RU2308139C2 - Rotor for a magneto-electric machine, primarily for a synchronous generator with excitation by constant magnets - Google Patents

Abstract

FIELD: electric engineering, in particular, rotors of magneto-electric machines, primarily synchronous generators with excitation by constant magnets.

SUBSTANCE: the rotor for a magneto-electric machine contains circular clip of magnetic duct with stopping flange, which clip is rigidly coupled with supporting shaft. On internal side wall of the circular clip a circular magnetic insert is installed, formed by constant excitation magnets with magnetic poles alternating in circular direction. The internal side wall of circular clip of magnetic duct is made with a circular recess. The circular magnetic insert is made of a group of identical monolithic circular magnets with magnetic poles alternating in circular directions, which magnets are positioned in aforementioned circular recess on internal side wall of circular clip of magnetic duct and which are interconnected by their ends and a side wall of aforementioned circular recess. Magnetic poles of the same name, alternating in circular direction, in adjacent monolithic circular magnets, are positioned in congruent manner relatively to each other in same radial planes.

EFFECT: increased reliability in operation and expanded operation parameters due to increase of common magnetic flow during rotation and improved mass-dimensional characteristics.

3 cl, 2 dwg

Description

The invention relates to the field of electrical engineering, in particular to the rotors of magnetoelectric machines, mainly synchronous generators with excitation from permanent magnets, and can be used as part of various sources of electricity with magnetoelectric generators, for example, as part of a synchronous generator with excitation from permanent magnets in cars, boats , as well as in autonomous power plants as part of magnetoelectric machines (synchronous generators with excitation from permanent magnets c) to supply electricity to the various users (for illumination, various power driving action), as well as for various processes, e.g., for electric arc welding.

A rotor of a magnetoelectric machine, mainly a synchronous generator with excitation from permanent magnets, containing a magnetic core clip rigidly attached to the support shaft, on which permanent excitation magnets are mounted with alternating magnetic poles alternating in the circumferential direction (see, for example, RF patent No. 2178615, class. H02K, is known 1/27 according to the application No.2000120729 / 09 dated 02.08.2000).

A disadvantage of the known rotor of a magnetoelectric machine is the large metal consumption and significant dimensions due to the significant metal consumption and the dimensions of the massive cylindrical shape of the casing of the magnetic circuit, made of two separate, divided from each other in the axial direction of the same sections with separate permanent magnet magnets installed in them, magnetized in the radial direction turned in adjacent sections by their poles of the same name in a diametrically opposite direction occurrence and shifted in the circumferential direction in the adjacent sections with their poles 180 electrical degrees relative to each other. An additional disadvantage of the known rotor of a magnetoelectric machine should be attributed to the technological complexity due to the requirement to perform special radial grooves in the holder of the magnetic circuit to place individual magnets in them in order to reliably keep them in the holder from falling out during rotation with a high angular speed of the rotor of the magnetoelectric machine, as well as due to the presence of a special non-magnetic insert between sections of the cage of the magnetic circuit, separating the latter from one another in axial direction occurrence.

Also known is the rotor of a magnetoelectric machine, mainly a synchronous generator with excitation from permanent magnets, containing an annular ferrule of a magnetic core rigidly attached to the support shaft, on the inner side wall of which is mounted an annular magnetic insert formed by permanent excitation magnets with alternating magnetic poles alternating in the circumferential direction (see, for example, RF patent No. 2141716, class Н02К 21/12 according to application No. 4831043/09 of 02.03.1988).

A disadvantage of the known rotor of a magnetoelectric machine is its low reliability due to the technological complexity of the design of a composite annular liner with individual permanent magnets having a radially variable width and separated from each other by magnetic conductive sections, as well as due to the low reliability of fixing individual permanent magnets to the inner side wall ring rotor ring (use of diamagnetic plastic forming the ring ring of the rotor weight ring spacers and retaining rings, perceiving radially directed and very significant centrifugal forces during rotation of the ring magnetic liner with individual permanent magnets). An additional disadvantage of the known rotor of a magnetoelectric machine is the narrow operational parameters due to the small amount of magnetic flux generated by the rotation of the annular cage of the rotor magnetic circuit (due to the insignificant width of the annular magnetic liner formed of individual permanent magnets and the nonuniform magnetization of the poles of the permanent magnets).

