 39О431, cl. Q O1 N 27/86, 1973. 2. USSR author's certificate №420922, cl. q 01N 27/86, 1974.