DE10033482B4 - axial setting - Google Patents

Abstract

Axial adjustment device in a housing (30) - in particular for actuating a multi-plate clutch, the friction plates of which are alternately non-rotatably and axially displaceably connected to one and the other of two mutually rotatable parts and which rest against an axially fixed support disc and can be acted upon by an axially displaceable pressure disc - full
- A rotatably mounted adjusting disc (11) which is installed axially fixed in the housing and can be driven in rotation,
A thrust washer (17) held in the housing, which is held in a rotationally fixed manner by anti-rotation means arranged in the housing and is axially displaceable in the housing,
- Ball groove configurations (22, 28) with opposing slopes in the mutually facing surfaces of the adjusting disc (11) and the thrust washer (17), which are assigned to each other in pairs in the circumferential direction and each jointly accommodate a ball (23) and its depth over the circumference is changeable, and
- Rotary drive means used in the housing for the adjusting disc (11), characterized in that the ...

Description

The invention relates to an axial adjustment device in one housing - in particular for actuation a multi-plate clutch, the friction plates alternate with one and, the other two parts rotatable relative to one another in a rotationally fixed and are axially displaceably connected and which are axially fixed support disc create and acted upon by an axially displaceable thrust washer are - comprehensive one rotatable in the housing mounted adjusting disc, which is installed axially fixed in the housing is and can be driven in rotation, a thrust washer arranged in the housing, that of in the case arranged anti-rotation means is held against rotation and axially opposite the shaft is displaceable, ball groove configurations with opposite slopes in the mutually facing surfaces of the adjusting disc and the thrust washer, which extend in pairs in the circumferential direction are assigned and each collect a ball and its Depth over the scope is variable is, and in the housing Rotary drive means used for the adjusting disc.

Adjustment devices of the above Kind in combination with the mentioned Multi-plate clutch are in different embodiments and for different use cases known.

In the DE 38 15 225 C2 describes such a device which is integrated in a bevel gear differential. The adjusting disk is in this case driven directly by a conical pinion which engages in a bevel gear toothing on the adjusting disk.

From the DE 40 07 506 C1 a device of the type mentioned is known, which is used in a manual transmission. The drive means for the adjusting disk here include the bleaching parts as mentioned above, but additionally a spur gear reduction gear.

The DE 41 06 503 C1 relates to a further development of the last-mentioned use case. Here, the anti-rotation means for the thrust washer are recognizable, which consist of a tongue and groove arrangement, the tongue being connected to a part of the housing fixed to the housing and the groove being designed as a single notch on the pressure disc.

From the EP 0 368 140 B1 Various applications for adjusting devices of the type mentioned are described and here it can be seen, inter alia, that the adjusting disk can have a worm or helical toothing on the circumference and the adjustment can be carried out by means of a worm driven by a motor and seated on the motor shaft.

In the former devices is the drive motor for the adjusting disc constantly keep under tension as long as a positive adjustment force is maintained shall be. This creates increased prompts to the engine capacity or requires an additional one Braking device on the engine. The latter device can only be equipped with non-self-locking rotary drives, since the device if possible should be built with little friction. Regardless of this, in the event of an accident Power failure caused by restoring forces returns the device due to the high friction in the trained as a worm gear Rotary drive means difficult. One by the relative rotation of the adjusting disk and thrust washer closed multi-plate clutch would in the event of an accident only hesitant with power failure released by the rotary drive means.

With the present invention a device of the latter type can be improved so that a quick Return from an assumed adjustment position of the device in the sense of a Reducing the travel range is possible with simple means. The solution therefor is that the Anti-rotation means are designed to be detachable from the thrust washer.

The usual mode of action exists in that in Normally an enlargement and Reduce the travel of the axial adjustment device by pressing the Rotary drive means takes place. These act on the rotating drivable Adjusting disc one over the balls acts on the rotatably held thrust washer, whereby the opposite Inclines the travel due to the relative rotation of the adjusting disc and determine thrust washer. The special mode of operation according to the invention exists additionally in that in accident or for special operating conditions a quick reduction of the travel independently from an actuation the rotary drive means takes place in that the thrust washer for rotation is released so that on opposing forces acting as thrust washers act as restoring forces, which are thereby reduced be that yourself the thrust washer freely opposite that of the rotary drive means held in rotation or 'only slowly driven Adjustment disc can turn, the direction of rotation opposite the opposite Slopes of the ball groove configurations is determined. The travel path the adjusting device is thereby automatically returned very quickly.

