DE102007036315A1 - Disc pack for a rotor or stator of an electrical machine and corresponding electrical machine - Google Patents

Abstract

The invention relates to a disk set for a rotor or stator of an electric machine, with a plurality of fins and at least one receiving space formed in the disk set for receiving a permanent magnet. It is provided that the disk pack (1) has at least one clamping lug (9) formed integrally with at least one of the lamellae (3) of the disk pack (1) for clamping the permanent magnet (6) in the receiving space (5). Furthermore, the invention relates to a corresponding electric machine.

Description

The The invention relates to a disk set for a rotor or a stator electric machine, with several slats and at least one formed in the disk set receiving space for receiving a permanent magnet. Furthermore, the invention relates to a corresponding electrical Machine.

State of the art

One Such disk pack is permanently energized, for example for rotors Synchronous machines, as in electric or hybrid drives of vehicles used, known. These rotors are the permanent magnets as "buried Magnets "in as Pockets trained receiving spaces inserted axially within the disk packs and then fixed. The fixation is carried out by means of introduced into the receiving space Clamping elements, such as clamping strips or clamping springs, and additionally on adhesive substances like Glue or resins. By introducing additional components like the Clamping elements and the adhesive Substances results in a high cost in the manufacture of the rotor or stator. At the same time resulting from the tolerances of additional Clamping elements Sources of error during assembly.

Disclosure of the invention

to Simplification of the joining process the permanent magnet in the receiving space and to increase the process reliability is provided that the disk pack at least one piece with at least one of the lamellae of the disk pack formed clamping tab for clamping fixation of the permanent magnet in the receiving space. With the clamping tab, the position of the permanent magnet is inside fixed the associated receiving space. For this purpose, the clamping lug pushes the permanent magnet with at least one of its sides on at least one inner wall the receiving space or a recording room forming element of the disk pack. In particular, it is provided that the clamping strap one piece is formed with all the slats of the disk pack. To the pinching Fixierung of the permanent magnet, the clamping plate is inherently elastic educated. If the disk pack has several receiving spaces, so preferably each of the receiving spaces serves to receive an associated Permanent magnets. The permanent magnet has two opposite magnetic poles, each pole having a corresponding end face of the Permanent magnet is assigned. The clamping lug fixes the permanent magnet preferably so that it with at least one of the end face over a large area against an inner wall of the receiving space occurs. To this pinching fixation of the permanent magnet enters into the receiving space projecting Area of the clamping plate against the permanent magnet.

The Slats of the laminated core receive their lamellar geometry in particular by punching the lamellae by means of a punching tool. The least a clamping lug is part of the lamellar geometry and is stamped on Slats generated by the punching process. When joining the Permanent magnet in the receiving space, the clamping strap is elastic, optionally also plastic, deformed. The elastic part of Clamping tab is chosen that by an elastic springback the clamping plate a sufficiently large clamping force on the permanent magnet is applied to clamp this in the recording room. The recording room is designed in particular as a receiving pocket. In addition to clamped fixation, the permanent magnet after joining in the Reception room if necessary with an adhesive agent, in particular an adhesive and / or resin are fixed in the receiving space.

Farther is provided with advantage that the clamping plate as a clamping tongue is trained. The clamping tongue is a self-elastic spring element, the preferably acts clamped perpendicular to its longitudinal extent.

In an advantageous embodiment of the invention is provided that the clamping tongue over a Tongue root connected to the rest of the at least one lamella and at least one free end spaced from the tongue root having.

To a development of the invention, it is provided that the clamping tongue to be clamped fixation with the free end against the permanent magnet occurs. By using the spaced from the tongue root free end for clamping fixation is as large as possible, intrinsically elastic part the clamping tongue used for applying a clamping force. The free End is thus the passing of the permanent magnet area the clamping tongue formed as a clamping tongue.

