DE102012204140A1 - Torque transmission medium for use in drive train of motor vehicle, has spline teeth made of plastic, where spline teeth has multiple connecting components mutually complementary with external toothing and internal toothing - Google Patents

Abstract

The torque transmission medium (1) has spline teeth (2) made of plastic, where the spline teeth are manufactured by sheet metal forming process. The spline teeth has multiple connecting components (13,14) mutually complementary with external toothing (6) and internal toothing (5). A mounting flange (15,16) is formed for connection to one or more associated sub-assemblies (3,4). An independent claim is included for a method for manufacturing of connecting parts.

Description

The invention relates to a torque transmission device in a drive train of a motor vehicle and a method for producing these with two by means of a spline rotationally, play-free and under compensation of a misalignment connectable subaggregates.

Such torque transmission devices act after completion of the drive train as a functional unit. Before the final assembly of the drive train, however, these are divided into partial units, a partial unit, for example, as a torsional vibration damper fixedly connected to the crankshaft of an internal combustion engine and the other sub-unit can be formed as recorded on a transmission input shaft of a transmission such as dual clutch double clutch. When assembling the drive train, the internal combustion engine and the transmission are connected to each other by means of splines, wherein a connecting part of these are arranged on the first and another connecting part on the second sub-assembly and form a rotational lock with each other.

It has been shown that the axes of rotation of the sub-aggregates may have a slight angular offset, which lead to a wobbling movement in the spline that lead to distortion of this and wear. The introduction of a backlash in the spline can lead to rattling noises, especially during load changes and low load. From the WO 2007/000151 A2 is a spline known, in which two toothed elements are added with torsional backlash in an external toothing, which are braced against each other by means of a spring device in the circumferential direction. In this way, a biased play-prone spline, which is formed of a plurality of springs, and a plurality of toothed rings, so that the parts cost increases and a joining of the spline must be done by overcoming the spring means.

The object of the invention is the advantageous development of a torque transfer device with a two sub-units, where appropriate, while compensating for an angular offset of these connecting splines, in particular against the background of a reduction and simplification of the parts used and a method for producing such a spline.

The object is achieved by a torque transmission device in a drive train of a motor vehicle with two rotatably connected to each other by means of splines, play and compensating a misalignment subaggregates, the spline of two plastic and tool falling produced by a Blechumformverfahrens connecting parts with mutually complementary external teeth and internal teeth and each a mounting flange is formed for connection to the associated subassembly. By using two connecting rings manufactured according to the same manufacturing method, the connecting parts of the partial aggregates can be easily formed. For example, the flange of a torsional vibration damper for acting on the spring device can be made independent of the formation of the spline. This leads to a simple and cost-effective design of the flange on the one hand, on the other hand, the tool falling and in particular adapted to compensate for wobbling movements in the spline connection parts can be easily prepared and adapted to the requirement of the spline. In this way, the torque transmission device can be designed in a modular design, in which simply formed connection parts can each be provided with a connection piece adapted to the splines.

According to a preferred embodiment, the torque transmission device includes a first subassembly in the form of a torsional vibration damper with an output side flange and a second subassembly in the form of a wet or dry operated dual clutch with a housing part forming an input part, wherein the spline is disposed between the flange and housing member. The torque transmission device fulfills the function of a split flywheel, wherein the first flywheel is formed directly with the crankshaft and the second flywheel by the double clutch and the spline is disposed between them. This adjoins directly to the flange for secondary loading of the spring device, for example, over the circumference with single or multi-stage curve switched bow springs.

The connecting parts are by means of their radially opposite the axes of rotation of the subaggregates extending mounting flanges also radially aligned areas of the subaggregates, for example, applied to the flange of the torsional vibration damper or a molded sheet metal housing component of the double clutch and preferably riveted together in the axial direction. This can be achieved in an advantageous manner by axial overlapping arrangement of the inner and outer teeth of the connecting parts of the spline against the inner periphery of the flange space advantages. The Mounting flanges can be arranged on the opposite sides of the flange and the housing member, on the sides facing each other or mixed on a side facing away from and facing. In order to provide an axial space-saving radial overlap of the mounting flanges with the flange part or the housing component, in the region of the overlap flange part, housing member and / or the mounting flanges may be cranked in the axial direction.

