SU696370A1 - Modulation-type once-through eddy-current transducer - Google Patents

Description

(54) MODULATING PASSAGING DIGITAL CURRENT CONVERTER

The invention relates to means of controlling the quality of materials and products by physical methods. It can be used for the inspection of electrically conductive products, for example, with cylindrical cavities (pipes, etc.). A transient eddy current transducer is known, which contains cup-shaped stationary ferrite magnetic cores, in which a rotating part of the magnetic core is located with a stimulating and measuring coils 1 located on it. The known transducer, reliably detecting the defective zones, does not allow measuring their length, since it performs a discrete scanning of the defect only at those points where the screw scanning path crosses the defective zone. When measuring the extent of the defective area, the scanning trajectories must pass through both ends of the defective area. This cannot be achieved with a helical scanning trajectory and an arbitrary defect length. In addition, the placement of the excitation and measuring coils on the rotating part of the magnetic core in the known transducer implies the use of movable (for example, transformer) current collectors, which are sources of interference and complicate the design . Also known is a modulation eddy-current transducer, comprising two coaxial transient windings and a cylindrical module coaxially mounted with them rotatably around a common axis; or 2. However, the reliability of control of this converter is insufficient, especially of microlocal defects, since the module is made of non-conducting material transparent to external electromagnetic interference. This converter is the closest to the proposed technical essence. The aim of the invention is to increase the reliability of the control of microlocal defects. For this purpose / the converter is equipped with wedge-shaped elements from magnetodielectric, from which the modulator is made, in the latter

there are longitudinal slits, and in them there are wedge-shaped elements with non-magnetic gap between them, the mazrnitnaya permeability of the modulator and wedge-shaped magnetodielectric different.

Fig; 1 shows the transducer of the overall figure 2 - section aa flg

The converter contains a microelectric motor 1, on the shaft 2 of which the movable part is rigidly fitted, consisting of a non-ferromagnetic conductive washer 3 and a cylindrical modulator rigidly connected with it, composed of two cylinders 4 and 5, between which a non-ferromagnetic washer 6 is mounted. In the modulator cylinder longitudinal slits are made; wedge-shaped elements 7-10 of them are installed from magnet-dielectric; There is a magnetic gap between the wedge-shaped elements.

It is recommended to perform the modulator and the wedge-shaped, known elements of magnetodielectrics with different magnetic permeability.

The resolution of the converter is increased with the magnetic permeability of the elements greater than the magnetic permeability of the modulator.

Non-magnetic gaps between the wedge elements are formed by i through dielectric inserts 11 and 12 and are directed at an angle to the axis of the cylinders 4 and 5.,

Subsidiary part of the converter consists of a hollow GZ axis, on which frames 14 and 15 of magnet-dielectric with coaxial transverse windings 16 and 17 are located, having conclusions 18.

The axis 13 is rigidly fixed in the sleeve 19, used as an emphasis during operation of the converter.

The converter works as follows

The transducer is inserted into the controlled cavity up to the stop 19,

The micro electric motor 1 and the electronic signal balance indicator (not shown) of the windings 16 and 17, which include them through terminals 18, are turned on. At the same time, the windings 16 and 17 are excited by an alternating current of the appropriate frequency. The sounding magnetic fields of the converter interacting with controlled object in the zone of non-magnetic gaps, scan the object cavity, as the micro-electric motor rotates a cylindrical modulator relative to the fixed part of the converter.

In this way, the entire surface of the cylindrical cavity of the product is continuously monitored.

Claims (2)

Claims of invention D. A modulation eddy current transducer containing two coaxial transient windings and a cylindrical modulator mounted coaxially with them rotatably around a common axis, characterized in that, in order to increase the reliability of control of microlocal defects, it is equipped with wedge-shaped elements made of a magnetodielectric, which the modulator is made of, in the latter there are longitudinal slits, and in them the wedge-shaped elements Fe are nonmagnetic with a gap between them. 2. The converter according to claim 1, such that the magnetic susceptibility of the modulator and the wedge-shaped magnetodielectrics is different. Sources of information taken into account in the examination 1. USSR Author's Certificate No. 555331, cl., G 01 N 27/86, 1976. 2. USSR author's certificate number 565248, cl. G 01 N 27/86, 1974 (prototype). 1 (rig 2