DE102012204774A1 - Electric machine assembly of motor vehicle, has stator which is supported on housing via annular stator carrier that is inserted into receiving opening of hybrid housing - Google Patents

Abstract

The assembly has an electric machine (5) arranged in a hybrid housing (2) of housing (1). A stator (6) is supported on the housing via annular stator carrier (9). The annular stator carrier is inserted into the receiving opening of the hybrid housing. The stator carrier is connected to the hybrid housing over an interference fit and lot seat.

Description

The invention relates to an arrangement of a stator having an electric machine according to the preamble of claim 1.

By the DE 10 2008 002 443 A1 The applicant has been known an arrangement of an electric machine between a transmission housing and a hybrid housing, wherein the stator of the electric machine by a stator, which is clamped between the hybrid and gear housing, is held. The hybrid housing is arranged between an internal combustion engine of the motor vehicle and the transmission housing. The electric machine has a rotor which is connected to a transmission shaft. The torque (reaction torque) of the electric machine is frictionally supported on the hybrid and transmission housing.

Based on this prior art, it is an object of the present invention to provide a favorable arrangement with respect to the installation space of the electric machine in the housing.

The object of the invention is solved by the features of claim 1. Advantageous embodiments emerge from the subclaims.

According to the invention it is provided in an arrangement of the type mentioned that the stator is designed as an annular carrier, which on the one hand comprises the stator on the circumference and on the other hand is inserted into a receiving opening of the hybrid housing. Thus, the advantage is achieved that the stator does not have to be clamped between the hybrid and gearbox housing, resulting in a space shortage in the axial direction and a simplification for the connection of hybrid and gearbox housing. The annular support practically forms a jacket for the stator and is integrated as such in the hybrid housing, resulting in a compact design even in the radial direction.

In a preferred embodiment, the annular support is over an interference fit with the hybrid housing, i. connected to the inner wall of the receiving opening. The interference fit is on the open side of the receiving opening, i. the side which faces the gear housing and is also called output side - in contrast to the side facing away from the gear housing, which is also called the drive side. Fixed seat should mean here that between the outer circumference of the carrier and the inner circumference of the receiving opening an interference fit is provided, which has a pressing result and thus precludes a radial play. The press fit is designed so that at least part of the reaction torque of the electric machine is transferred to the hybrid housing in the cold state of the transmission.

According to a further preferred embodiment, the carrier is connected to the transmission housing via a Lossitz, which preferably on the drive side, i. the transmission housing facing away from the side of the carrier is arranged. The Lossitz is dimensioned so that on the one hand a radial clearance to compensate for thermal expansion between the carrier and hybrid housing available and on the other hand, an axially directed relative movement between the carrier and hybrid housing is possible.

According to a further preferred embodiment, a cooling channel is arranged between the Lossitz and the interference fit, which is flowed through by a coolant and the cooling of the stator is used. The cooling channel is formed in the carrier and outwardly to both sides, i. sealed against the atmosphere via sealing elements, preferably O-rings.

According to another preferred embodiment, the cooling channel is formed on its outer periphery by the circumference of the receiving opening, i. limited by the hybrid housing. As a result, the cooling channel can be easily formed from the carrier or easily produced by forming or cutting machining. This also reduces the production costs. Finally, there is also the advantage that additional radial space is obtained.

According to a further preferred embodiment, the carrier is fixedly connected to the front side of the hybrid housing, wherein a screw is considered as a preferred solution. By this frontal attachment, preferably gland, the carrier receives a fixed bearing relative to the hybrid housing, i. between the wall of the receiving opening and the support temperature-related relative movements can take place in the axial direction. The tight fit at the output end is designed so that relative movements are permitted in this area, without the seat is damaged. Relative movements in the radial direction are possible in the region of the Lossitzes due to a small radial clearance.