According to a further advantageous embodiment of a torque transmission device inner and outer teeth of the spline and a pressure plate on the inner circumference at least partially overlap, so that here a space advantage can be achieved.

The production of both connecting parts made of sheet metal allows a complementary tooth engagement of the internal toothing of a connecting part in an external toothing of the other connecting part. By corresponding indentation of the teeth, for example by means of a cold reduction method in which, for example, sheet thicknesses of 2 mm are reduced to a thickness of 1.0 mm to 1.5 mm in the functional area of the toothing, mechanically similar properties can be provided on both connecting parts. For example, with the same wall thicknesses of the tooth flanks, both parts can have the same elastic behavior, wear behavior and the like with regard to their deformation behavior during wobbling movements generated by an angular offset of the partial aggregates. Furthermore, by matching the teeth of the connecting parts to each other light assembly forces in the formation of the spline can be achieved without having to provide a circumferential clearance in the teeth. In this regard, rattling noises in the gearing can be avoided without having to provide a separate biasing device. At the connecting parts may have to facilitate assembly as training of the spline particular to avoid tooth-on-tooth positions and easier centering of the connecting parts corresponding to each other import chamfers.

Particularly advantageous for enabling a tumbling motion without high and thus wear-intensive and economically uneconomical training of elastic deformation of the teeth of the connecting parts, the tooth flanks of the external teeth and the internal teeth of the connecting parts against each other in the circumferential direction play-free form and in the axial direction between complementary tooth tips and tooth reasons at least one Partial area radial clearance and / or between the tooth flanks axially spaced from the contact surfaces provide a circumferential clearance. It has proven to be particularly advantageous if the surfaces of the toothing forming at least one of the two connecting parts in the axial direction are of spherical design. Due to the crowned in the axial direction training the teeth of the connecting parts roll selectively from each other or on small contact surfaces, which are axially displaced depending on the wobbling motion and result in a particularly advantageous manner an involute-shaped agitation of the teeth successive about the rotation angle with existing axial offset of the two partial units. As a result, a particularly low-wear and consumption-friendly design of the spline is achieved by means of tool-connecting parts. It has proven to be advantageous to limit the game between the tooth roots and teeth at a central abutment on the ball, for example, at a free end of the teeth to a few tenths of a millimeter, for example, between 0.1 mm and 0.4 mm.

In a simplified construction, the game can be set at a free end of at least one of the two connecting parts, so that when there is a wobbling movement, the quasi elastic material to be deformed is recessed at least in this area between the teeth of a connecting part and the tooth bases of the other connecting part.

It has also proved to be advantageous, the one centrifugal pendulum forming and / or the spring means of a torsional vibration damper such as dual mass flywheel on the output side acting flange with the connecting part with the internal teeth to form the spline integrally and tool falling trainees, so that the connecting part is saved as a separate component and thus Both manufacturing and divisional administration costs can be saved.

The object is further achieved by a method for producing connecting parts with an internal or external toothing of the proposed torque transmission device, wherein the connecting parts are produced by pulling a pot from a sheet metal blank and in the periphery of the pot, the inner or outer toothing by means of a Kaltreduzierverfahrens be embossed. For this purpose, the thermoforming mandrel may already contain the engraving for the inner circumference of the connecting part. The cold reduction step is carried out by complementary embossing rollers which impress the corresponding inner or outer toothing by rolling in the circumferential direction.

The invention is based on the in the 1 to 6 illustrated embodiments explained in more detail. Showing:

1 a partial section through a torque transfer device with a spline with two deep-drawn fasteners,

2 a partial section through a torque transmitting device with respect to the 1 modified spline,

3 a partial section through a torque transmitting device with respect to the 1 and 2 modified spline,

4 one in the torque transmitting devices of 1 to 3 usable spline in partial section through internal and external splines,

5 a partial section through the axis of rotation of a spline in the non-assembled state and

6 a partial section through a torque transmission of the 1 to 5 similar torque transmitting device with the difference of a one-piece design of flange and connector.

1 shows a partial section through the torque transmitting device 1 coming from the means of the spline 2 together rotationally connected sub-aggregates 3 . 4 is formed. The partial aggregates 3 . 4 rotate each about its own axes of rotation x, y, which are arranged coaxially to each other in the ideal case and - as shown in the above - can have an angular offset d. The angular offset d leads to the spline 2 to a wobbling motion through the spline 2 must be compensated. These are the internal teeth 5 and the external teeth 6 - as in the 4 and 5 explained - provided with a radial play.