The anti-rotation device can be released as a security measure in an accident e.g. in the event of a power failure. However, they are also interpretations possible, where a loosening the anti-rotation means from the thrust washer for certain operating conditions is provided and, if necessary, can also be controlled positively can.

In a preferred embodiment, the anti-rotation means can be designed in such a way that they comprise an axially movable bolt oriented radially on the pressure plate, which can engage in notches on the circumference of the pressure plate in a first position and can extend radially out of the notches in a second position. The The bolt must be able to slide in the notches in the direction of the displacement of the thrust washer. In particular, the anti-rotation means can comprise an electromagnet, which acts on the bolt in its holding position, which holding position can be spring-assisted. In a particularly advantageous embodiment, it is provided that the free end of the bolt and the flanks of the notches on the circumference of the pressure disk form angles with the radial which are greater than the self-locking angle, so that when the electromagnet is de-energized under the influence of restoring forces on the pressure disk Bolt is automatically pushed out of its engaged position in one of the notches. In order to generate such restoring forces, it is provided in particular that a prestressed compression spring - in particular a plate spring - acts axially on the pressure disk in the direction of the adjusting disk.

The anti-rotation means can in executed in any other way In particular, instead of a form-fitting intervention, a friction-locking method of wedging are used, i.e. a braking device of any kind be provided. The adjustment of the anti-rotation means can Furthermore instead of electromagnetic, also hydraulically, pneumatically or in any other way be accomplished.

In a preferred embodiment for the Design of the rotary drive means proposed that on the outer space the adjusting disk is provided with worm or helical teeth and the existence Actuator, on the shaft one with the worm or helical toothing engaged snail sits is provided. In particular it is proposed that the Self-locking worm drive made from adjusting disc and worm is trained.

Because of the large gear ratios Worm drives are the driving forces that the servomotor applies must, low. A reduction gear is unnecessary. In order to switch the power off Actuator in an approached rotary position of the adjusting disc to be able to hold the worm gear is self-locking.

A return of the adjustment device due to restoring forces acting on the thrust washer cannot take place. nevertheless any adjustment position can be released without delay, by loosening the anti-rotation means from the thrust washer. The ball groove configurations between the adjusting disc and thrust washer lead here to turn back the thrust washer in the sense of an approximation to the adjusting washer.

This is an adjustment device given, due to a possible high translation in Worm gear adjustment with low driving forces is possible and due to the self-locking worm gear a set rotary position of the adjusting disc when the power is off Actuator can be kept permanently, as well as finally free return the thrust washer out of every positive despite the fixed adjusting disc Adjustment position possible is.

Other drive concepts for the rotary drive the adjustment disc are possible like crown gear, spur gear, chain drives, belt drives, Timing belt drives etc.

A preferred starting example the invention is illustrated in the drawings.

1 shows an adjustment arrangement according to the invention as a detail

• a) in axial view of the thrust washer
• b) in axial section;

2 shows an adjustment arrangement according to the prior art in connection with a friction clutch in a longitudinal section through the housing.

In 1 the shaft on which the arrangement is mounted in the housing is not shown, but the bearing means is opposite the shaft. The 1a and 1b are described together.

In 1 is an adjusting disc 11 with a radial bearing 12 for mounting on the shaft, not shown, and an axial bearing 13 shown for axial support against the shaft. The adjusting disc 11 has an external helical toothing or worm toothing 14 on that with a rotating drivable screw 15 is engaged. By means of this snail 15 is the adjusting disc 11 by a small angular amount compared to a housing 30 , in which the not shown shaft and the worm 15 are stored, rotatable. With a small axial distance to the adjusting disc 11 there is a thrust washer 17 in the housing 30 that axially on a thrust bearing 18 is present, via which it can act, for example, on a multi-plate clutch. Here can be between the multi-plate clutch and the thrust bearing 18 another thrust washer may be provided. Notches are on the outer circumference of the thrust washer 19 trained in with the housing 30 can interlock firmly connected anti-rotation devices.

