SU1170516A1 - Device for pulsed magnetizing of disk ferrodielectric anisotropic magnets - Google Patents

Abstract

A DEVICE FOR PULSE MAGNETIZATION OF DISK FERRODIELECTRIC CARDS OF ANISOTROPIC MAGNETS, containing a multi-pole electromagnet, and it is equipped with an additional disk magnetic circuit, which forms a working gap with the main magnetic-magneto flux, and the surface of the main magnet The duct is smooth and convex in a cylindrical coordinate system, the axial axis of which is aligned with the axis of symmetry of the magnetic circuit, and its beginning lies in the immobility of the poles touching the magnetized magnet, described by the equation in – ° C – G1 GHP M I tftf sitiV 1 where Z is the axial coordinate, m ; radial coordinate, m; f P the number of pairs of poles of the core; h the thickness of the disk magnet, m; / - angular coordinate; About SP 0 - the coefficient of eddy currents. d

Description

I The invention relates to electrical engineering, in particular, to devices for pulsed magnetization of disk ferrodielectric anisotropic magnets of the rotors of end super-slow electric machines. The purpose of the invention is to increase the quality of magnetization by the higher spatial harmonics of the permanent magnet field. FIG. 1 shows a schematic of the design of the proposed device assembled with a magnetized magnet, a general view; in fig. 2 - diode magnetic circuit with poles and magnetics winding, top view; in fig. 3 - pole in axonometry, general view; in fig. 4 is a section A-A in FIG. 2 (cross section of the device on a single pole division (Fig. 2) coaxially cylindrical surface of radius p) and a graph of the distribution of the normal magnitude of the magnetizing field, where h is the thickness of the magnetized magnet f is the coordinate along the distributed section of pole division. The device contains a disk main magnetic core 1 (Figs. 1 and 2) with a magnetizing winding 2 placed in grooves 3 between the poles 4. The main magnetic core 1 is pressed tightly by the surface of the P poles 4 to the end surface of the magnetizable dispersed ferrodielectric anisotropic magnet 5 rigidly bonded with disk additional magnetic circuit 6 and axis 7, Gladkovishukla surface P in a cylindrical coordinate system, the axial axis of which is aligned with the axis of symmetry of the magnetic core, and its beginning lies in the plane the position of the poles with a magnetized magnet is described by the equation 2 "Г5Ь -bU where Z is the axial coordinate, m; f is the radial coordinate. P is the number of pole pairs; core; h is the thickness of the disk magnet; V is the angular coordinate; oi - eddy current coefficient 6 The coefficient oi is calculated by the formula. S 0 1 + yL where fj-ff- magnetic constant, is equal to AJf-IO H / m; cf is the frequency of the main harmonic of the current pulse in the magnetization winding, rad / s; B - the surface impedance of a magnet of a harsh material of the poles and the circuit. Ohm Axis 7 provides a coaxial arrangement of the magnetic circuit 1 and the system made of magnetized agnite 5, magnetic circuit 6 and axis 7, which are assembled, in private case, by the rotor of the end supersound electric motor. The mechanical onact of the smooth convex surface of the P poles 4 (Fig. 3) of the magnetic circuit 1 with the end surface of the magnetized magnet occurs along the radius of the sun line, which ensures that the normal magnitude of the magnetizing field along the pole division in the volume of the magnet is closest to sinusoidal (Fig. 4), Winding 2 in this embodiment of the device is made of single conductor, it is also possible that in order to reduce the surface effect in the winding, it can be en from individual insulated conductors. In any case, the winding 2 is made of counter-wave, i.e. consists of two star-shaped windings, the half-turns of which cover the poles from opposite sides, and the ends are connected in parallel to the source of pulsed current or EMF, so that when magnetized the adjacent poles have opposite polarity. The device works as follows. When a current pulse passes through the magnetizing winding in an anisotropic ferrodielectric magnet, due to the presence of a smooth-convex surface of the P poles 4 of the magnetic core 1, a magnetizing field is created with a close to sinusoidal one. the distribution of the normal component of the stress, since the magnetic permeability of the material of such magnets is close to unity (for example, barium ferrite, strontium, cobalt).

The absence of eddy currents in the volume of the magnetized magnet ensures its complete lagging by the pulsed field.

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Claims (1)

DEVICE FOR PULSE MAGNETIZATION OF DISK FERRODIELECTRIC ANISOTROPIC MAGNETS, containing a multi-pole electromagnet, · the magnetic circuit of which is made in the form of a disk with end grooves to accommodate the winding, characterized in that, in order to increase the harmonization quality and reduce the magnetization composition, the magnetization a cylindrical coordinate system, the axial axis of which is aligned with the axis of symmetry of the magnetic circuit, and its origin lies in the plane of contact the contact of the poles with a magnetizable magnet is described by the equation sin 7 where Z is the axial coordinate, m; p is the radial coordinate, m; P is the number of pole pairs of the core; h is the thickness of the disk magnet, m; H is the angular coordinate; - eddy current coefficient. Used U ".1170516 1