RU2521048C1 - Magnetoelectric generator - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: in suggested magnetoelectric generator containing stator with toroidal magnetic circuit with radial teeth grouped in groups of three teeth with stator winding mounted on them and the disc rotor mounted on the shaft with permanent magnets having axially oriented magnetisation and alternating polarity, according to the invention group of the rotor permanent magnets corresponds to each group of teeth with stator windings, at that the distance lm between the outermost edges of the magnets in each group in an arc concentrical in regard to the rotor axis and passing in the middle of magnets corresponds to the distance lo in the same arc between the extreme points of the stator windings in each group.

EFFECT: almost complete elimination of rotor sticking effect for electromagnetic generator with simultaneous increase in its efficiency factor.

8 dwg

Description

The invention relates to the field of electrical engineering, namely to low-speed electric generators, and can be used, in particular, in wind energy installations.

A magnetoelectric generator is known, the rotor of which is equipped with permanent magnets, and the stator contains two parallel plates, between which there are ring windings made in the form of isosceles trapezoid, the sides of which are located radially relative to the axis of rotation of the rotor, and the sections of the ring windings in the trapezoid bases are curved in an arc, the rotor is made of two parallel disks fixed to the shaft, on each of which, on the surfaces facing each other, annular rows of constant ma magnets, the polarity of the permanent magnets in each row alternates, while the poles of the permanent magnets of one row are facing the opposite poles of the permanent magnets of the other row, the ring windings are inserted into each other with the formation of modules, while the distance l between the sections of the ring windings in the trapezoid bases exceeds the width b ring-shaped series of permanent magnets, characterized in that between the annular windings there is an additional flat annular winding in the form of an isosceles trapezoid, the sides of the cat They are located in the same plane between the sides of the other ring windings, RU115978U1.

The disadvantage of this technical solution is the large gap between the rows of permanent magnets, which leads to a decrease in the magnetic field strength in this gap and, accordingly, the generator power.

Known magnetoelectric generator, comprising a stator with a toroidal magnetic circuit with radially spaced teeth on which the stator windings are located, and a disk rotor mounted on the shaft with permanent magnets with axial magnetization and alternating polarity; each tooth corresponds to a magnet equal in area to it, http://imlab.narod.ru/Energy/Gen_l 96 / Gen_l 96.htm, 6 pp., Fig. 2.1 and 5.1 (a copy of the link is attached).

If the permanent magnets coincide with the teeth of the stator magnetic circuit (Fig. 5.1) due to the attractive forces, a large moment of resistance to rotation of the rotor with the shaft (“sticking” of the rotor) occurs, to overcome which it is necessary to significantly increase the starting moment on the generator shaft.

With an increase or decrease in the number of windings per unit compared to the number of magnets, the effect of “sticking” of the rotor is somewhat smoothed, however, the generator’s efficiency (efficiency) is significantly reduced.

All these disadvantages are also peculiar to the magnetoelectric generator according to RU2337458C1, which includes a stator with a toroidal magnetic circuit with radially spaced teeth. The number of coils and, accordingly, teeth, b = 2, 3, 4, 5 ... a positive integer. In the specific example of figure 1, 2 in each group contains three teeth. The rotor contains 16 permanent magnets, and the stator magnetic circuit contains 18 teeth with windings. Since the number of magnets and teeth varies, the effect of “sticking” of the rotor is somewhat smoothed out, however, the efficiency of the electric machine is significantly reduced.

The device RU2337458C1 adopted as a prototype of the present invention.

The objective of the present invention is to almost completely eliminate the effect of "sticking" of the rotor and increase efficiency.

According to the invention, in a magnetoelectric generator comprising a stator with a toroidal magnetic circuit with radially spaced teeth, grouped by three teeth in each group, on which the stator windings are located, and a disk rotor mounted on the shaft with permanent magnets with axial magnetization and alternating polarity, each group of teeth with the stator windings corresponds to a group consisting of two permanent rotor magnets, while the distance l _m between the extreme edges of the magnets of each group in an arc, concentric relative to the axis of the rotor and passing in the middle of the magnets, corresponds to the distance l _o along the same arc between the extreme points of the stator windings in each group.

