DE102010064377A1 - Electric machine e.g. three-phase generator, for motor car, has sectional plane intersecting claw pole finger to axis of rotor, where sectional plane is removed from circuit board by utilizing characteristic of machine with certain ratio - Google Patents

Abstract

The machine (10) has a chamfer with certain width in an accumulating side and extended along an edge. A claw pole finger (24) is limited on the accumulating side along a circumferential direction. A sectional plane intersects the claw pole finger vertically to a rotational axis (29) of a rotor (20). A ratio between 0.2 and 0.8 or 0.4 to 0.6 is imageable from the certain width of the accumulating chamfer and specific width of a tooth head. The sectional plane is removed from a claw pole circuit board (23) with the predetermined ratio with respect to characteristic of the machine.

Description

State of the art

• DE 10 2004 001 844 A1 ,

Disclosure of the invention

For an electric machine, different measurement ratios of claw-pole fingers are defined which positively determine the performance and noise behavior.

Short descriptions of the drawings

The invention is explained in more detail below by way of example with reference to figures:

Show it

1 a longitudinal section through an electrical machine,

2 a top view of a rotor from radially outside,

3 a side view of a tooth of a stand.

Like reference numerals designate like parts.

Embodiments of the invention

In 1 is a cross section through an electric machine 10 , shown here in the embodiment as a generator or alternator, in particular three-phase generator for motor vehicles. This electric machine 10 has, inter alia, a two-part housing 13 on, that from a first bearing shield 13.1 and a second end shield 13.2 consists. The bearing plate 13.1 and the bearing plate 13.2 take in a so-called stator 16 on, on the one hand from a substantially circular stator iron 17 and in its radially inwardly directed, axially extending grooves a stator winding 18 is inserted. This annular stator 16 surrounds with its radially inwardly directed grooved surface a rotor 20 who is trained as a clawpun runner. The rotor 20 consists inter alia of two claw pole boards 22 and 23 , on whose outer circumference each extending in the axial direction. claw pole 24 and 25 are arranged. Both claw pole boards 22 and 23 are in the rotor 20 arranged such that their claw-pole fingers extending in the axial direction 24 respectively. 25 on the circumference of the rotor 20 alternate each other. This results in magnetically required spaces between the oppositely magnetized Klauenpolfingern 24 and 25 , which are referred to as Klauenpolzwischenräume. The rotor 20 is by means of a wave 27 and one each located on one rotor side bearings 28 in the respective bearing shields 13.1 respectively. 13.2 rotatably mounted.

The rotor 20 has a total of two axial end faces, on each of which a fan 30 is attached. This fan 30 consists essentially of a plate-shaped or disc-shaped portion, run from the fan blades in a known manner. These fans 30 serve to over openings 40 in the bearing shields 13.1 and 13.2 an air exchange between the outside of the electric machine 10 and the interior of the electric machine 10 to enable. These are the openings 40 essentially at the axial ends of the end shields 13.1 and 13.2 provided by means of the fan 30 Cooling air in the interior of the electric machine 10 is sucked in. This cooling air is generated by the rotation of the fan 30 accelerated radially outwards, so that they through the cool air-permeable winding overhang 45 can pass through. This effect turns the winding overhang 45 cooled. The cooling air takes after passing through the winding overhang 45 or after the flow around this winding overhang 45 through here in this 1 not shown openings a way radially outward.

In the 1 shown and located on the right side of the generator protective cap 47 protects different. Components against environmental influences. So cover this cap 47 For example, a so-called slip ring assembly 49 which serves, a field winding 51 supply with excitation current. To this slip ring assembly 49 around is a heat sink 53 arranged, which acts here as plus heat sink. This plus heat sink is called a plus heat sink because it is electrically conductively connected to a positive pole of a rechargeable battery (eg starter power supply). As a so-called negative heat sink, the bearing plate acts 13.2 , Between the end shield 13.2 and the heat sink 53 is a connection plate 56 arranged, which serves, in the bearing plate 13.2 arranged negative diodes 58 and here in this illustration not shown plus diodes in the heat sink 53 to connect with each other and thus represent a known bridge circuit.

An electromagnetic circuit of the rotor 20 runs from the pole core 26 starting in both directions in the claw pole boards 22 and 23 and from there to the Klauenpolfinger 24 and 25 , About the Klauenpolfinger 24 and 25 At least two electromagnetic fluxes result: a so-called useful flow occurs from the Klauenpolfingern 24 and 25 in the stator 16 over and generated in the stator winding 18 an electric current. A so-called leakage flux flows between the claw-pole fingers 24 and 25 without a net flow in the stator 16 to create.