In the embodiment shown, the partial unit 3 as a torsional vibration damper 7 with the entrance part 8th , the circumferentially effective spring device 9 and the effective as an output part flange 10 educated. The entrance part 8th is connected as a primary flywheel with a crankshaft of an internal combustion engine and acts on the spring means 9 on the input side, while this from the flange 10 output is applied. That as a double clutch 11 with the housing component 12 and the axially spaced pressure plate 17 trained partial unit 4 acts through the rotational connection of the spline 2 as a secondary flywheel, so that the torque transmitting device 1 Overall, the function as a split flywheel met.

For manufacturing reasons, before the final assembly of the torque transmission device 1 equipped powertrain the sub-unit 3 on the crankshaft of an internal combustion engine and the sub-assembly 4 taken on a transmission input shaft of a transmission. The spline 2 forms the rotational interface between the two sub-aggregates 3 . 4 , For this purpose, the spline 2 from the tool falling from sheet formed connecting parts 13 . 14 with the internal toothing 5 and the external teeth 6 and the mounting flanges 15 . 16 educated. external teeth 6 and internal teeth 5 are by means of a cold reduction process of the connecting parts 13 . 14 shaped. The connecting parts 13 . 14 are by means of their radially oriented mounting flanges 15 . 16 with radial portions of the flange portion 10 or of the housing component 12 by means of riveting 18 . 19 connected. In the embodiment shown, the arrangement of the mounting flanges takes place 15 . 16 each on the opposite sides of the flange 10 or of the housing component 12 , This allows the at the connecting part 13 arranged internal toothing 5 radially inside and the flange part 10 be arranged overlapping, so that the rotation with the at the connecting part 14 the spline 2 arranged external toothing 6 for example, for reasons of a more uniform load on the connecting part 13 and the flange part 10 and a smaller space of the spline 2 at the axial height of the inner periphery of the flange 10 can be done.

2 shows the torque transmission device 1 of the 1 similar torque transmitting device 1a with modified splines 2a , In contrast to the spline 2 of the 1 is the spline 2a from connecting parts 13a . 14a formed, whose mounting flanges 15a . 16a on the mutually facing sides of the flange 10a and the housing component 12a are arranged. In addition, the external teeth 6a at the connecting part 13a and the internal teeth 5a at the connecting part 14a arranged. The riveting 18a of the flange part 10a with the connecting part 13a takes place outside the riveting 19a of the connecting part 14a with the housing component 12a , This measure allows an axially overlapping arrangement of the teeth between internal teeth 5a and external teeth 6a radially within the inner circumference of the pressure plate 17a the double clutch 11a ,

The 3 shows a further advantageous embodiment of the Torque transfer device 1b with one opposite the splines 2 . 2a of the 1 and 2 changed splines 2 B , In this embodiment, the out of the internal toothing 5b and the external teeth 6b formed rotational interlocking teeth of the connecting parts 13b . 14b radially inside the flange part 10b and this arranged axially overlapping. This is the case with the housing component 12b connected connection part 14b with the external teeth 6b provided, this radially outside the riveting 19b is provided with the housing member while the riveting 18b of the connecting part 13b radially outside the internal toothing 5b with the flange part 10b connected connection part 13b is arranged. To increase the axial overlap of the teeth with the flange 10b is the mounting flange 15b of the connecting part 13b on the housing component 12b opposite side of the flange 10b and the mounting flange 16b of the connecting part 14b at the flange part 10b facing side of the housing component 12b arranged.

