FR2625852A1 - Stator of rotating machine with inductive poles and method of obtaining it - Google Patents

Abstract

Stator of electric rotating machine with permanent-magnet inductive poles 1 arranged inside a yoke 4, each inductive pole 1 including a permanent magnet 2 made from a powder mixed with a binder or compacted, which magnet is arranged inside an envelope 3, characterised in that it is half-open and delimited by two coaxial sectors 3a, 3b connected together along a common radius 3c.

Description

 The present invention relates to a stator of an electric rotating machine with inductor poles with permanent magnet made from a powder mixed with a binder or compacted and which is arranged inside an envelope permeable to the magnetic field and individually surrounding the magnet.

 Generally in a stator with permanent magnets, the inductor poles are constituted by permanent magnets to which are possibly associated auxiliary pole pieces.

 The permanent magnets traditionally used, for example made of ferrite, are in the form of compact blocks and are generally fixed by gluing or stapling inside the cylinder head.

 Recently, new magnetic materials have appeared which make it possible to produce permanent magnets with higher power than ferrite magnets, for a much smaller volume. These are in particular powdered materials, which are mixed with a binder, and which are compacted or agglomerated to form magnets. Materials of this kind, such as neodymium-iron-boron alloy powder (ND-Fe-B) have already been tested, for producing inductor poles intended for a stator of an electric rotating machine, such as an electric motor.

 The production of such stators turns out to be interesting, but it encounters practical difficulties for the magnetization of the inductor in situ, given the strong coercive field of these magnets.

The present invention overcomes these by providing an inductive pole structure with permanent magnet allowing easy mechanization of the magnetization of the magnets and their assembly in the cylinder head of the engine.

 To this end, the subject of the invention is essentially a stator of an electric rotary machine with magnet inductor poles arranged inside a cylinder head, a magnet produced from a powder mixed with a binder or compacted, and which is disposed inside an envelope characterized in that the envelope is semi-open and is delimited by two coaxial sectors connected to each other along a common radius.

 Advantageously, the envelope is made of a soft magnetic material with high permeability.

the two sectors delimiting the envelope have different arcs
The external sector has a larger arc than the internal sector and is approximately c <= 360 "/ number of motor poles
Thanks to the above characteristic, the inductor poles thus formed are juxtaposed inside the cylinder head of the engine.

 The process for obtaining such a stator comprising the inductor poles in accordance with the invention is remarkable in particular that once the non-magnetized permanent magnets are fixed in their respective casing, the inductor poles thus formed are arranged, at least in pairs, on a variable diameter cylindrical core made of soft magnetic material with high permeability, according to two consecutive operating phases corresponding to two cylinders of different diameter from the cylindrical core, the first phase of which consists in placing and magnetizing the inductor poles on a cylinder of: : cylindrical core of diameter larger than the internal diameter of the stator then in the second phase to bring the inductor poles thus magnetized on a second cylinder of the cylindrical core of diameter approximately equal to the internal diameter of the stator, which inductor poles are then juxtaposed with the inside the cylinder head of said stator.

 The description which follows with reference to the appended drawings will make the invention better understood.

 - Figure 1 is a view of an inductor pole according to the invention.

 - Figure 2 is a sectional view of the stator showing.

the inductor poles according to the invention juxtaposed in the cylinder head of the engine.

 - Figure 3 is a view along section III - III of Figure 2.

 - Figures 4 to 7 schematically represent the process for obtaining the magnetization of the inductor poles and their positioning in the cylinder head of the engine.

 An electric rotary machine stator consists of inductor poles 1 with permanent magnets 2 arranged inside a cylinder head 4 of the engine. Each inductor pole 1 comprises a permanent magnet 2 produced from a powder mixed with a binder or compacted.

 the permanent magnets 2 thus obtained are arranged in accordance with the invention in semi-open envelopes 3.

 These envelopes 3 are formed by two coaxial sectors 3a, 3k, having different arcs and at a distance from each other approximately equal to the thickness of the magnet 2.

 The sector 3a is larger than the sector 3b and is approximately equal to an angle varying according to the number of inductive poles of the rotary machine, ie <360 "/ number of poles.

