SU1095118A1 - Permeameter - Google Patents

Abstract

A PERMEMETER containing a primary winding consisting of two halves placed on a toroidal core of ferromagnetic material, a secondary winding in the form of a closed coaxial cylinder with external and internal electrodes coaxially with which a toroidal core is placed, and a rotary table mounted on the internal electrode with a possibility movement, characterized in that, in order to increase the sensitivity, the specimen retainer, taper spring and spring stop, the specimen retainer are inserted into it flap in the form of a U-shaped plate articulated with a conical sleeve by means of a cylindrical spring, the turntable is made in the form of a disk with four teeth on its side face on mutually perpendicular diameters, the spring stopper is fixed on the outer electrode of the coaxial cylinder, and its rod is wives with a side face of the turntable articulated with the inner electrode through a conical spring located coaxially with the inner electrode, while the U-shaped plate is placed with the possibility of reciprocating movement along a ceiling elements (L internal electrode, the axis of symmetry of which coincides with the axes of symmetry of the U-shaped plate, the coil spring and the conical sleeve and the cross-sectional area of the core is determined by the following expression: 5 5DiKs | where ot / is the angular coordinate of the section; So K is the proportionality coefficient; SQ - the initial cross-sectional area of the core at (/ 0. СХ)

Description

The invention relates to electrical measuring equipment and is intended to measure the magnetic characteristics of high-frequency ferromagnets in the form of a torus (or ring), in particular, when studying the circular asymmetry (non-identity) of their properties, which is an important quality indicator. A permeameter is known that contains a primary winding placed on a toroidal core, installed coaxially inside a coaxial cylinder with a short circuit, while the coaxial cylinder is made in the form of four single-quadrant identical elements placed parallel to one another and symmetrically relative to the axis of the cylinder and isolated from each other by additionally inserted elements. shaped gaskets of dielectric material, and the short splitter is designed as a single-quadrant disk actor, which can be rotated motion relative to the axis of the cylinder Cl1. The disadvantages of the known permeamer are the sensitivity sensitivity of measurements due to the low transformation ratio, and the measurement accuracy due to the instability of transient resistances at the places of the discrete moving contact of the short circuit with the one-quadrant elements of the coaxial cylinder. The closest to the invention of the technical essence is a permere containing a primary winding consisting of two halves placed on toroidal cores of ferromagnetic material and a secondary winding in the form of a closed coaxial cylinder made of two coaxial half-cylinders with external and internal electrodes this half of the primary winding is located coaxially with the internal electrode of the corresponding coaxial half-cylinder, in addition, a counting unit, a rod, a rotary a table made in the form of a disk with a cylindrical hub and a spiral groove on its inner surface and fixed on the internal electrodes of coaxial half-cylinders with the possibility of rotational motion, is attached to one end of the rod happy, and a finger jointed with the spiral groove of the cylindrical hub and located in the longitudinal slot, performed in the lateral surface of the internal electrodes, and at the other end of the rod is placed the pointer of the reading unit, the scale of which is fixed on the top coaxially The semicylinder is m, while a through channel is made in the inner electrodes of the coaxial cylinders in which the rod 2 1 is placed. The disadvantages of this permeameter are small measurement sensitivity due to the fact that the appearance of the measured magnetic characteristics is integral for the entire ferromagnet sample, and the measurement accuracy is low due to the practical non-identity of the electromagnetic systems of the halves of the primary winding, which does not provide full compensation for their action when they are turned on again. The purpose of the invention is the behavior of sensitivity. This goal is achieved by the fact that in the permeameter containing the primary winding consisting of two halves placed on a toroidal core made of ferromagnetic material, the secondary winding is in the form of a closed coaxial cylinder with outer and inner electrodes coaxially with which the toroidal core is placed, and a rotary table, mounted on the inner electrode with the possibility of rotational movement; a sample fixator, a conical spring and a spring stopper are inserted; the sample fixture is made in the form of an U-shaped plate articulated with a conical sleeve by means of a cylindrical spring, the rotary table is made in the form of a disk with four teeth on its lateral face on mutually perpendicular diameters, the spring stopper is fixed on the outer electrode of the coaxial cylinder, and its stem is conjugated with the lateral edge of the rotary table, articulated with internal electrode through a conical spring located coaxially with the internal electrode, while the U-shaped plate is placed with the possibility of reciprocating movement along the internal Electrode, the axis of symmetry of which coincides with the axis of symmetry P-ob31 of a different plate, cylindrical spring and conical sleeve, and the cross-sectional area of the core is determined by the following expression; (1-ko;), where o (. Is the angular coordinate of the section; K is the coefficient of proportionality; 5p is the initial cross-sectional area of the core at ot 0. Figure 1 shows a principal view of the permeameter design, longitudinal axial section; fig. Fig. 2, section A-A in Fig. 1, and Fig. 3 and 4 are projections of the core of the primary winding. The permeameter contains a primary winding 1 made of two identical halves 2 and 3 and placed on a toroidal core 4 of a ferromagnetic material, the secondary winding in the form of a closed coaxial cylinder with an outer 5 and in 6 internal electrodes, as well as with their crinkle 7, rotary table 8 for a test sample of a toroidal ferromagnet mounted on a fixed sleeve 10 on the inner electrode 6 with the possibility of rotational motion. The primary core 4 of the coil is positioned coaxially inside the coaxial cylinder and made direct toroid with a linearly circular circular cross-sectional area. The turntable 8 is made in the form of a disk with teeth on the side face, located one relative to the other with a discrete angle In 90 steps, it is articulated with the internal electro-6 through the (spiral) conical spring 11 and has the ability to discretely fix the position of the rotational movement with the help of a spring stopper 12, which is fixed to the outer electrode 5 of the coaxial cylinder and includes the rod 13, mated with the side face of the rotary table 8, and spring 14. The rotary table 8 is provided with a clamp of the test sample 9 in the form of a U-shaped plate 15 with a cylindrical spring 16 with a (centering) conic sleeve 17, while the plate 15 is placed coaxially and movably and the internal electrode 6..Krome the surface section 8 is formed shero184 Howat. The ends of the U-shaped plate 15 have flanges, articulated with corresponding grooves in diametrically protruding racks of the turntable 8. To eliminate disturbances in the quasi-stationarity of the magnetic field inside the permeameter, its elements — table 8, sleeve-bushing 9, spring 11, rod 13, the plate 15, the spring 16, the sleeve 17 is made of a dielectric material, for example of fluoroplastic. The halves 2 and 3 of the primary winding 1 can be electrically connected both according to and oppositely and are connected to the input of a measuring device, for example a serial Q-meter. The operation of the permeameter is as follows. It is based on the principle of high-frequency transformation of the impedance of the test sample 9 of a ferromagnet, measured with a cumeter. Before starting the measurements, the test sample 9 of a ferromagnet is placed coaxially on the turntable 8 and fixed on it by means of a P-shaped plate 15, which presses the sample through the spring 16 and the sleeve 17 to the surface of the turntable. After that, a forced angular rotation (direction indicated by the arrow in Fig. 2) of the turntable 8 with the sample 9 by 360 ° relative to the initial position, i.e. winding the spring 11 with the potential energy communicated to it, fixed by the stopper 12 by engaging its rod 13 with a corresponding tooth on the lateral face of the rotary table disk 8. Then, the screw 7 is set in place and pressed against the electrodes 5 and 6, for example, by means of a cam shutter shown). At the same time, in order to maintain the stability of the transitional contact resistance between the mechanically articulated elements of half 2 and 3; the primary windings 1 are pre-commutated, which, due to the mutual compensation of the components of the primary magnetic field inside them, imitate the mode of indifference relative to whether the test sample 9 is there or not. The magnitude of the transient resistance, for example, by changing the force of the mechanical joint, is reduced to a certain minimum level for a given permeameter design, controlled at the direction of the gauge. The magnetic characteristics of the test specimen 9 are measured using a cumeter with a consistent commutation of halves 2 and 3 of the primary winding 1, and the established angular position of the sample is taken as the initial. To measure the magnetic characteristics of the sample at its other angular positions in the permeameter, in particular when the angle is 90, 180 and 270, the rod 13 of the stopper 12 is briefly shifted progressively and transferred into engagement successively and alternately with the corresponding teeth on the side face of the disk of the turntable 8, which is This is automatically rotated by the unwinding of the spring 11. Thus, this permeameter of the actuator makes the sensitivity of measurements of the magnetic characteristics of high-frequency toroidal ferromagnets in the study of circular asymmetry of their properties. This is achieved by creating a circular asymmetry of the primary magnetic field inside the permeameter by making the primary winding core in the form of a straight toroid with a linearly circular varying cross-sectional area (radial), as a coaxial magnetic field is formed by the electromagnetic primary winding system when the secondary winding is installed. configuration, the intensity of which in the transverse circular direction is proportional to the areas of the corresponding sections of the core ne between primary winding defining a volume of the ferromagnetic material within the individual circular sections it turns, as well as their electromagnetic action. The permeameter implements the principle of induction of a primary magnetic field with linearly varying circular inhomogeneity, which makes it possible to reveal the smallest circular asymmetry of the properties of a toroidal sample of a ferromagnet rotated in this field with a discrete angular pole 90 in the transverse direction, since the degree of transformation of the device on it individual single-sector plots are multiples of the determination of the magnetic permeability of the test specimen in these areas, depending on its studied properties, and the magnitudes of the stresses gnitnogo floor in these areas.

