DE102009034398A1 - Operating unit for friction clutch, has receiving part which is mounted firmly opposite to housing around gearbox input shaft and has axially movable impingement part - Google Patents

Abstract

The operating unit (1) has a receiving part (3) which is mounted firmly opposite to a housing (4) around a gearbox input shaft and has an axially movable impingement part (7). A self centering roller bearing (10) is arranged firmly at the impingement part with a bearing ring (14) not rotating against the impingement part. A moment-limited anti-twist device (19) is arranged between the non-rotating roller bearing and the receiving part.

Description

The The invention relates to an actuating unit for a friction clutch with a self-centering roller bearing with the features of the preamble of claim 1.

Concentric Actuators arranged around a transmission input shaft are for example as so-called Zentralausrücker have become known in which a receiving part fixed to the housing, for example on Gearbox, is arranged and an axially displaceably received on this admission part the loading device of a friction clutch, for example a diaphragm spring, for operation the friction clutch is applied axially. The axial spacing of the imposition opposite The receiving part is mechanically via corresponding lever elements and / or hydrostatically by forming the actuating unit as a slave cylinder unit or Actuation of the lever elements by means of a slave cylinder.

The Using a self-centering roller bearing may look like one existing offset between the actuator and the loading device out. Here, the self-centering by a jamming of the radially limited displaceable, non-rotating bearing ring relative to the Recording at the admission part formed. Through the training of drag moments of the rolling bearing The non-rotating tends only by a frictional contact in the recording fixed bearing ring, for twisting against the receptacle, causing re Zentrierungsvorgänge associated with a corresponding wear of the self-centering are. There are therefore anti-rotation between the non-rotating bearing ring and the loading part, which prevent a rotation. There are frictionally engaged and positive fit acting anti-rotation known. When increasing the drag torque, in particular at low temperatures, there is the frictional against rotation Danger of slipping while with positive locking Verdrehsicherungen the risk of destruction of the rotation and damage the operating unit is not excluded is.

It Therefore, the task arises, an operating unit with a rotation to suggest that over the entire operating temperature range and with varying drag torques reliable is working.

The Task is solved by an actuating unit for one Friction clutch with one opposite a housing firm around a transmission input shaft mounted receiving part and a axially displaceable Beaufschlagungsteil on which a self-centering roller bearing with a radially limited displaceable, with respect to the loading member non-rotating bearing ring and one an impingement device the friction clutch acting, rotating bearing ring, fixed is arranged, wherein between the non-rotating bearing part and the receiving part arranged a torque-limited rotation is. Under a torque-limited rotation is a device to understand that until a given moment a twisting the non-rotating bearing ring against the biasing member prevented and if exceeded this predetermined moment securing the two parts to each other no longer upright and a rotation allows this to their protection.

The Anti-rotation can be provided in the sense of a slip clutch be that slips on reaching the given moment. Alternatively, you can a positive connection preferably between the receiving part or a this assigned component and the non-rotating bearing ring or a be provided this associated component, which upon reaching the predetermined moment away, as pushed away or switched off, is. Preference is given during the effective phase of the anti-rotation used the positive rotation, this is particularly effective in the presence of shock and vibration preserved.

In known manner, an actuating unit can be provided with an anti-rotation, which is formed of a circumferentially between the receiving part or a component associated therewith and the non-rotating bearing part or a component associated therewith tensioned coil spring. In this case, in an advantageous manner, an arrangement under axial bias, whereby the path differences of the axially to the receiving part displacing the actuation of the friction clutch Beaufschlagungsteils on which the rolling bearing and thus the non-rotating bearing ring is accommodated, are compensated. The non-rotating bearing ring may comprise a receptacle or guide for at least part of the winding of an energy storage in the form of, for example, a helical spring, at the end of which finds a support surface for support in the circumferential direction. The receptacle or guide may alternatively be provided in a component which is non-rotatably connected to the non-rotating bearing ring, for example by friction, form or material. The other end of the coil spring may be supported in a guide or recording of the receiving part in the circumferential direction, with an additional, rotatably connected to the receiving part, component, the recording or guide bil that can.

In an advantageous embodiment at least one of the two ends or both ends of the coil spring supported in the circumferential direction on a radially elastic stop. This one pivots when crossing the predetermined, acting on the rotation torque radially Outside and allows a rotation of the non-rotating bearing ring relative to the Recording, so that at high Schleppmomenten or even a blocking bearing, for example due to freezing at low temperatures, a deformation of the coil spring can be counteracted. When the drag torque is reduced again, it latches radially elastic stop after one revolution again behind the end the coil spring and forms the rotation again.