The closest analogue (prototype) is the rotor of a magnetoelectric machine, mainly a synchronous generator with excitation from permanent magnets, containing a ring cage of a magnetic circuit with a stop flange rigidly attached to the support shaft, on the inner side wall of which are mounted permanent magnet magnets forming an annular magnetic insert with alternating in the circumferential direction of the magnetic poles (see, for example, RF patent No. 2069441, CL H2K 21/22 according to the application No. 4894702/07 from 01.06.1990). A disadvantage of the known rotor of a magnetoelectric machine is its low operational reliability due to the low reliability of fastening of individual permanent magnets forming an annular magnetic liner to each other to the inner side wall of the annular rotor cage (voltage distribution at the interface between the annular magnetic liner and the inner side wall of the annular cage of the magnetic circuit is extremely uneven, with jumps and sharp drops in the stress diagram). An additional disadvantage of the known rotor of a magnetoelectric machine is the narrow operational parameters due to both the small magnitude of the magnetic flux generated during rotation of the rotor (due to the use of a rather narrow annular magnetic liner, taking into account the nonuniform magnetization of the magnetic poles and the additional edge effect of attenuation of magnetic induction), and the technological complexity of implementation a considerable width of the annular magnetic liner formed by individual posts yannymi magnets (requiring the use of special, especially unique in its composition, systems for magnetizing multi-pole ring magnets). The small magnitude of the magnetic flux created by the annular magnetic circuit of the rotor leads, as a result, to the insignificant active power of a synchronous generator, which uses this rotor of a magnetoelectric machine.

The aim of the present invention is to increase the reliability in operation of the rotor of a magnetoelectric machine and the expansion of its operational parameters.

This goal is achieved by the fact that the rotor of a magnetoelectric machine, mainly a synchronous generator with excitation from permanent magnets, containing an annular ferrule of a magnetic circuit with a thrust flange rigidly attached to the support shaft, on the inner side wall of which is mounted an annular magnetic insert formed by permanent excitation magnets alternating in a circular direction by magnetic poles, in it the inner side wall of the annular holder of the magnetic circuit is made with an annular groove, and The indicated annular magnetic insert is made of a group of identical monolithic annular magnets with alternating magnetic poles located in the aforementioned annular groove on the inner side wall of the annular ferrule of the magnetic circuit and conjugated at their ends and with the side wall of the indicated annular groove, in the circumferential direction, the magnetic poles in adjacent monolithic ring magnets are located congruently to each other in the same radial planes. An additional difference of the proposed rotor of a magnetoelectric machine, mainly a synchronous generator with excitation from permanent magnets, is that each of the monolithic ring magnets is made in the form of a circular hollow cylinder of a magnetoanisotropic powder material. In addition, the mating sections of the monolithic ring magnets with each other and with the side wall of the said annular groove in the inner side wall of the annular holder of the magnetic circuit are provided with an adhesive filling them.

The invention is illustrated by drawings.

Figure 1 shows a General view of the proposed rotor of a magnetoelectric machine, mainly a synchronous generator with excitation from permanent magnets, in longitudinal section;

Figure 2 - section aa in figure 1.

The rotor of a magnetoelectric machine, mainly a synchronous generator with excitation from permanent magnets, contains (see FIGS. 1 and 2) an annular ferrule 2 with a thrust flange 3, rigidly fastened to the support shaft 1, with an annular magnetic insert formed on its inner side wall 4 permanent field magnets with alternating in the circumferential direction magnetic poles (SN). The inner side wall 4 of the annular holder 2 of the magnetic circuit is made with an annular groove "a", and the specified annular magnetic insert is made of a group of identical monolithic ring magnets 5 with alternating in the circumferential direction magnetic poles (SN) located in the said annular groove "a" on the inner the side wall 4 of the annular holder 2 and mating with each other at its ends “b” and with the side wall of the specified annular groove “a”. The same alternating in the circumferential direction of the magnetic poles (S-N) in adjacent monolithic ring magnets 5 are located congruent to each other in the same radial planes. Each of the monolithic ring magnets 5 is made in the form of a circular hollow cylinder of a powder magnetoanisotropic material. The pairing sections of the monolithic ring magnets 5 with each other and with the side wall of the aforementioned annular groove “a” in the inner side wall 4 of the annular holder 2 of the magnetic circuit are provided (in an embodiment) with adhesive filling them (not shown). To transmit torque, the annular ferrule 2 of the magnetic circuit is fastened to the support shaft 1 by keyed connection with the key 6, located in the corresponding groove made in the support shaft 1.