In an advantageous embodiment of the invention is provided that the disk pack opposite at least one of the clamping tab in the receiving space arranged and in one piece formed with at least one of the fins of the disk pack Clamping projection has. The clamping of the permanent magnet in the receiving space takes place between the clamping tongue and the clamping plate. The intrinsically elastic trained clamping tongue clamps the permanent magnet between them and the clamping projection, so that the permanent magnet is fixed.

alternative or additionally It is envisaged that the disk pack two each other in the receiving space opposite having arranged clamping straps, in particular clamping tongues. At this Arrangement becomes the permanent magnet between the two clamping straps fixed in the receiving space by clamping.

To a development of the invention, it is provided that the clamping Fixation has a clamping direction between the clamping plate and the clamping projection or between the opposite one another arranged clamping straps is aligned. Preferably, the Clamping direction substantially along a circumferential direction of the Rotor or stator aligned.

With Advantage is provided that the clamping direction in each case vertically is aligned to a magnetic orientation of the permanent magnet. The fixed in the receiving space clamped permanent magnet has a magnetic alignment - given through a north-south axis his poles - up, the re a rotational axis of the rotor in the electric machine aligned radially is.

The The invention further relates to an electric machine with a at least one permanent magnet rotor or stator, wherein the rotor or the stator is a disk pack as described above having. The electric machine is in particular a permanent magnet synchronous machine, preferably designed as a prime mover for a hybrid vehicle Electric motor.

Brief description of the drawings

The The invention will be explained in more detail with reference to the figures, in which:

1 a partial view of a plate pack according to the invention with a receiving space according to a first embodiment and

2 a partial view of a laminated core according to the invention with a receiving space according to a second embodiment.

Embodiment (s) the invention

The 1 shows a disc pack 1 for a rotor 2 in a side view, in which only a first of several fins 3 is visible. The in the disk pack 1 behind the first lamella 3 located further fins 3 have the same contour or lamella geometry. The slat package 1 has several as receiving pockets 4 trained recording rooms 5 for receiving one permanent magnet each 6 on. The recording rooms 5 extend - based on a not shown axis of rotation of the rotor 2 - each axially in the disk pack 1 into it. The axis of rotation is perpendicular to the plane of the 1 and 2 aligned.

The recording rooms 5 are circumferentially spaced from each other with a uniform radial distance to the axis of rotation in one with an outer circumferential surface 7 final radial outside area 8th of the disk pack 1 arranged. This arrangement of permanent magnets 6 within the disk pack 1 is also referred to as an arrangement with "buried magnets" 1 shown disc pack 1 points in each of the recording spaces shown 5 one in one piece with the slats 3 formed, elastically shaped clamping strap 9 on. The the respective recording room 5 assigned clamping strap 9 extends into the recording room 5 into it. Each of the clamping straps 9 is here as a clamping tongue 10 trained, each with a tongue root 11 integral with the remainder of the disk pack 1 connected is. Starting from the tongue root 11 extends the clamping tongue 10 approximately parallel to a side wall 12 of the recording room 5 into it and ends with a tongue tip 13 trained free end 14 , While the clamping strap 9 in the area of a side wall 12 is formed on one of the side wall 12 opposite side wall 15 a clamping projection 16 educated. The clamping projection may also be elastic. Each one in the assigned recording rooms 5 introduced permanent magnets 6 is - based on the axis of rotation of the rotor, not shown 2 - Between the elastically formed clamping tongue 10 in the area of the first side wall 12 and the clamping projection 16 in the area of the opposite side wall 15 clamped fixed. The the clamping projection 16 opposite clamping tongue 10 brings one in the direction of the clamping projection 16 aligned clamping force (arrow 17 ) out. This is the clamping tongue 10 in the clamping force (arrow 17 ) opposite direction - ie in the direction of the side wall 12 (Arrow 18 ) - elastically deformed in the manner of a bar spring.