Of the radial stop can on the side of the non-rotating bearing ring and / or be provided on the receiving member, wherein in this Case the coil spring from the non-rotating bearing ring taken becomes. As a preferred embodiment has the arrangement of the radial elastic stop on not rotating bearing ring, or one attached to this Sleeve component, proved. The radially elastic stop is in an advantageous manner from an issued, at the free end angled tongue educated. This tongue can from an axial approach of an example be exhibited made of sheet metal component, for example from a sleeve component that connected to the receiving part or the non-rotating bearing ring is. Alternatively, at the non-rotating bearing ring a corresponding be provided axial approach. It can be the flared tongue axially surrounded by material of the axial extension from both sides, so issued axially spaced to a free end of the approach be. Alternatively, the tongue can be attached to a free end of the neck be exhibited, so that these flush with the free end of the axial approach concludes.

to Forming a sliding transition during one Displacement of the axial stop radially outward can with the radial elastic stop in contact contact passing end of the coil spring one radially outward inclined contact surface exhibit. In an advantageous manner, by the corresponding Design of the attack, for example by pre-bending the issued Tongue, a contact surface to the contact surface the coil spring end formed, the holding torque against the Coil spring for egg nen by the support and / or the other by one formed by the radial bias of the stopper Frictional contact between the contact surfaces is determined.

One particularly advantageous embodiment sees an operating unit before, in the formation of a hydrostatic slave cylinder, the receiving part from a ring cylinder arranged around the transmission input shaft is formed, the admission part in the form of an annular piston with the attached to this self-centering bearings axially displaceable absorbs.

The invention is based on the in the 1 to 4 illustrated embodiments explained in more detail.

there demonstrate:

1 a section through a designed as a hydrostatic Zentralausrücker actuator unit,

2 a detail of 1 with an anti-twist device,

3 the rotation of the 2 in view and

4 one to the 2 and 3 alternative embodiment of an anti-twist device.

1 shows an actuating unit 1 as arranged around a transmission input shaft, not shown hydrostatic Zentralausrücker 2 in partial section in operating position. The recording part 3 the operating unit 1 is as an annular housing 4 formed, which becomes a guide sleeve 5 is radially spaced, wherein between the two components 4 and 5 an annular pressure chamber 6 is formed, in which the admission part 7 the operating unit 1 as a ring piston 8th is accommodated axially displaceable. For sealing the pressure chamber 6 is between housing 4 , Guide sleeve 5 and ring pistons 8th one on the ring piston 8th attached U-ring seal 9 arranged. The ring piston 8th will, depending on the pressure chamber 6 axially displaced from the outside by means of a master cylinder or other pressure supply means pressure applied and acts on an unillustrated loading means of a friction clutch, also not shown by means of the rolling bearing 10 , The rolling bearing 10 may, depending on the configuration of the friction clutch, be designed as a retraction or disengagement camp. Is the friction clutch in the direction of actuation of the annular piston 8th imprinted friction clutch, it is a release bearing, since the rolling bearing 10 under axial load the friction clutch disengages. In a direction of actuation of the annular piston 8th Closing friction clutch is accordingly an engagement bearing.

The rolling bearing 10 is by means of recording around 11 on the ring piston 8th firmly recorded, for example, with the ring piston 8th introduced recesses 12 digs. The recording ring 11 is radially around the ring piston 8th arranged and has a front end of the annular piston 8th radially overlapping annular groove 13 in which the non-rotating bearing ring 14 against the action of an energy storage, such as a diaphragm spring 15 , is braced axially with radial play. The non-rotating bearing ring forms radially on the outside 14 a raceway for the rolling elements 16 which also forms a thrust bearing on the race of the rotating bearing ring 17 roll off. The rotating bearing ring 17 takes the thrust washer 18 on, which forms the abutment surface for the loading device of the friction clutch.

With an axial offset between the axis of rotation of the friction clutch and the axis of action of the annular piston 8th the non-rotating bearing ring shifts 14 against the action of the plate spring 15 on the rotation axis of the friction clutch, so that the entire rolling bearing 10 is set to the rotational axis of the friction clutch.

When drag torque occurs, the non-rotating bearing ring tends 14 to a rotation relative to the receiving ring 11 , A consequent wear of the bearing ring 14 , the plate spring 15 and or the recording ring 11 can lead to failure of the self-centering function of the rolling bearing 10 or the failure of the rolling bearing 10 to lead. It is therefore an anti-rotation device 19 to prevent the rotation of the bearing ring 14 opposite the receiving ring 11 intended. This is one with the axial approach 20 of the non-rotating bearing ring 14 tightly connected sleeve part 21 formed in which at a reception 22 an end 24 the coil spring 23 is included. The other end 25 is in one to a recording 26 trained axial approach of the housing 4 added. The sleeve part 21 is at the axial neck 20 shrunk, verkrallt, welded or otherwise recorded rotatably. In a further embodiment, sleeve part 21 and bearing ring 14 be formed in one piece.