The 2 shows a plan view of the rotor 20 from radially outside. There are two claw poles 22 and 23 to recognize, of which the Klauenpolfinger 24 and 25 out. Every claw-putter 24 and 25 has a running page 24a and 25a and an expiring page 24b and 25b , The accumulating pages 24a and 25a are in the intended direction of rotation R of the electrical. machine 10 oriented or on the side of each claw trigger finger 24 and 25 , which is oriented in the direction of rotation R. The expiring pages 24b and 25b are contrary to the intended direction of rotation R of the electric machine 10 oriented or on the side of each claw trigger finger 24 and 25 , which is opposite to the direction of rotation R oriented. It is intended that every Klauenpolfinger 24 . 25 on a running page 24a and 25a and on a running page 24b and 25b in each case at least one chamfer 24c . 24d or .. bevel 25c . 25d having.

The chamfer 24c the incoming page 24a extends along an edge 24K1 that the claw-pole-finger 24 on the incoming page 24a limited in the circumferential direction U. The chamfer 24d the expiring page 24b extends along an edge 24k2 that the claw-pole-finger 24 on the expiring page 24b limited in the circumferential direction U.

The chamfer 24c generally has a width in the circumferential direction U, here designated B24c. The chamfer 24d generally has a circumferential width U, here designated B24d.

The one with this rotor 20 combined stator 16 has a stance trip 17 with on its inner circumference 70 arranged grooves 72 and teeth 74 , which alternate in the circumferential direction U. The teeth 74 have at their radially inward end a tooth head 76 with a width B76 in the circumferential direction U on.

It is also a cutting plane 80 defines a claw pole finger 24 perpendicular to the axis of rotation 29 of the rotor 20 cuts. It is from the width B24c of the leading chamfer 24c and the width B76 of the tooth head 76 a ratio V1 can be formed. The electric machine 10 should have the property that either i) the cutting plane 80 5 mm from the claw pole board 23 is removed and a) the ratio V1 between 0.2 and 0.8 or b) 0.4 to 0.6 and / or ii) the cutting plane 83 20 mm from the claw pole board 23 is removed and c) the ratio V1 is between 0.1 and 0.7 or d) 0.3 and 0.5.

Analogous to the above definition should alternatively for the electric machine 10 be valid:
It is from the width B24d of the running bevel 24d and the width B76 of the tooth head 76 a ratio V2 can be formed. The electric machine 10 should have the property that either i) the cutting plane 5 mm from the claw pole board 23 is removed and a) the ratio V2 between 0.5 and 1.1 or b) 0.7 to 0.9 and / or the cutting plane 20 mm from the claw pole board 23 is removed and c) the ratio V2 is between 0.3 and 1.1 or d) 0.4 and 0.9.

Furthermore, as an alternative for the electric machine 10 be valid:
A claw pole finger 24 indicates a running page 24a and on a running page 24b in each case at least one chamfer 24c . 24d on. The expiring side 24b has a chamfer 24d with a width B24d that extends along one edge 24k2 which extends a claw pole finger 24 on the expiring page 24b limited in the circumferential direction U. The running side 24a has a chamfer 24c with a width B24c that extends along one edge 24K1 which extends a claw pole finger 24 on the incoming page 24a limited in the circumferential direction U. The Claw Wolfinger 24 has a centerline 86 leading to a rotation axis 29 of the rotor 20 is parallel. The chamfer 24d on the expiring page 24b goes on an edge 24k2 in a radially outwardly directed cylinder jacket-shaped surface 87 of the claw-pole-finger 24 above. The chamfer 24c on the incoming page 24a goes on an edge 24K1 in the radially outwardly directed cylinder jacket-shaped surface 87 of the claw-pole-finger 24 above. Between the edge 24K1 on the incoming page 24a and the midline 86 is in a development of the cylinder jacket-shaped surface 87 of the claw-pole-finger 24 an angle α inscribable. Between the edge 24k2 on the expiring page 24b and the midline 86 in a development of the cylinder jacket-shaped surface 87 of the claw-pole-finger 24 is another angle β inscribed. A cutting plane 80 . 83 holding a claw-pole-finger 24 perpendicular to a rotation axis 29 of the rotor 20 is defined and it will be for the rotor 20 a ratio V3 defined by the angle α and the angle b. It should apply, according to which either i) the cutting plane 80 5 mm from the claw pole board 23 is removed and a) the ratio V3 between 0.7 and 1.4 or b) 0.9 to 1.2 and / or ii) the cutting plane 83 20 mm from the claw pole board 23 is removed and c) the ratio V3 is between 0.7 and 1.4 or d) 0.9 and 1.2.

