SU1265582A1 - Electromagnetic quantizer for nondestructive inspection - Google Patents

Abstract

The invention relates to instrumentation engineering, namely, to means of non-destructive quality control of ferromagnetic materials, and can be used to measure the depth of hardening and hardening, to detect internal heterogeneities and other defects in x-products. The purpose of the invention is to improve the accuracy of control by equalizing the signals of the measuring windings on a defect-free product, due to the fact that the composite of 3-10 P-. shaped elements of the transducer magnetic circuit with exciting winding, covering all U-shaped elements, and measuring windings placed on the rods of U-shaped elements, are twisted in their middle part by 180 °, and the measuring windings have an equal number of turns. In this case, the bases of all U-shaped elements of the composite magnetic circuit are equal to each other, and the alternating magnetic field created in the product by each element spreads at the same depth, thereby ensuring equal magnetic resistance of the ele- mentary elements (O mental circuits if the number of turns is C, then if there is a defect-free product, the EMF induced in the measuring windings will have equal amplitudes. The presence of a defect leads to a change in the signal of the corresponding measuring winding . 2 cl.

Description

The invention relates to a control and measuring technique, relates to means for non-destructive quality control of ferromagnetic materials, and can be used to measure the depth of hardening and hardening, to detect internal inhomogeneities and other defects in products.

The purpose of the invention is to increase the accuracy of control by aligning 10 signals of the measuring windings on a defect-free part.

In FIG. 1 shows an electromagnetic transducer for non-destructive testing; in FIG. 2 - contour elements with an equal length of magnetic lines o

Electromagnetic transducer - contains a composite magnetic circuit 1 \ of 3-10 U-shaped elements 2-4, separated along the perimeter by non-magnetic gaps, an exciting winding 5, covering all U-shaped elements 2-4, measuring windings 6-8 placed on the rods P -shaped elements 2-4, the magnetic core · 1 in the middle part is twisted 180 °, and the measuring windings 6-8 have equal numbers of turns.

The converter operates as follows.

The alternating current supplied to the exciting winding 5 from the generator (not shown) creates an alternating magnetic flux in the circuit formed by the composite magnetic circuit 1 (in its U-shaped elements 2-4) and the controlled section of the product 9. Since the magnetic circuit 1 in the middle the parts are twisted through 180 °, the bases of all the Figurative elements 2-4 of the composite magnetic circuit are equal to each other, and the alternating magnetic field created in the product by each element 2-4 propagates at the same depth, thereby ensuring the uniformity of the magnetic resistances th elementary circuits. Since the measuring windings 6–8 have an equal number of turns, in the absence of a controlled product or remagnetization of a defect-free, magnetically homogeneous part, the EMF induced in these windings will have the same amplitudes about

The presence of a defect, an air shell or other magnetic heterogeneity leads to a change in the magnetic resistances of the elementary circuits, which leads to a change in the amplitude of the signal of the corresponding measuring winding 6-8 ° Depending on the size 20 of the defect and its location, the amplitude of several measuring windings 6-8 can change at the same time. The range of controlled depths can be adjusted by changing 25 the frequency of the magnetizing field, or by changing the base of the magnetic circuit of the device.

Claims (1)

The invention relates to instrumentation technology, relates to non-destructive testing of the quality of ferromagnetic materials, and can be used to measure the depth of quenching and hardening, detecting internal inhomogeneities and other defects in products. The purpose of the invention is to improve the accuracy of control by equalizing the signals of the measuring windings on the defect-free part. FIG. 1 shows an electromagnetic transducer for non-destructive testing; in fig. 2 - elements; | you contour with an equal length of magnetic lines o; Electromagnetic transducer - contains a composite magnetic circuit 1: from 3-10 U-shaped elements 2-4,: separated around the perimeter of non-magnetic: mi gaps, exciting winding 5, covering all U-shaped elements; 2-4, measuring windings 6-8, once; the cores of the U-shaped elements 2-4 on the cores, the magnetic conductor .1 in the middle part are twisted by 180, and the measuring windings 6-8 have equal numbers of turns. The converter works as follows. ; The alternating current supplied to the exciting winding 5 from the generator (not shown) creates an alternating magnetic flux in the circuit, formed by: NOM composite magnetic conductor 1 (in its U-shaped elements 2-4) and the controlled portion of the product 9, Since the magnetic conductor 1 in the middle part is twisted by 180 °, the bases of all the P-shaped elements 2-4 of the composite magnetic circuit are equal to each other, and the alternating magnetic field created by the product 2-4 extends at the same depth, thus ensuring the same magnetic resistance an elementary circuits. Since the measuring windings 6-8 have an equal number of turns, in the absence of a controlled product or re-magnetising a defect-free, magnetically uniform part, the EMF induced in these windings will have the same amplitudes The presence of a defect, an air shell or another magnetic inhomogeneity of the device; magnetic resistances of elementary circuits, which leads to a change in the amplitude of the signal. The corresponding measuring winding is 6-8 o. Depending on the size of the defect and its location, Above the amplitude of several measuring windings 6-8 simultaneously. The range of monitored depths can be adjusted by changing the frequency of the magnetizing field, or by changing the base of the magnetic circuit of the device. An Invention Electromagnetic Transducer for NDT containing a composite magnetic conductor of 3-10 U-shaped elements separated around the perimeter by non-magnetic gaps, excitation winding encompassing all U-shaped elements, and measuring windings placed on the rods of the Like elements, characterized by that, in order to increase the control accuracy, the magnetic core in its middle part is twisted by 180, and the measuring windings have an equal number of turns.