SU551553A1 - Eddy-current method for measuring object parameters - Google Patents

Description

(54) TOKYVIQUE METHOD OF MEASUREMENT OF OBJECT PARAMETERS

and measurement accuracy. In addition, when shielding a transmitter with a differential measuring winding, the screen effect strongly affects the output signal level on the measuring winding, for example, when the initial zero setting, the output signal after shielding, as well as in the process of changing the screen characteristics under the influence of interfering factors, differs significantly from zero, which leads to a decrease in the modulation depth and to a decrease in the sensitivity and stability of the converter. Thus, the known method of measuring a shielded eddy-current converter has low sensitivity, especially when exposed to interfering factors, for example, under conditions of significant temperature effects. The aim of the invention is to increase the sensitivity. This is achieved by the fact that the EMF induced by the generator coils in the converter screen is balanced, after which the converter and the object are displaced, while balancing is performed by changing the magnitude of the oppositely directed currents (ampere-turns) in the sections of the generator coil .. Or the balancing is performed by geometrically shifting the generator coils parallel to the plane of their end face. In addition, the measuring coils are moved relative to the generator until the set signal level is established. FIG. Figure 1 shows an example of a shielded eddy current transducer implementing this method; in fig. Figure 2 shows a transducer with EMF induced in the screen by coil currents. The eddy current converter (see Fig. 1) contains a generator coil 1 having at least two sections, a measuring coil 2 (of any kind and switching on) and a metal screen 3, Currents i, and tji (see Fig. 2) passing through coils W. (and Wg sections of the generator coil, cause in the screen 3 the appearance of a secondary EMF 4 (shown in dotted lines). The value of this EMF 4 depends on the magnitude of the currents -1, on the size of the gap between each section and screen 3, on the number of coils W. and WpB sections of coil 1, etc. The counterbalancing of the oncoming EMF is achieved by the section generator the coil 1 is shifted relative to the screen 3 (for example, by changing the gaps), and

Claims (3)

also by changing the ampere turns in the windings W. For example, in a pair of sections, the currents 1 and -tpB of the contour of each section are directed in the opposite direction (clockwise in one section, and opposite in the other) and / or the generating coil 1 is moved in the plane of its end (not shown) to in this case, the eddy currents in the screen 3 become minimal and the influence of the screen 3 even when its electrophysical properties change becomes negligible, and the quality factor of the coil 1 is high and stable under the influence of the interfering factors caused by the change magnetic permeability, electrical conductivity and other parameters of the screen. Equilibration of the emf 4 induced in the screen can also be achieved by changing the magnitude of the currents -1 and-in (amperes -4,) in separate sections, the currents of which are directed oppositely. After balancing the electromotive forces induced in the screen 3, the measuring coils 2 are displaced relative to the generator fca 1 to set a given signal level, for example, zero. The control object can affect the converter symmetrically (changing the gap, electrical conductivity, thickness, temperature, and tl), then the signal of the generator of the generator coils changes, and the signal on the measuring coils does not change and will be equal to zero. If the control object acts on the transducer asymmetrically (measuring the heterogeneity of the electrophysical properties of the object, the presence of a defect in the control zone, changing the angle of inclination of the surface of the object, etc.), then the signal on both the generating coils and the measuring coils changes, but in the measuring coil The modulation depth can be ten times greater than the generator one. By moving the pre- & the developer and the object, they control the entire surface of the object. The proposed method makes it possible to reduce the influence of the screen, which makes it possible to reduce its diameter by a factor of 2-3, i.e. practically close the screen to the coil, and this means - allows you to increase the sensitivity, stability and accuracy of measurements when the small-sized pre-. the producer under the conditions of the most appropriate requirements of operation. Claim 1. A vortex method of measuring object parameters using a shielded current vortex converter containing a sectioned generator coil. powered by alternating current, and measuring coils, the signals of which judge the parameters of the object being monitored, are required to increase the sensitivity of the emf induced by the generator coils in the converter screen, balance, after which the converter and the object are mutually displaced. 2. A method according to claim 1, characterized in that the balancing is carried out by changing the magnitude of the oppositely directed currents (ampere-turns) in the sections of the generator coils. 3. The method of claim 1, wherein the equilibration is performed by geometrically shifting the generating coils parallel to the plane of their end face, and the measuring coils are displaced relative to the generating coils to establish a predetermined signal level. Sources of information taken into account in the examination: 1.Agaykin D.I., Kostina E.N. Kuznetsova N. N, Sensors of automatic control systems and. M., Mashgiz, 1959, p. 27. 2. Dorofeev A. L. Electroinductive flaw detection, M, Mashinostroenie, 1967, p. 29-34 (prototype). FIG. 2