4 shows a section through the internal toothing 5c and the external teeth 6c the spline 2c as used in torque transmission devices, for example 1 . 1a . 1b of the 1 to 3 can be used. To compensate for wobbling between the internal teeth 5c and the external teeth 6c with backlash-free rotation between the tooth flanks 20 . 21 the complementary interlocking teeth 22 the spline 2c are in a predetermined position of the internal teeth 5c to external teeth 6c contact surfaces 23 . 24 between the tooth flanks 20 . 21 educated. The contact surfaces 23 . 24 enclosing rolling surfaces 25 . 26 . 27 . 28 form apart from the contact surfaces 23 . 24 between the tooth flanks 20 . 21 and the tooth heads 31 and tooth reasons 32 game 29 . 30 out. In the embodiment shown, the game is 29 . 30 by a spherical formation of the rolling surfaces 25 . 28 the external toothing 6b formed over the axial extent. Here are the rolling surfaces 26 . 27 the internal toothing 5c formed substantially flat in the axial direction, so that during a tumbling motion, the contact surfaces 23 . 24 axially migrate and thus the internal teeth 5c on the external teeth 6c can roll, so that an involute movement approximated and reduced in terms of drilling friction movement of the contact surfaces 23 . 24 is formed during wobbling movements.

5 shows the opposite of the spline 2c of the 4 changed spline 2d with the internal teeth 5d carrying connection part 13d and the external teeth 6d carrying connection part 14d in unassembled condition. In contrast to the spline 2c are the rolling surfaces 25a . 28a the internal teeth formed in the axial direction substantially planar, while the rolling surfaces 26a . 27a are formed spherically in the axial direction, as shown in 5 oversubscribed. A tumbling movement is after successful joining of the connecting parts 13d . 14d through the rolling surfaces 25a . 26a . 27a . 28a varying rolling and formation of circumferentially play-free contact surfaces between the connecting parts 13d . 14d in the same way as in the spline 2c achieved.

6 shows the upper part of the arranged around the rotation axis x torque transmitting device 1c in partial section. Unlike the torque transfer devices 1 . 1a . 1b of the 1 to 5 is on the flange part 10c the connecting part 13c with the internal toothing 5e recorded in one piece. The connecting part 14c with the external teeth 6e is as a ring part radially within the spline 2e with the mounting flange 16c connected as shown here by means of riveting 19c riveted. In further embodiments may also be a with the mounting flange 16c similar mounting flange to be integrally formed with a connecting part. For example, by axial folding in the direction of the flange 10c and forming a corresponding external toothing of the inner periphery of such a mounting flange, for example, by deep drawing and axial curling of the external teeth a one-piece design of the connecting part 14c and the mounting flange 16c be achieved.

LIST OF REFERENCE NUMBERS

1

 Torque transfer device

1a

 Torque transfer device

1b

 Torque transfer device

1c

 Torque transfer device

2

 splines

2a

 splines

2 B

 splines

2c

 splines

2d

 splines

2e

 splines

3

 part aggregate

4

 part aggregate

5

 internal gearing

5a

 internal gearing

5b

 internal gearing

5c

 internal gearing

5d

 internal gearing

5e

 internal gearing

6

 external teeth

6a

 external teeth

6b

 external teeth

6c

 external teeth

6d

 external teeth

6e

 external teeth

7

 torsional vibration dampers

8th

 introductory

9

 spring means

10

 flange

10a

 flange

10b

 flange

10c

 flange

11

 Double coupling

11a

 Double coupling

12

 housing component

12a

 housing component

12b

 housing component

13

 connecting part

13a

 connecting part

13b

 connecting part

13d

 connecting part

13e

 connecting part

14

 connecting part

14a

 connecting part

14b

 connecting part

14d

 connecting part

14e

 connecting part

15

 mounting flange

15a

 mounting flange

15b

 mounting flange

16

 mounting flange

16a

 mounting flange

16b

 mounting flange

16c

 mounting flange

17

 pressure plate

17a

 pressure plate

18

 clinch

18a

 clinch

18b

 clinch

19

 clinch

19a

 clinch

19b

 clinch

19c

 clinch

20

 tooth flank

21

 tooth flank

22

 tooth

23

 contact area

24

 contact area

25

 rolling surface

25a

 rolling surface

26

 rolling surface

26a

 rolling surface

27

 rolling surface

27a

 rolling surface

28

 rolling surface

28a

 rolling surface

29

 game

30

 game

31

 addendum

32

 tooth root

d

 angular displacement

x

 axis of rotation

y

 axis of rotation

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

• WO 2007/000151 A2 [0003]

Claims (10)

