DD222745A1 - PERMANENT MAGNETIC ROLLER FOR ELECTRICAL MACHINES - Google Patents

Abstract

The invention relates to permanent magnet excited Laeufer for electrical machines with lying in radially extending sections of the Laeufergrundkoerpers plate-shaped, magnetized in the direction of their shortest edge permanent magnet for flux concentration. The aim of the invention is to provide a permanent magnet excited Laeufer with the sufficiently large air gap induction can be achieved, although it consists of a coherent Laeufergrundkoerper with magnetic shunts and cheap ferrite permanent magnet. The magnetic shunts are suppressed by auxiliary magnets which cause saturation in the scattering arms between the poles of the continuous rotor base body, so that no portion of the magnetic flux obtained by flux concentration is dissipated. Fig. 1

Description

-3- 261 518

embodiment

The invention will be explained in more detail with reference to the following embodiments.

In the drawing show:

Fig. 1: the cross section of a permanent magnet excited rotor according to the invention with auxiliary magnets with tangential

Magnetization direction Rg.2: the cross section of a permanent magnet excited rotor according to the invention with auxiliary magnets with radial magnetization direction

In both figures 1 is the rotor base body, 2 are the plate-shaped permanent magnets, 3 are the auxiliary magnets, 4 is the shaft. In the arrangements shown in Fig. 1, the auxiliary magnets 3 are tangentially magnetized and have the same magnetization direction as the plate-shaped permanent magnet 2. The auxiliary magnets 3 are arranged in the upper half of Fig. 1 only on one side of the plate-shaped permanent magnet 2. Shown is the case in which touch plate-shaped permanent and auxiliary magnets. However, they can also be arranged at a small distance from each other as shown in the lower half of Fig. 1 for an arrangement in which the auxiliary magnets 3 are located on both sides of the plate-shaped permanent magnet. In this case, one of the mutually arranged auxiliary magnets 3 can touch a plate-shaped permanent magnet 2 (not shown in the drawing). The shaft 4 is not magnetic or magnetic in this embodiment and coated with a non-magnetic sleeve, not shown.

In Figure 2, the auxiliary magnets 3 are radially magnetized on the shaft 4 side facing the plate-shaped permanent magnet 2 and arranged between two plate-shaped permanent magnet. The shaft 4 may in this case be made of magnetic material.

Claims (1)

-2- 261 518 4 Invention claim: Permanent magnet excited rotor for electric machines with lying in radially extending sections of the rotor base plate-shaped, magnetized in the direction of their shortest edges permanent magnet, characterized in that in the radial direction one or both sides, immediately adjacent to the plate-shaped permanent magnet (2), in contact with these or in Distance from these stationary auxiliary magnets (3) higher remanence induction and coercive field strength are arranged with tangential or radial magnetization direction. For this 1 page drawings \ - - Field of application of the invention The invention relates to permanent magnet excited rotor for electric machines with lying in radially extending sections of the rotor base plate-shaped, magnetized in the direction of its shortest edge permanent magnet. - . _____ Characteristic of the known technical solutions Permanent magnet excited electrical machines are built especially as small machines according to the synchronous machine principle. If one uses in the rotor ferrite permanent magnets, without special measures to enhance the magnetic flux, only small air gap inductions occur, which lead to low volume utilization. To increase the air gap induction, the known method of flow concentration is used. Arrangements of this kind are z. As described in DE-GM 1848663 and DE-OS 1763876. The rotor consists of individual, magnetically isolated, wedge-shaped Flußleitstücken and plate-shaped, inexpensive ferrite permanent magnet, which are magnetized in the direction of their shortest edge. The permanent magnets are arranged between the wedge-shaped Flußleitstücken. Disadvantage of these arrangements is that the runner must be composed of individual parts. This results in additional expenses for alignment and fixation of the items, mechanical reworking and balancing of the runner. In addition, in the arrangement according to DE-GM 1848663 low manufacturing tolerances must be met. .. · · · · · · · · · · * .- - * ... * ... - · · .-:; '. .-'''''........ For this reason, it is more advantageous to use sliders whose passive magnetic circuit part (the rotor main body) does not consist of individual parts but is designed to be continuous, so that the permanent magnets need only be inserted into the cutouts provided for this purpose Ensuring the desired mechanical strength of the rotor is achieved at the expense of the magnetic shunts that occur, and all such arrangements share the disadvantage that these shunts short-circuit a not inconsiderable proportion of the permanent magnet flux. Because of mechanical reasons, these magnetic shunts can not be made arbitrarily thin, would be sufficient to achieve Luftspaltindukti high-remanent and highly coercive, expensive permanent magnet materials are necessary. Target animal invention The aim of the invention is to provide a permanent magnet excited rotor with which a sufficiently large air gap induction can be achieved, although it consists of a zuammenhänggenden rotor base with magnetic shunts and cheap ferrite permanent magnets to the flux concentration. , Explanation of the essence of the invention The object of the invention is to provide> a magnet arrangement, with which it is possible to achieve magnetic saturation in the technologically induced stray currents between the poles in a continuous rotor base body, so that the magnetic shunts are suppressed and no share of the first obtained by flux concentration magnetic flux must be derived , This object is achieved by appropriate arrangement of auxiliary magnets having high remanence induction and coercive field strength. The auxiliary magnets with tangential or radial magnetization direction are in the radial direction. This object is achieved by a corresponding arrangement of auxiliary magnets which have high remanence induction and coercive field strength. The auxiliary magnets with tangential or radial magnetization direction are arranged in the radial direction on one or both sides, directly next to the inexpensive, plate-shaped permanent magnets. The auxiliary magnets can touch the plate-shaped permanent magnets or are located at a small distance from them. The auxiliary magnets serve to saturate the scattering amounts between the poles and are accordingly designed and dimensioned. As a result, only a small amount of the expensive high-remanent and high-coercive permanent magnet material is used, which, however, makes it possible to create a rotor with a mechanically stable and more advantageous from the manufacturing technology ago, coherent rotor base body while using inexpensive permanent magnets for flux concentration. ·. ,.