According to a further embodiment is for the electric machine 10 provided that at least one Klauenpolfinger 24 on a running page 24a and a claw-pole-finger 24 , which in the circumferential direction U the one Klauenpolfinger 25 is directly adjacent, also on a sloping side 25a a chamfer 90 . 92 having. Each of the aforementioned chamfers 90 . 92 the claw-pole-finger 24 . 25 cuts a plane 95 and the chamfers 90 . 92 ends in the claw-pole-fingers 24 . 25 before reaching half of the cantilevered part of a claw-pole finger 24 . 25 , The chamfers 90 . 92 each have an area, each in the direction of the cantilevered end of a Klauenpolfingers 24 . 25 in an outlet 100 . 103 go over, which is not part of the surface and to a cylindrical surface 87 the claw-pole-finger 24 . 25 passes. Between the surface 87 and the spout 100 . 103 is a line 105 . 108 towards the chamfer 24c respectively. 25c determinable, with the largest distance 110 the line 105 a claw-pole-finger 24 between the line 108 the directly adjacent Klauenpolfingers 108 less than or equal to the length 120 of the pole core 26 is. The length 120 is measured as the distance between a claw-pole-tip 123 and one level 126 the associated claw pole board 23 that a pathogen winding 51 nearest is.

According to a further embodiment of this invention, it is provided that the greatest distance 110 the line 105 a claw-pole-finger 24 to the line 108 of the directly adjacent claw pole 25 less than or equal to a difference in the axial length 130 of the stator iron 17 and 2 mm.

In a further embodiment, the following is provided: At least one claw pole finger 24 indicates a running page 24a and on a running page 24b in each case at least one chamfer 24c . 24d on. The expiring side 24b has a chamfer 24d with a width B24d that extends along one edge 24k2 which extends a claw pole finger 24 on the expiring page 24b limited in the circumferential direction U. The running side 24a has a chamfer 24c with a width B24c that extends along one edge 24K1 which extends a claw pole finger 24 on the incoming page 24a limited in the circumferential direction U. A cutting plane 80 . 83 cuts a claw pole finger 24 perpendicular to a rotation axis 29 of the rotor 20 , From the width B24c of the leading chamfer 24c and from the width B24d of the trailing bevel 24d is a ratio V4 formable. The electric machine 20 should have the property that either i) the cutting plane 80 5 mm from the claw pole board 23 is removed and a) the ratio V4 between 0.9 and 3.7 or b) 1.5 and 1.8 and / or ii) the cutting plane 83 20 mm from the claw pole board 23 is removed and c) the ratio V4 is between 0.7 and 6.0 or d) 1.7 and 2.0.

In addition to the previously mentioned is another definition for the electric machine 10 possible: At least a Klauenpolfinger 25 indicates a running page 25a at least a chamfer 92 . 25d on. The expiring side 25a again has a chamfer 25d with a width B25d that extends along one edge 25kd1 which extends a claw pole finger 25 on the expiring page 25a limited in the circumferential direction U. The tapered side 25a has a chamfer 92 with a width BWF on, which is on the claw pole finger 25 extends. The chamfer 92 on the incoming side 25a is shorter in the edge direction and wider in the circumferential direction U than the chamfer 25d on the running side 25b , A cutting plane 95 that are in the plane 127 is arranged cuts a claw pole finger 25 perpendicular to a rotation axis 29 of the rotor 20 and there also the chamfer 92 , The level 127 By the way, it's like the plane 126 the plane of the claw pole board 24 that the exciter winding 51 nearest and in the direction of the axis 29 is oriented. From the width BWF (parallel to its surface) of the leading chamfer 25c and the width BF of the claw-pole finger 25 is a ratio V5 formable. It is envisaged that the electric machine 10 has the property that the ratio V5 is either between 0.1 and 0.4 or between 0.3 and 0.8. The same can also be said for the claw-pole wrestler 24 be valid.