The applicant has not identified any technical solutions identical to the claimed one, which allows us to conclude that the invention meets the condition of patentability “Novelty”.

Permanent rotor magnets are coupled to each other without gaps between them and practically form a closed ring contour. Therefore, the surface of one or two magnets is always opposite the entire surface of any tooth. The situation is excluded when the gap between the magnets is opposite the tooth surface, as is the case in the prototype device. Thus, “sticking” of the rotor is almost completely eliminated. The extremely insignificant forces of resistance to rotor rotation due to hysteresis during magnetization reversal of the teeth of the stator magnetic circuit can be neglected.

Since all magnets simultaneously and constantly interact with the teeth and, accordingly, with the stator windings, the generator efficiency increases. Thus, a technical result is achieved, consisting in the practical exclusion of the forces of resistance to rotation of the generator shaft due to the effect of “sticking” of the rotor, as well as in increasing efficiency.

The applicant has not identified sources of information that would contain information about the influence of the distinguishing features of the invention on the achieved technical result. These circumstances allow us to conclude that the claimed technical solution meets the condition of patentability "Inventive step".

The invention is illustrated by drawings, which depict:

figure 1 is a front view with a partial pullout;

figure 2 is a section aa in figure 1;

figure 3 - section bb in figure 1;

figure 4 is a section CC in figure 1;

figure 5 is a group of teeth of a toroidal magnetic circuit and stator with windings and permanent magnets located above them;

Fig.6 is a section D-D in Fig.5;

Fig.7 is a group of teeth of a toroidal magnetic circuit of the stator with windings in a perspective view;

on Fig - magnetoelectric generator assembly in a perspective view with a partial tear.

The magnetoelectric generator includes a stator with a toroidal magnetic circuit 1 with radially spaced teeth 2, grouped by three teeth in each group. The number of teeth in the group determines the phase of the generator, that is, with three teeth in the group, the generator is three-phase. On the teeth 2 placed windings 3 of the stator. The generator also includes a disk rotor 5 mounted on the shaft 4 with permanent magnets 6 with axial magnetization and alternating polarity. Each group of teeth 2 corresponds to a group of two permanent magnets 6 of the rotor. The distance l _m between the extreme edges of the magnets of each group along the arc concentric with the rotor axis and passing through the middle of the magnets corresponds to the distance l _about along the same arc between the extreme points of the stator windings in each group (Figs. 5, 6).

The magnetoelectric generator comprises a housing 7 with a cover 8. The magnetoelectric generator operates as follows. When the rotor 5 rotates with the shaft 4, the magnetic field lines of the permanent magnets 6 induce an alternating magnetic field in the teeth 2 of the stator magnetic circuit 1, which causes the appearance of an EMF in the stator windings 3. Since there are no gaps between the permanent magnets, the surface of each tooth 2 always faces the surface of one or two permanent magnets. This eliminates the "sticking" of the rotor, all magnets always and fully induce EMF in the stator windings, which provides increased efficiency in comparison with the prototype. The phase shift of the EMF in the windings on adjacent teeth of each group (Figs. 5, 6, 7) is 120 °, which ensures the generation of a three-phase electric current.

A prototype device has been manufactured and tested. The magnetoelectric generator can also operate in electric motor mode.

Claims (1)

A magnetoelectric generator comprising a stator with a toroidal magnetic circuit with radially spaced teeth, grouped by three teeth in each group, on which the stator windings are located, and a disk rotor mounted on the shaft with permanent magnets with axial magnetization and alternating polarity, characterized in that each group of teeth with the windings of the stator corresponds to a group consisting of two permanent magnets of the rotor, the distance l _m between the outermost edges of each group of magnets in an arc concentric relative to the rotor axis and passing through the middle magnets corresponds to the distance l _o on the same arc between the outermost points of the stator windings in each group.

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