The two ends 24 . 25 the coil spring 23 are created in the circumferential direction of stops not shown. 2 shows a part of the 1 with one in the sleeve part 21 provided radially elastic stop 27 for the end 24 the coil spring 23 , The end 24 the coil spring 23 is in the recording 22 by an axial approach 28 is formed, guided axially and radially. The radially elastic stop 27 is through the out of the axial approach 28 outstretched tongue 29 formed and forms a stop for the end 24 in the circumferential direction. When a certain drag torque of the rolling bearing is exceeded 10 ( 1 ), for example, frozen or otherwise blocked bearings 10 , becomes the non-rotating bearing ring 14 opposite the housing 4 ( 1 ) and thus the coil spring 23 turned up against its winding. To jump out of the coil spring 23 from the recording 22 To prevent, in this situation, the radial stop 27 back, that is, the tongue 29 shifts radially and allows the end 24 the coil spring 23 the assumption of a constant circumferential position, while that with the twisted under the drag torque bearing ring 14 ( 1 ) twisting sleeve part 21 at the end 24 rotates past. Returns the rolling bearing 10 returned to the normal state with smaller drag torque, twisted the sleeve part 21 until the stop of the end 24 at the again radially swinging stop 27 , To optimize the notching of the radial stop 27 is the end 24 the coil spring 23 with a radially tapered contact surface 30 provided with the complementary angled contact surface 31 the tongue 29 forms a frictional contact.

3 shows the sleeve part 21 in view with the at the edge of the axial approach 28 arranged tongue 29 that for the end 24 the coil spring 23 in the circumferential direction up to a predetermined moment of rotation of the sleeve part 21 against the action of the coil spring 23 acts as a stop.

4 shows an alternative embodiment of a sleeve part 32 at a distance from the free end of the axial extension 34 flared tongue 35 so that between the free end and the tongue 35 a continuous border 36 preserved.

1

operating unit

2

CSC

3

receiving part

4

casing

5

guide sleeve

6

pressure chamber

7

urging member

8th

annular piston

9

groove ring seal

10

roller bearing

11

receiving ring

12

recess

13

ring groove

14

bearing ring

15

Belleville spring

16

rolling elements

17

bearing ring

18

thrust washer

19

twist

20

axial approach

21

sleeve part

22

admission

23

coil spring

24

The End

25

The End

26

admission

27

Radial elastic stop

28

axial approach

29

tongue

30

contact surface

31

contact surface

32

sleeve part

34

axial approach

35

tongue

36

edge

Claims (11)

Actuating unit ( 1 ) for a friction clutch with a receiving part fixed to a housing fixed to a transmission input shaft ( 3 ) and an axially displaceable admission part ( 7 ) on which a self-centering rolling bearing ( 10 ) with a radially limited displaceable, with respect to the loading member ( 7 ) non-rotating bearing ring ( 14 ) and a pressurizing device of the friction clutch acting on a rotating bearing ring ( 17 ) is fixed, characterized in that between the non-rotating rolling bearing ( 10 ) and the receiving part ( 3 ) a torque-limited anti-twist device ( 19 ) is arranged. Actuating unit ( 1 ) according to claim 1, characterized in that the rotation ( 19 ) from a circumferentially between the receiving part ( 3 ) and the non-rotating bearing part ( 14 ) tensioned coil spring ( 23 ) is formed. Actuating unit ( 1 ) according to claim 2, characterized in that at least one end ( 24 ) of the coil spring ( 23 ) in the circumferential direction on a radially elastic stop ( 27 ) is supported. Actuating unit ( 1 ) according to claim 3, characterized in that the radially elastic stop ( 27 ) on the non-rotating bearing ring ( 14 ) or a sleeve part associated therewith ( 21 . 32 ) is provided. Actuating unit ( 1 ) according to claim 3 or 4, characterized in that the radially elastic stop ( 27 ) from an issued, angled at the free end tongue ( 29 . 35 ) is formed. Actuating unit ( 1 ) according to claim 5, characterized in that the tongue ( 29 . 35 ) from an axial approach ( 28 . 34 ) of the non-rotating bearing ring ( 14 ) or the sleeve part ( 21 . 32 ) is issued. Actuating unit ( 1 ) according to claim 6, characterized in that the tongue ( 35 ) axially spaced to a free end of the axial extension ( 34 ) is issued. Actuating unit ( 1 ) according to claim 6, characterized in that the tongue ( 29 ) at a free end of the approach ( 28 ) is issued. Actuating unit ( 1 ) according to one of claims 3 to 8, characterized in that with the radially elastic stop ( 27 ) coming into abutting contact ( 24 ) of the coil spring ( 23 ) a radially outwardly inclined contact surface ( 30 ) having. Actuating unit ( 1 ) according to one of claims 2 to 9, characterized in that the helical spring ( 23 ) axially between the non-rotating bearing ring ( 14 ) and the receiving part ( 3 ) is braced. Actuating unit ( 1 ) according to one of claims 1 to 10, characterized in that to form a hydrostatic Zentralausrückers ( 2 ) the receiving part ( 3 ) of a arranged around the transmission input shaft housing ( 4 ) with a guide sleeve ( 5 ), which forms the admission part ( 7 ) in the form of an annular piston ( 8th ) with the attached self-centering roller bearing ( 10 ) receives axially displaceable.