According to a further preferred embodiment, the carrier on the front side an elastically formed Verschraubungshals, which receives the plugged through the hybrid housing bolts. Due to the frontal bracing of the carrier and hybrid housing, a frictional connection between the two parts is produced, via which the reaction torque, ie the predominant part of the Statormoments is transmitted. As mentioned, a small part of the torque is also transmitted via the interference fit at low operating temperatures. Due to the elastic design of the screw neck is achieved that the tension, ie the adhesion between the carrier and hybrid housing over the entire temperature range is maintained.

According to a further preferred embodiment, a flange is arranged radially outside of the carrier and the receiving opening of the hybrid housing, through which the transmission housing and the hybrid housing are directly connected. The clamping of a stator - as in the prior art - is omitted here, so on the one hand, a shortening of the length and on the other hand simplify the assembly in the connection of hybrid and gearbox. The stator is thus already mounted in the hybrid housing when it is fitted over the flange with the gear housing.

According to a further preferred embodiment, the flange or the flange plane is arranged in the region of the radial extent of the carrier, in particular of the cooling channel. This results in a stocky construction in the axial and radial direction.

An embodiment of the invention is illustrated in the drawing and will be described in more detail below, which may result from the description and / or the drawing further features and / or advantages. Show it

1 a section of a hybrid housing for receiving an electric machine and

2 an enlarged section 1 with the arrangement of the stator in the hybrid housing.

1 shows a housing 1 (Overall housing), which is a hybrid housing 2 and a partially illustrated transmission housing 3 includes. hybrid housing 2 and gearbox 3 , which receives a motor vehicle transmission, not shown, are via a flange in the flange plane 4 clamped together by not shown screw elements. The hybrid housing 2 , which is part of a hybrid module for driving a motor vehicle, takes an electric machine 5 on which a stationary arranged stator 6 and a rotor 7 includes, which with a transmission shaft 8th rotatably connected. The stator 6 is in a ring-shaped stator, in short carrier 9 called, received, ie, preferably via a press fit rotationally fixed to the carrier 9 connected. The carrier 9 with the stator 6 is in the hybrid case 2 used and firmly connected to this, as based on 2 is explained in more detail.

2 shows an enlarged section of the arrangement of the stator 6 in a hybrid housing 2 , The stator 6 is - as mentioned - with interference fit in a bore of the annular support 9 used and thus firmly with the carrier 9 connected. The hybrid housing 2 has a flange 2a on which with a flange 3a of the gearbox 3 in the flange plane 4 connected is. Radial inside of the two flanges 2a . 3a existing flange extends in the axial direction as a neck 2 B molded section of the hybrid housing 2 which has an approximately cylindrical receiving opening 10 having. The receiving opening 10 is preferably formed as a stepped bore with different diameters. In this receiving opening 10 is the carrier 9 used, the carrier 9 two areas, one as a losing seat 11 designated drive side area - left in the drawing - and one as a tight fit 12 designated, output-side area - in the drawing right - has. The Lossitz 11 denotes a region where between the outer circumference of the carrier 9 and the inner periphery of the receiving opening 10 a radial play is left, so that relative movements between carrier 9 and hybrid housing 2 possible are. The tight seat 12 denotes an area with an interference fit, ie without a radial clearance. Nevertheless, this tight fit is such that relative movements between the wearer 9 and the housing neck 2 B in the axial direction due to temperature influence are possible. The carrier 9 is preferably made of steel while the hybrid housing 2 and the housing neck 2 B are made of an aluminum material. Different elongations are thus by the tight fit 12 not disabled. The carrier 9 has on its drive-side front end an elastically formed Verschraubungshals 9a on which front side of the hybrid housing 2 abuts and on its circumference a variety of threaded holes 9b having. In the threaded holes 9b are bolts 13 screwed, which the hybrid housing 2 enforce and thus the carrier 9 with the hybrid housing 2 tense. The elastic fitting neck 9a has an end face 9c on, which is opposite a plane surface of the hybrid housing 2 frictionally clamped so that in this area one from the stator 6 applied reaction moment over the carrier 9 on the hybrid housing 2 can be transferred. This results in a support of the reaction torque of the stator 6 , At the same time it forms over the bolt 13 with the hybrid housing 2 firmly clamped neck 9a a fixed bearing for the carrier 9 , For operational thermal expansions and consequent relative movements between the carrier 9 and the hybrid housing 2 acts as the so-called tight seat 12 therefore as a floating bearing in the axial direction.