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Claims (1)

PERMEAMETER containing a primary winding consisting of two halves placed on a toroidal core made of ferromagnetic material, a secondary winding in the form of a closed coaxial cylinder with outer and inner electrodes coaxial with which the toroidal core is placed, and a rotary table mounted on the inner electrode with the possibility of rotational movement characterized in that, in order to increase sensitivity, a specimen retainer, a conical spring and a spring stopper are inserted into it, the specimen retainer is made in de U-shaped plate articulated with a conical sleeve by means of a cylindrical spring, the rotary table is made in the form of a disk with four teeth on its lateral face on mutually perpendicular diameters, the spring stopper is mounted on the outer electrode of the coaxial cylinder, and its rod is mated to the side face of the rotary section, articulated with the internal electrode through a conical spring disposed coaxially with the internal electrode, wherein the U-shape _{of the} plate is arranged to WHO-9-translational VRÁTNA Navigating Nia along the inner electrode, the axis of symmetry of which coincides with the axes of symmetry of the U-shaped plate, the coil spring and the conical sleeve and the cross-sectional area of the core is determined by the following expression: 5 = 5 ₀ (1 + KcL), where ck is the angular coordinate of the section; K is the coefficient of proportionality; S _o ~ the initial cross-sectional area of the core.! at oL = 0.