Torque transmission device ( 1 . 1a . 1b . 1c ) in a drive train of a motor vehicle with two with each other by means of a spline ( 2 . 2a . 2 B . 2c . 2d . 2e ) rotationally locked, backlash-free and under compensation of an axial offset connectable sub-aggregates ( 3 . 4 ), characterized in that the spline ( 2 . 2a . 2 B . 2c . 2d . 2e ) made of two plastically and tool falling by means of a Blechumformverfahrens connecting parts ( 13 . 13a . 13b . 13d . 13e . 14 . 14a . 14b . 14d . 14e ) with mutually complementary external toothing ( 6 . 6a . 6b . 6c . 6d . 6e ) and internal teeth ( 5 . 5a . 5b . 5c . 5d . 5e ) and one mounting flange each ( 15 . 15a . 15b . 16 . 16a . 16b . 16c ) for connection to the associated subassembly ( 3 . 4 ) is formed. Torque transmission device ( 1 . 1a . 1b . 1c ) according to claim 1, characterized in that rolling surfaces ( 25 . 25a . 26 . 26a . 27 . 27a . 28 . 28a ) of external teeth ( 6 . 6a . 6b . 6c . 6d . 6e ) and the internal toothing ( 5 . 5a . 5b . 5c . 5d . 5e ) of the connecting parts ( 13 . 13a . 13b . 13d . 13e . 14 . 14a . 14b . 14d . 14e ) against each other at contact surfaces ( 23 . 24 ) of the internal toothing ( 5 . 5a . 5b . 5c . 5d . 5e ) and external teeth ( 6 . 6a . 6b . 6c . 6d . 6e ) are formed without play and in the axial direction between the rolling surfaces ( 25 . 25a . 26 . 26a . 27 . 27a . 28 . 28a ) over a subarea game ( 29 . 30 ) is provided. Torque transmission device ( 1 . 1a . 1b . 1c ) according to claim 2, characterized in that rolling surfaces ( 25 . 26a . 27a . 28 ) for forming the contact surfaces ( 23 . 24 ) at least one of the two connecting parts ( 13 . 13a . 13b . 13d . 13e . 14 . 14a . 14b . 14d . 14e ) are formed spherical at least in the axial direction. Torque transmission device ( 1 . 1a . 1b . 1c ) according to claim 3, characterized in that the game ( 29 . 30 ) at a free end of at least one of the two connecting parts ( 13 . 13a . 13b . 13d . 13e . 14 . 14a . 14b . 14d . 14e ) is set. Torque transmission device ( 1 . 1a . 1b ) according to one of claims 1 to 4, characterized in that a partial aggregate ( 3 ) a torsional vibration damper ( 7 ) with an output-side flange part ( 10 . 10a . 10b . 10c ) and another partial aggregate ( 4 ) a double clutch ( 11 . 11a ) with a housing part forming an input part ( 12 . 12a . 12b ) and the spline ( 2 . 2a . 2 B . 2c . 2d . 2e ) between flange part ( 10 . 10a . 10b . 10c ) and housing component ( 12 . 12a . 12b ) is arranged. Torque transmission device ( 1 . 1b ) according to claim 5, characterized in that the axially overlapping inner and outer teeth ( 5 . 6 ; 5a . 6b ; 5e . 6e ) the flange part ( 10 . 10b . 10c ) axially at least partially overlaps. Torque transmission device ( 1a ) according to claim 5, characterized in that the axially overlapping inner and outer teeth ( 5a . 6a ) a pressure plate ( 17a ) of the double clutch ( 11a ) overlaps at least partially axially. Torque transmission device ( 1c ) according to one of claims 1 to 6, characterized in that the internal toothing ( 5e ) in one piece on the flange part ( 10c ) is recorded. Torque transmission device according to one of claims 1 to 6, 8, characterized in that the external toothing is received in one piece on the mounting flange. Method for producing connecting parts ( 13 . 13a . 13b . 13d . 13e . 14 . 14a . 14b . 14d . 14e ) with an inner or outer toothing ( 5 . 5a . 5b . 5c . 5d . 5e . 6 . 6a . 6b . 6c . 6d . 6e ) a torque transmission device ( 1 . 1a . 1b . 1c ) according to one of claims 1 to 7, characterized in that pulled out of a sheet metal sheet a pot and in the circumference of the pot, the inner or outer toothing ( 5 . 5a . 5b . 5c . 5d . 5e . 6 . 6a . 6b . 6c . 6d . 6e ) is impressed by means of a cold reduction method.

Images