The slat package 1 of the 2 essentially corresponds to the disk pack 1 of the 1 so that only the differences should be discussed here. In contrast to the disk pack of 1 has the disk pack of 2 both in the area of the side wall 12 as in the area of the side wall 15 one each as a clamping tongue 10 trained clamping strap 9 on. Everyone in the reception rooms 5 of the disk pack 1 of the 2 introduced permanent magnets 6 is on both sides by the elastically deformed clamping straps 9 , each having a clamping force (arrow 17 ), clamped fixed.

Between the clamping strap 9 and the clamping projection 16 or between the oppositely arranged clamping straps 9 a clamping direction is formed 19 out. This clamping direction 19 is substantially in the circumferential direction with respect to the axis of rotation of the rotor 2 aligned. In the radial direction relative to the axis of rotation of the rotor 2 is the respective magnetic orientation 20 the permanent magnets 6 , Optionally either a north pole or a south pole in the direction of the outer circumferential surface 7 and the corresponding south pole or north pole turned in the direction of the axis of rotation. The clamping direction 19 is thus perpendicular or at least substantially perpendicular to the respective magnetic orientation 20 the permanent magnets 6 , Each of the poles (north and south poles) of the permanent magnets closes with an associated face 21 from. At least one of the faces 21 occurs over a large area against a corresponding inner surface 22 (Ceiling or floor of the recording room 5 ), so that a sufficiently good magnetic connection of disk pack 1 and permanent magnets 6 given is.

The clamping strap 9 or the clamping straps 9 is / are part of the slat geometry and will / will be when punching the slats 3 generated by a corresponding punching tool. When joining the permanent magnets 6 in the respective recording rooms 5 becomes the clamping lug 9 elastic, possibly also plastic, deformed. The elastic portion is chosen so that by the elastic springback of the clamping plate 9 enough clamping force (arrow 17 ) on the respective permanent magnet 6 is applied, so this in the recording room 5 is fixed by clamping. Subsequently, the permanent magnet 6 in the recording room 5 if necessary still with adhesive material, such as an adhesive, a resin or a similar fixative, in the receiving space 5 be fixed.

Advantage of such a plate pack 1 is a possible elimination and simplification of the magnetic fixation, whereby an improved efficiency and increased process reliability is achieved.

Claims (9)

Disk pack for a rotor or stator of an electrical machine, with a plurality of disks and at least one receiving space formed in the disk pack for receiving a permanent magnet, characterized by at least one in one piece with at least one of the disks ( 3 ) of the disk pack ( 1 ) formed clamping tab ( 9 ) for the clamping fixation of the permanent magnet ( 6 ) in the recording room ( 5 ). Disc pack according to claim 1, characterized in that the clamping strap ( 9 ) as a clamping tongue ( 10 ) is trained. Disc pack according to one of the preceding claims, characterized in that the clamping tongue ( 10 ) via a tongue root ( 11 ) with the remainder of the at least one lamella ( 3 ) and at least one to the tongue root ( 11 ) spaced free end ( 14 ) having. Disc pack according to one of the preceding claims, characterized in that the clamping tongue ( 10 ) for clamping fixation with its free end ( 14 ) against the permanent magnet ( 6 ) occurs. Disc pack according to one of the preceding claims, characterized by at least one of the clamping strap ( 9 ) arranged in one piece with at least one of the slats ( 3 ) of the disk pack ( 1 ) formed clamping projection ( 16 ). Disc pack according to one of the preceding claims, characterized by two mutually in the receiving space ( 5 ) oppositely arranged clamping straps ( 9 ), in particular clamping tongues ( 10 ). Disc pack according to one of the preceding claims, characterized in that the clamping fixing a clamping direction ( 19 ), which between the clamping strap ( 9 ) and the clamping projection ( 14 ) or between the oppositely arranged clamping straps ( 9 ) is aligned. Disc pack according to one of the preceding claims, characterized in that the clamping direction ( 19 ) perpendicular to a magnetic orientation ( 20 ) of the permanent magnet ( 6 ) is aligned. Electric machine with at least one permanent magnet having rotor or stator, wherein the rotor or stator a Having disc pack according to at least one of the preceding claims.