 The width of the spacer 3d which connects the two sectors 3a, 3b according to a common radial radius 3c is advantageously determined according to the position of said radius 3c relative to the axis of the magnet 2 on the side where the armature reaction creates a field with the same meaning as the inducing field.

The free end of the sectors 3a, 3b allows the insertion of the magnet 2 in said envelope 3 (figure)
The inductor poles 1 thus formed are arranged, at least in pairs, on a cylindrical core 5 of variable diameter made of soft magnetic material with high permeability, so that its diameter varies from largest to smallest according to two consecutive operating phases (Figures 4 to 7).

 The first operating phase consists in placing the inductor poles 1 on a cylinder 5a of the cylindrical core 5 of diameter larger than the internal diameter of the stator, and in magnetizing, in known manner, said inductor poles 1 by coils 6 situated around the cylinder 5a.

 The fact of placing the inductor poles 1 on a cylinder 5a of diameter larger than the internal diameter of the stator makes it possible to obtain perfect magnetization of said inductor poles 1 and the latter for all of the poles at the same time.

 The magnetization phase having been completed, the next phase consists in bringing the inductor poles 1 which have just been magnetized onto a second cylinder 5k of the cylindrical core 5 of diameter approximately equal to the internal diameter of the stator by sliding the inductor poles along a cone 5c connecting the two cylinders 5a, 5k by means of grooves or by any other system (not shown) formed in said cone.

 The inductor poles 1 once positioned angularly around the cylinder Sb are introduced inside the cylinder head 4 in which they are juxtaposed by means of the free ends of the external sectors of the inductor poles which thus advantageously form a false cylinder head which is magnetically reinforced the carcass. The carcass may thus have only a small thickness; which greatly facilitates its obtaining.

 Thus the cylindrical core 5 can have the ability to be retractable and expandable to bring the core of a cylinder 5a radially to the cylinder 5h and vice versa.

 It goes without saying that the invention is not limited to the single embodiment which has been described above, by way of example, it embraces, on the contrary, all the variants respecting the same characteristics.

Claims (8)

 1) Stator of an electric rotating machine with inductor poles with permanent magnet (1) arranged inside a cylinder head (4), each inductor pole (1) comprising a permanent magnet (2) produced from a mixed powder to a binder or compacted, which magnet is disposed inside an envelope (3) characterized in that the envelope (3) is semi-open and delimited by two coaxial sectors (3a, 3b) connected one to the other along a common radius (3c).  2) stator of an electric rotating machine according to claim 1, characterized in that the envelope (3) is made of a soft magnetic material with high permeability.  3) rotary machine stator according to claim 1, characterized in that the two sectors (3a, 3k) delimiting the envelope (3) have different arcs.  4) rotary machine stator according to claims 1 and 2, characterized in that the external sector (3a) has a larger arc than the internal sector (3k).  5) rotary machine stator according to claim 3, characterized in that the external sector (3a) has an arc approximately equal to å = 3600 / number of poles.  6) rotary machine stator according to claims 1 and 4, characterized in that the inductor poles (1) are juxtaposed inside the cylinder head (4).  7) A method of obtaining.du stator according to claim 1 remarkable by the following consecutive steps  - Attach the magnets (2) not yet magnetized in their respective casing (3) to form inductor poles (3).  - Place the inductor poles (3), spaced from each other, on a cylindrical core (5a), made of soft magnetic material, whose diameter is larger than the inside diameter of the stator, cylindrical core (5a) on which the magnets (2) are magnetized.  - Bring the inductor poles (2) once magnetized on a cylindrical core (5) of soft magnetic material whose diameter is substantially equal to the inside diameter of the stator and on which they are juxtaposed and introduce the assembly inside the cylinder head (4) in which the inductor poles (2) are fixed.  8) Device for implementing the method according to claim 7, characterized in that the cylindrical core (5) is stepped so as to present two cylinders (5a, 5k) of different diameters, one (5b) corresponding approximately with the inside diameter of the stator and the other (5a) larger, the two cylinders being connected by a cone (5ç) along which slide the inductive poles (1) of a cylinder (5a) to the other cylinder (5b ) or vice versa.