Between loss seat 11 and tight fit 12 instructs the wearer 9 a cut-out approximately rectangular in cross-section recess, which with the receiving opening 10 an annular cooling channel 14 forms. The cooling channel 14 , which to the outside, ie the air side through sealing elements 15 . 16 , Preferably, O-rings is sealed, is of a coolant of a cooling system for the electric machine 5 flow through. An unillustrated coolant inlet and a corresponding coolant outlet are separated from each other by a partition, not shown, so that a coolant flow in the circumferential direction is made possible.

The assembly takes place in such a way that first the stator 6 the electric machine 5 with interference fit into the bore of the carrier 9 is used. Subsequently, the carrier 9 in the receiving opening 10 of the hybrid housing 2 inserted and by a bolt 13 frontally with the hybrid housing 2 braced. After that, the hybrid housing 2 over the flange 2a with the flange 3a of the gearbox 3 get connected.

LIST OF REFERENCE NUMBERS

1

Housing (overall housing)

2

hybrid housing

2a

flange

2 B

neck

3

gearbox

3a

 flange

4

flange plane

5

Electric machine

6

stator

7

rotor

8th

gear shaft

9

carrier

9a

Verschraubungshals

9b

threaded hole

9c

face

10

receiving opening

11

loose fit

12

tight fit

13

bolts

14

cooling channel

15

sealing element

16

sealing element

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 102008002443 A1 [0002]

Claims (10)

Arrangement of a stator ( 6 ) having electrical machine ( 5 ) in a hybrid housing ( 2 ) and a transmission housing ( 3 ) comprehensive housing ( 1 ) of a motor vehicle, wherein the stator ( 6 ) via a stator carrier ( 9 ) on the housing ( 1 ) is supported, characterized in that the stator as an annular, the stator ( 6 ) receiving carrier ( 9 ) is formed, that the hybrid housing ( 2 ) a receiving opening ( 10 ) and that the annular support ( 9 ) with the stator ( 6 ) into the receiving opening ( 10 ) is used. Arrangement according to claim 1, characterized in that the carrier ( 9 ) with the hybrid housing ( 2 ) via a tight fit ( 12 ) connected is. Arrangement according to claim 1 or 2, characterized in that the carrier ( 9 ) with the hybrid housing ( 2 ) over a Lossitz ( 11 ) connected is. Arrangement according to claim 2 or 3, characterized in that between the Lossitz ( 11 ) and the tight seat ( 12 ) a cooling channel ( 14 ) is arranged. Arrangement according to claim 4, characterized in that the cooling channel ( 14 ) radially outward through the hybrid housing ( 2 ) respectively the receiving opening ( 10 ) is limited. Arrangement according to claim 4 or 5, characterized in that the cooling channel ( 14 ) via sealing elements ( 15 . 16 ) between carriers ( 9 ) and hybrid housing ( 2 ) is sealed to the outside. Arrangement according to one of claims 1 to 6, characterized in that the carrier ( 9 ) frontally fixed to the hybrid housing ( 2 ) connected is. Arrangement according to claim 7, characterized in that the carrier ( 9 ) a frontally arranged, elastically formed Verschraubungshals ( 9a ) having. Arrangement according to one of claims 1 to 8, characterized in that the hybrid housing ( 2 ) and the transmission housing ( 3 ) via flanges ( 2a . 3a ), which radially outwardly of the annular support ( 9 ) are arranged directly connected to each other. Arrangement according to claim 9, characterized in that the flanges ( 2a . 3a ) including a flange plane arranged between them ( 4 ) within the axial extent of the carrier ( 9 ) are arranged.

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