For all embodiments, the rotor 20 twelve claw poles 24 . 25 exhibit.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102004001844 A1 [0001]

Claims (8)

Electric machine, with a rotor ( 20 ), the two oppositely arranged claw pole boards ( 22 . 23 ) with claw-pole fingers ( 24 . 25 ), wherein between the claw pole boards ( 22 . 23 ) as Polkern ( 26 ) designated portion of an electromagnetic circuit of the rotor ( 20 ) and at least one claw-pole finger ( 24 ) on a running side ( 24a ) and on an expiring page ( 24b . 25b ) each at least one bevel ( 24c . 24d ), wherein a leading side ( 24a ) is arranged in a circumferential direction (U) relative to the side oriented in the direction of rotation (R) and has a running side ( 24b ) is arranged on a circumferential direction (U) with respect to the side opposite to the direction of rotation (R), wherein the outgoing side (U) 24b ) a chamfer ( 24d ) having a width (B24d) extending along an edge (B24d) 24k2 ) comprising a claw-pole finger ( 24 ) on the running side ( 24b ) in the circumferential direction (U), and the leading side ( 24a ) a chamfer ( 24c ) having a width (B24c) extending along an edge (B24c) 24K1 ) comprising a claw-pole finger ( 24 ) on the incoming page ( 24a ) in the circumferential direction (U), with a stator ( 16 ), who is a stander ( 17 ) with at its inner circumference ( 70 ) arranged grooves ( 72 ) and teeth ( 74 ), which alternate in the circumferential direction (U), wherein the teeth ( 74 ) at its radially inward end a tooth tip ( 76 ) having a width (B76) in the circumferential direction (U), and having a sectional plane ( 80 . 83 ), which is a claw-pole 24 ) perpendicular to a rotation axis ( 29 ) of the rotor ( 20 ) and wherein from the width (B24c) of the chamfer ( 24c ) and the width (B76) of the tooth head ( 76 ) a ratio (V1) can be formed and the electric machine ( 10 ) has the property that either i) the cutting plane ( 80 ) 5 mm from the claw pole board ( 23 ) and a) the ratio (V1) between 0.2 and 0.8 or b) 0.4 to 0.6 and / or ii) the sectional plane ( 83 ) 20 mm from the claw pole board ( 23 ) and c) the ratio (V1) is between 0.1 and 0.7 or d) 0.3 and 0.5. Electric machine, with a rotor ( 20 ), the two oppositely arranged claw pole boards ( 22 . 23 ) with claw-pole fingers ( 24 . 25 ), wherein between the claw pole boards ( 22 . 23 ) as Polkern ( 26 ) designated portion of an electromagnetic circuit of the rotor ( 20 ) and at least one claw-pole finger ( 24 ) on a running side ( 24a ) and on an expiring page ( 24b ) at least one chamfer ( 24c . 24d ), wherein a leading side ( 24a ) is arranged in a circumferential direction (U) relative to the side oriented in the direction of rotation (R) and has a running side ( 24b ) is arranged on a circumferential direction (U) with respect to the side opposite to the direction of rotation (R), wherein the outgoing side (U) 24b ) a chamfer ( 24d ) having a width (B24d) extending along an edge (B24d) 24k2 ) comprising a claw-pole finger ( 24 ) on the running side ( 24b ) in the circumferential direction (U), and the leading side ( 24a ) a chamfer ( 24c ) having a width (B24c) extending along an edge (B24c) 24K1 ) comprising a claw-pole finger ( 24 ) on the incoming page ( 24a ) in the circumferential direction (U), wherein the chamfer ( 24c ) on the incoming side ( 24a ) in the edge direction ( 24K1 ) shorter and circumferentially (U) wider than the chamfer ( 24d ) on the running side ( 24b ), with a stator ( 16 ), who is a stander ( 17 ) with at its inner circumference ( 70 ) arranged grooves ( 72 ) and teeth ( 74 ), which alternate in the circumferential direction (U), wherein the teeth ( 74 ) at its radially inward end a tooth tip ( 76 ) having a width (B76) in the circumferential direction (U), and having a sectional plane ( 80 . 