WO2018014908A1

WO2018014908A1 - Electrical machine with a laminated core which is fixed on both sides and multiple clutch comprising an electrical machine of this kind

Info

Publication number: WO2018014908A1
Application number: PCT/DE2017/100559
Authority: WO
Inventors: Elmar Lorenz; Julian LARBIG; Andreas Baumgartner; Anton Simonov
Original assignee: Schaeffler Technologies AG & Co. KG
Priority date: 2016-07-21
Filing date: 2017-07-04
Publication date: 2018-01-25
Also published as: DE112017003612A5; DE102016213384A1

Abstract

The invention relates to an electrical machine (1) for use in a drive train of a hybrid motor vehicle, comprising a stator (2) and comprising a rotor (3) which is arranged within said stator and is intended to interact with the stator (2) and is equipped to support a laminated core (4) so as to pass on torque and which forms a first axial stop (5) for the laminated core (4), wherein the rotor (3) has a second axial stop (6) which is situated on the opposite side of the first axial stop (5). The invention further relates to a multiple clutch in which an electrical machine (1) according to the invention is used.

Description

Electric machine with both sides fixed laminated core and multiple coupling with such an electric machine

The present invention relates to an electric machine for use in a powertrain of a hybrid motor vehicle, comprising a stator and having disposed therein for cooperation with the stator rotor, which is prepared to carry a laminated core torque-extended and the first axial stop for the Blechpaket trains. The invention further relates to a multiple clutch for a drive train of a hybrid vehicle.

A generic electrical machine of a motor vehicle, which has a rotor and a stator, is known from the prior art from German Patent Application No. 10 2013 221 643 A1. This discloses a rotor for an electric machine of a motor vehicle having a rotor carrier, which has a radial portion and an axial portion and carries a laminated rotor core, which is at least partially attached to a formed on a radial outer side of the axial rotor support portion tooth profile, wherein the rotor laminated core to a Gear profile of the rotor carrier has complementary tooth profile with teeth and tooth spaces. In that application, a powertrain of a hybrid vehicle is also disclosed.

A disadvantage of this prior art is that the rotor laminated core is not stored position-determined in the axial direction. Furthermore, the orientation of the

Plate provided relative to the rotor with a certain play, which leads to unwanted noise emissions and leads to an irregular and undesirable load on the rotor. Against this background, the object of the invention is to remedy or at least mitigate the disadvantages of the prior art and, in particular, to disclose an electric machine which, in the case of a simple assembly, can ne defined securing position of the laminated core causes and at the same time compensates for manufacturing tolerances.

Furthermore, the object is to provide a constant air gap between the sheet metal package and the stator, on the one hand to ensure reliable heat dissipation and on the other to prevent tilting of individual elements of the laminated core.

The invention is also faced with the task of avoiding or at least reducing moment irregularities.

The above objects are achieved in that the rotor has a second axial stop, which lies on the opposite side of the first axial stop. Thus, a position definition of the entire laminated core ensured, which in addition to an axial fixation of the laminated core also represents a simplification in the assembly.

Advantageous embodiments are the subject of the dependent claims and are explained in more detail below.

So it is advantageous if the first axial stop and the second axial stop are prepared to clamp the laminated core in an axial direction. This jamming causes a frictional connection between the rotor and the laminated core, which facilitates a transfer of force and / or torque through the laminated core.

It is likewise advantageous if the first axial stop and / or the second axial stop are designed as bearing disks or abutment ring. The at least one contact disk thus forms a separate component to the rest of the rotor, which can be referred to as a rotor carrier from. The contact disk is to be designed so that a contact surface with the laminated core that is formed by it, has such a material and / or surface finish that the deadlock is efficiently feasible. Once the at least one axial stop is connected by means of a non-positive and / or positive connection with the rotor, a simple assembly or composition of the rotor is possible. Likewise, the non-positive and / or positive connection according to the invention is distinguished by the fact that it has a high degree of force and / or force

Torque transmission accuracy allows.

Even if the connection is made by a screw connection or a rivet connection, there are advantages. Screw or rivet connections are industry standards, which are therefore characterized by high efficiency.

In a further advantageous embodiment, the laminated core is position-determined by the first axial stop and the second axial stop such that in a radial direction between the laminated core and the stator a constant air gap is formed in the axial direction from a first end side of the laminated core to a second end face , The constant air gap allows, as mentioned above, on the one hand a reliable heat dissipation and on the other hand it prevents tilting of individual elements of the laminated core before.

A further advantageous embodiment of the electric machine is characterized in that a bushing is arranged between a fastening element, such as a screw or a rivet, which causes the non-positive connection, and the at least one contact washer. This is prepared to optimally perform the force flow of the fastener acting in the axial direction. Damage due to excessive contact forces of the actuating element on the at least one axial stop is thus prevented. As soon as the axial stops are braced against one another, that is to say positively connected and effectively coupled via an uninterrupted power flow, an efficient securing of the position of the laminated core ensues. Characteristic of a further embodiment is a contact surface between the laminated core and at least one of the axial stops in the radial direction over more than half the height of the laminated core formed in the radial direction. This results in a surface contact between the laminated core and the at least one axial stop, which is sufficiently large for a reliable

Power transmission is. Furthermore, the laminated core and the at least one axial stop are thus designed plane-parallel over a sufficient length, so that a tilting of the sheet metal pact is prevented relative to the rotor. Even if the contact disk radially outwardly has a smaller width in the axial direction than radially inward, this is advantageous. Thus, the contact disks are provided in this embodiment with a taper which prevents rugged edges and thus optimizes in particular the power flow within the contact disk

The invention also relates to a multiple clutch for a drive train of a hybrid vehicle with an electric machine. The electric machine is designed according to one of the preceding claims. The multiple clutch according to the invention can be used in many drive trains.