The rotor of a magnetoelectric machine, mainly a synchronous generator with excitation from permanent magnets, is assembled and operated as follows. Each of the monolithic ring magnets 5 of magneto-anisotropic powder material placed in the auxiliary technological ring (not shown in the drawing) and magnetized to the specified parameters (by the number of poles and the coercive force by the magnetization of the material of the monolithic ring magnet) together with the specified auxiliary technological ring in a special the inductor of the installation for magnetizing ring magnets (also not shown in the drawing) is pressed out after the end of the magnetization process of technological auxiliary ring and is pressed into an annular magnetic yoke 2 (in the annular groove "a" in the inner side wall 4 of annular yoke 2) corresponding to the stop. Next, the process is repeated, and the next monolithic ring magnet 5 magnetized from a magnetoanisotropic material magnetized in a special inductor of the installation for magnetization is extruded from the auxiliary technological ring and pressed into the annular ferrule 2 of the magnetic circuit (into the annular groove “a” in the inner side wall 4 of the annular ferrule 2) to stop in the previous monolithic ring magnet 5 (all the way to its end “b”), after which the process is repeated again until 2 m is formed (or set) in the ring holder a chimney duct (in the annular groove “a” in the inner side wall 4) of a continuous annular magnetic insert (package) of monolithic ring magnets 5, in which the same alternating in the circumferential direction magnetic poles (SN) in adjacent monolithic ring magnets are located congruently to each other in the same radial planes. To increase the strength and reliability of mounting the monolithic ring magnets 5 in the annular groove "a" in the inner side wall 4 of the ring casing 2 (in the embodiment of the rotor of the magnetoelectric machine) the interface sections of the monolithic ring magnets 5 with each other and with the side wall of the aforementioned annular groove "a" in the inner side wall 4 of the annular ferrule of the magnetic circuit are provided with an adhesive composition filling them (for which purpose, before inserting monolithic ring magnets 5 into the annular ferrule 2 of the magnetic circuit, these monol tnye annular magnets 5 and the annular groove side wall "a" in the side wall 4 of annular yoke lubricate respective adhesive composition (not shown).

The implementation of the annular magnetic liner from the group of identical monolithic ring magnets 5 with alternating in the circumferential direction of the magnetic poles located in the aforementioned annular groove "a", made in the inner side wall 4 of the annular holder 2 of the magnetic circuit, increases the reliability of operation of the rotor of the magnetoelectric machine, since monolithic ring magnets 5 have a very large margin of mechanical strength (significant centrifugal forces acting on the composite ring a magnetic insert with permanent magnets and tending to deform or tear it, do not cause such stresses in it that would exceed its tensile strength), but in the stress distribution itself on the interface between the monolithic ring magnets 5 and the side wall of the annular groove “a” in the inner side the wall 4 of the annular ferrule 2 of the magnetic circuit does not have any jumps and sudden drops (in the voltage diagram). An additional advantage of the proposed rotor of a magnetoelectric machine is the expansion of its operational parameters, due to the fact that a very significant annular magnetic liner is made (drawn) from a group of relatively narrow identical monolithic annular magnets 5, which allows a wide variation of the total magnetic flux (depending on the required active power of the magnetoelectric machine, mainly a synchronous generator, which includes the proposed rotor), to improve and expand the homogeneity region of the generated magnetic field and increase its intensity, and also allows, as a result, to directly increase the electric active power of the magnetoelectric generator with improved mass and size characteristics of both the rotor and the generator, and further reduces the manufacturing operating costs of the proposed rotor of a magnetoelectric machine due to the use of 5 conventional inductors for magnetizing monolithic ring magnets in magnetization installations that do not have specially agreed upon unique parameters (for example, by the magnitude of the required pulse current, providing the necessary magnitude of the magnetic field in the inductor of the magnetization system, by the heat transfer parameters of a special cooling system for current leads and discharge circuits, necessary to remove very significant heat fluxes arising in current leads and discharge circuits during magnetization).

Claims (3)

1. The rotor of a magnetoelectric machine, mainly a synchronous generator with excitation from permanent magnets, comprising a ring cage of a magnetic circuit with a stop flange rigidly fastened to the support shaft, on the inner side wall of which is mounted an annular magnetic insert formed by permanent excitation magnets with alternating magnetic poles alternating in the circumferential direction, characterized in that the inner side wall of the annular holder of the magnetic core is made with an annular groove, and the specified annular m the magnet insert is made of a group of identical monolithic ring magnets with magnetic poles alternating in the circumferential direction, placed in the said annular groove on the inner side wall of the annular holder of the magnet pipe and mated with each other at their ends and with the side wall of the indicated annular groove, In the circumferential direction, the magnetic poles in adjacent monolithic ring magnets are located congruently to each other in the same radial planes. 2. The rotor of a magnetoelectric machine, mainly a synchronous generator with excitation from permanent magnets according to claim 1, characterized in that each of the monolithic ring magnets is made in the form of a circular hollow cylinder of a magneto-anisotropic powder material. 3. The rotor of a magnetoelectric machine, mainly a synchronous generator with excitation from permanent magnets according to claim 1, characterized in that the mating sections of the monolithic ring magnets with each other and with the side wall of said annular groove in the inner side wall of the annular holder of the magnetic circuit are provided with an adhesive filling them.

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