83 ), which is a claw-pole 24 ) perpendicular to a rotation axis ( 29 ) of the rotor ( 20 ) and wherein from the width (B24d) of the outgoing bevel ( 24d ) and the width (B76) of the tooth head ( 76 ) a ratio (V2) can be formed and the electric machine ( 10 ) has the property that either I) the section plane ( 80 ) 5 mm from the claw pole board ( 23 ) and a) the ratio (V2) between 0.5 and 1.1 or b) 0.7 to 0.9 and / or ii) the sectional plane ( 83 ) 20 mm from the claw pole board ( 23 ) and c) the ratio (V2) is between 0.3 and 1.1 or d) is 0.4 and 0.9. Electric machine, with a rotor ( 20 ), the two oppositely arranged claw pole boards ( 22 . 23 ) with claw-pole fingers ( 24 . 25 ), wherein between the claw pole boards ( 22 . 23 ) as Polkern ( 26 ) designated portion of an electromagnetic circuit of the rotor ( 20 ) and at least one claw-pole finger ( 24 ) on a running side ( 24a ) and on an expiring page ( 24b ) at least one chamfer ( 24c . 24d ), wherein a leading side ( 24a ) is arranged in a circumferential direction (U) relative to the side oriented in the direction of rotation (R) and has a running side ( 24b ) is arranged on a circumferential direction (U) with respect to the side opposite to the direction of rotation (R), wherein the outgoing side (U) 24b ) a chamfer ( 24d ) having a width (B24d) extending along an edge (B24d) 24k2 ) comprising a claw-pole finger ( 24 ) on the running side ( 24b ) in the circumferential direction (U), and the leading side ( 24a ) a chamfer ( 24c ) having a width (B24c) extending along an edge (B24c) 24K1 ) comprising a claw-pole finger ( 24 ) on the incoming page ( 24a ) in the circumferential direction (U), wherein a Klauenpolfinger ( 24 ) a center line ( 86 ) facing a rotation axis ( 29 ) of the rotor ( 20 ) is parallel, the chamfer ( 24d ) on the running side ( 24b ) at a Edge ( 24k2 ) in a radially outwardly directed cylinder jacket-shaped surface ( 87 ) of the claw-pole-finger ( 24 ), the chamfer ( 24c ) on the incoming page ( 24a ) on one edge ( 24K1 ) in the radially outwardly directed cylinder jacket-shaped surface ( 87 ) of the claw-pole-finger ( 24 ), and between the edge ( 24K1 ) on the incoming page ( 24a ) and the center line ( 86 ) in a development of the cylinder jacket-shaped surface ( 87 ) of the claw-pole-finger ( 24 ) an angle (α) can be inscribed and between the edge ( 24k2 ) on the running side ( 24b ) and the center line ( 86 ) in a development of the cylinder jacket-shaped surface ( 87 ) of the claw-pole-finger ( 24 ) a further angle (β) can be inscribed, and with a sectional plane ( 126 ), which is a claw-pole 24 ) perpendicular to. a rotation axis ( 29 ) of the rotor ( 20 ) and the rotor ( 20 ) has a ratio (V3) between the angle (α) and the angle (β), after which either i) the cutting plane ( 80 ) 5 mm from the claw pole board ( 24 ) and a) the ratio (V3) between 0.7 and 1.4 or b) 0 to 1.2 and / or ii) the sectional plane ( 83 ) 20 mm from the claw pole board ( 24 ) and c) the ratio (V3) is between 0.7 and 1.4 or d) 0.9 and 1.2. Electric machine, with a rotor ( 20 ), the two oppositely arranged claw pole boards ( 22 . 23 ) with claw-pole fingers ( 24 . 25 ), wherein between the claw pole boards ( 22 . 23 ) as Polkern ( 26 ) designated portion of an electromagnetic circuit of the rotor ( 20 ), which has a rotational axial length and in a transition from a claw pole ( 22 . 23 ) to the pole core ( 26 ) a level ( 126 . 127 ) which is perpendicular to a direction of rotation ( 29 ) and at least one claw-pole finger ( 24 ) on a running side ( 24a ) and a claw-pole finger ( 25 ), which in the circumferential direction (U) the one Klauenpolfinger ( 24 ) is directly adjacent, also on a sloping side ( 25a ) a chamfer ( 90 . 92 ), wherein each of the aforementioned chamfers ( 90 . 92 ) of the claw poles ( 24 . 25 ) the mentioned level ( 126 . 127 ) cuts and chamfers ( 90 . 92 ) in the claw-pole-fingers ( 24 . 25 ) before reaching half of the cantilevered part of a claw-pole finger ( 24 . 25 ) and the chamfers ( 90 . 92 ) each have an area which in each case in the direction of the cantilevered end of a claw-pole finger ( 24 . 25 ) into an outlet ( 100 . 103 ), which is not part of the surface and to a cylindrical surface ( 87 ) of the claw poles ( 24 . 25 ), whereby between the respective surface ( 87 ) and the spout ( 100 . 103 ) a line ( 105 . 