In summary, the invention is directed to an electric machine configured as an integral unit with the multiple clutch of a hybrid vehicle. One of the objects of the invention is to carry out an accurate position determination as well as an adaptation and a centering of the laminated core.

To achieve this object, shoulders, for example in the form of discs, are formed on both sides of the laminated core in order to realize a stop. The discs are in particular connected via a frictional connection or a form fit with the remaining part of the rotor in order to clamp the laminated core in the axial direction. The compound can be realized according to the invention by means of various mechanisms. So offers a screw connection per disc. Alternatively riveting is possible. It is also possible to fix the disks to one another with screws or with a screw-nut connection.

The invention will be explained in more detail by means of a figure. This shows:

1 shows a sectional drawing through a part of the electric machine according to the invention.

The figure is merely schematic in nature and is for the sole purpose of understanding the invention. 1 shows an electric machine 1 for use in a drive train of a hybrid motor vehicle. It has a stator 2 and a rotor 3 arranged radially within it. The stator 2 and the rotor 3 are prepared to cooperate according to the operation of an electric motor. A laminated core 4 with preferably soft magnetic properties is rotatably connected to the rotor 3. The laminated core 4 is laminated, for example, and configured in isolation in order to be able to transmit electrical energy efficiently.

The rotor 3 has a first axial stop 5, which is in contact with the laminated core 4. A second axial stop 6 is seen in the axial direction, which runs along a rotation axis 7, arranged on the other side of the rotor 3. Thus, a jamming of the laminated core 4 is made possible.

In the embodiment in Fig. 1, both the first stopper 5, and the second stop 6 is formed as a bearing plate 8. This contact washer 8 has an end face 9, which is prepared to be in contact with the laminated core 4. The end face 9 of the at least one stop 5, 6 is thus to be designed in terms of their geometry, their surface finish and their choice of material such that the jamming of the laminated core can be reliably realized without affecting the laminated core itself in its electrical and mechanical properties.

Between the stator 2 and the rotor 3 or the laminated core 4, an air gap 10 is further formed. This has according to the invention seen in the direction of the axis of rotation 7, a constant height, since the inventively feasible deadlock ensures an orthogonal seizing of the laminated core 4.

Furthermore, a bush 1 1 is shown in Fig. 1, which is arranged between the contact disks 8 and the remaining rotor 3, to facilitate the fixing of the plant discs 8. Preferably, both abutment discs 8 are fixed to the remaining rotor 3 with the same attachment mechanism. Thus, in the present embodiment, two beech 1 1, which are arranged on the same axis.

List of Reference Electromachine

stator

rotor

laminated core

First axial stop

Second axial stop

axis of rotation

contact disc

face

air gap

Rifle

Claims

Patent claims

Electric machine (1) for use in a drive train of a hybrid motor vehicle, with a stator (2) and with a stator arranged within it for interaction with the stator

(2) provided rotor (3), which is prepared to carry a laminated core (4) in a torque-transmitting manner and which forms a first axial stop (5) for the laminated core (4), characterized in that the rotor

(3) has a second axial stop (6) which lies on the opposite side of the first axial stop (5).

Electric machine according to claim 1, characterized in that the first axial stop (5) and the second axial stop (6) are prepared for the laminated core

(4) to jam in an axial direction.

Electric machine according to one of claims 1 or 2, characterized in that the first axial stop

(5) and/or the second axial stop (6) are designed as contact disks (8).

Electric machine according to one of claims 1 to 3, characterized in that the at least one axial stop (5,

6) is connected to the rotor (3) by means of a non-positive and/or positive connection.

Electric machine according to claim 4, characterized in that the connection is carried out via a screw connection or a rivet connection.

Electric machine according to one of claims 1 to 4, characterized in that the first axial stop (5) and the second axial stop (6) determine the position of the laminated core (4) in such a way that in a radial direction between the laminated core (4) and the stator (2) a in the axial direction of a A constant air gap (10) is formed from the first end face of the laminated core to a second end face.

7. Electric machine according to one of claims 3 or 4, characterized in that a bushing (1 1) is arranged between a fastening element causing the non-positive connection and the at least one contact disk (8).

8. Electric machine according to one of the preceding claims, characterized in that the axial stops (5, 6) are braced against one another.

9. Electric machine according to one of the preceding claims, characterized in that a contact surface between the laminated core (4) and at least one of the axial stops (5, 6) in the radial direction is formed over more than half the height of the laminated core (4) in the radial direction is.

10. Multiple clutch for a drive train of a hybrid vehicle with an electric machine (1) according to one of the preceding claims.