108 ), the largest distance ( 110 ) the line ( 105 ) of a claw-pole-finger ( 24 ) and between the line ( 108 ) of the directly adjacent Klauenpolfingers ( 25 ) less than or equal to the length ( 120 ) of the pole core ( 26 ). Electrical machine according to claim 4, characterized in that the greatest distance ( 110 ) the line ( 105 ) of a claw-pole-finger ( 24 ) between the line ( 108 ) of the directly adjacent Klauenpolfingers ( 25 ) less than or equal to a difference in the axial length ( 130 ) of the stator iron ( 17 ) and 2 mm. Electric machine, with a rotor ( 20 ), the two oppositely arranged claw pole boards ( 22 . 23 ) with claw poles ( 24 . 25 ), wherein between the claw pole boards ( 22 . 23 ) as Polkern ( 26 ) designated portion of an electromagnetic circuit of the rotor ( 20 ) and at least one claw-pole finger ( 24 ) on a running side ( 24a ) and on an expiring page ( 24b ) at least one chamfer ( 24c . 24d ), wherein a leading side ( 24a ) on a circumferential direction (U) is arranged relative to the side oriented in the direction of rotation (R) and has a running side ( 24b ) is arranged on a circumferential direction (U) with respect to the side opposite to the direction of rotation (R), wherein the outgoing side (U) 24b ) a chamfer ( 24d ) having a width (B24d) extending along an edge (B24d) 24k2 ) comprising a claw-pole finger ( 24 ) on the outgoing side (24b) in the circumferential direction (U) limited, and the incoming side ( 24a ) a chamfer ( 24c ) having a width (B24c) extending along an edge (B24c) 24K1 ) comprising a claw-pole finger ( 24 ) on the incoming page ( 24a ) in the circumferential direction (U) limited, with a cutting plane ( 80 ), which is a claw-pole 24 ) perpendicular to a rotational axis of the rotor ( 20 ) and wherein from the width (B24c) of the chamfer ( 24c ) and the width (B24d) of the running bevel ( 24d ) a ratio (V4) can be formed and the electric machine ( 10 ) has the property that either i) the cutting plane ( 80 ) 5 mm from the claw pole board ( 23 ) and a) the ratio (V4) between 0.9 and 3.7 or b) 1.5 and 1.8 and / or ii) the sectional plane ( 83 ) 20 mm from the claw pole board ( 23 ) and c) the ratio (V4) is between 0.7 and 6.0 or d) 1.7 and 2.0. Electric machine, with a rotor ( 20 ), the two oppositely arranged claw pole boards ( 22 . 23 ) with claw poles ( 24 . 25 ), wherein between the claw pole boards ( 22 . 23 ) as Polkern ( 26 ) designated portion of an electromagnetic circuit of the rotor ( 20 ) and in a transition from a claw pole board ( 22 . 23 ) to the pole core ( 26 ) a level ( 103 ) which is perpendicular to a direction of rotation ( 29 ) is aligned at least one Klauenpolfinger ( 25 ) on a running side ( 25a ) and on an expiring page ( 25b ) at least one chamfer ( 92 . 25d ), wherein a leading side ( 25a ) is arranged in a circumferential direction (U) relative to the side oriented in the direction of rotation (R) and has a running side ( 25b ) is arranged on a circumferential direction (U) with respect to the side opposite to the direction of rotation (R), wherein the outgoing side (U) 25b ) a chamfer ( 25d ) having a width (B25d) extending along an edge (B25d) 25k2 ) comprising a claw-pole finger ( 25 ) on the running side ( 25b ) in the circumferential direction (U), and the leading side ( 25a ) a chamfer ( 92 ) having a width (BWF) located on the claw-pole finger (FIG. 25 ), wherein the chamfer ( 92 ) on the incoming side ( 25a ) in the edge direction ( 25k1 ) shorter and circumferentially (U) wider than the chamfer ( 25d ) on the running side ( 25b ), with a cutting plane ( 103 ), which is arranged in the plane and a claw-pole finger ( 25 ) perpendicular to a rotation axis ( 29 ) of the rotor ( 20 ) and where from the width (BWF) of the chamfer ( 92 ) and the maximum width (BF) of the claw-pole finger ( 25 ) in the transition to the cantilever part a ratio (V5) can be formed and the electric machine ( 10 ) has the property that the ratio (V5) is either between 0.1 and 0.4 or between 0.3 and 0.8. Electrical machine according to one of the preceding claims, characterized in that the rotor ( 20 ) twelve claw poles ( 24 . 25 ) having

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