In the facing end faces 21 the adjusting disc 11 and 27 the thrust washer 17 are each ball groove configurations 22 . 28 provided with opposite slopes, each together a ball 23 take up. At least two ball groove configurations 22 . 28 and bullets 23 are provided distributed over the scope. The thrust washer is over these ball groove configurations 17 at the same time radially and axially with respect to the adjusting disk 11 stored. The ball groove configurations change their depth in at least one of the disks over their circumference, so that the adjusting disk is twisted 11 for an axial displacement of the thrust washer 17 leads, insofar as this is held in the direction of rotation by means of the anti-rotation means.

The snail 15 sits on the wave 24 of an electric motor 25 that in the housing 30 is firmly arranged. The worm drive 14 . 15 is self-locking, so that when the electric motor is de-energized 25 the rotating position of the adjusting disc 11 is secured. The unlockable anti-rotation devices are provided by a bolt aligned radially to the shaft axis 20 formed by an electromagnet 26 in the engaged position of the bolt 20 in one of the notches 19 is held. The electromagnet 26 is also in the housing 30 firmly arranged. When the electromagnet is de-energized 26 can the bolt 20 be pushed radially outward into the release position by a compression spring, which engages the bolt in one of the fissures 19 releases. The thrust washer 17 is hereby freely rotatable and can, under the reaction of axial forces, from the multi-plate clutch by means of the ball groove configurations 22 . 28 and the bullets 23 run back into a rotational position in which they the adjusting disc 11 is axially approximate and the travel of the device is significantly reduced. The bolt 20 is conical at its front end or - if it is secured against rotation - wedge-shaped and acts with the flanks of the notch 19 together. The flanks of the notch 19 form an angle to the radial that is so large that no self-locking between the bolt and the flanks is effective. As soon as axial pressure acts on the thrust washer 17 Torsional forces on the thrust washer 17 are exercised, the flanks press the bolt 20 automatically in its release position. This provides the possibility of quick relief or of representing a safety circuit in which the axial adjustment forces of the adjustment device can be reduced as quickly as possible and the travel can be reduced as quickly as possible.

In 2 is an axial adjustment device according to the invention in cooperation with a friction clutch 31 shown. The friction clutch sits in a housing 30 and includes a clutch basket 33 that over a wave 34 and a shaft flange in the housing 30 is stored. A roller bearing is used for storage 36 , The clutch also includes a shaft 37 that are directly in the shaft journal 34 is stored. A needle bearing is used for storage 38 , Part of the clutch plates is with the clutch basket 33 , another part of the clutch plates with the shaft 37 connected. The clutch plate pack is supported at one end by a support plate 38 and at the other end through a thrust washer 39 limited. On the thrust washer 39 looks like a disc spring 40 that are on the shaft 37 supports and exerts restoring forces on the adjusting device. The adjustment device has only a slightly changed geometry in relation to the adjustment device 1 a thrust bearing 18 who have favourited the thrust washer 17 , the adjustment disc 11 , the radial bearing 12 and the other thrust bearing 13 recognizable. The latter thrust bearing 13 is supported by a disc 42 on the shaft 37 from. In this version the thrust washer 17 with means not shown, constantly with respect to the housing 30 against rotation. The adjusting disc 11 is about a reduction level 43 from an electric motor 25 driven rotating. The axial adjustment of the thrust washer ( 11 ) takes place in both directions of the travel path exclusively by means of the electric motor 25 ,

Claims (7)

Axial adjustment device in a housing ( 30 ) - in particular for actuation of a multi-plate clutch, the friction plates of which are alternately connected in a rotationally fixed and axially displaceable manner to one and the other of two parts which can be rotated relative to one another and which rest on an axially fixed support plate and can be acted upon by an axially displaceable pressure plate - comprising - one rotatable in Adjustment disc mounted in the housing ( 11 ), which is installed axially fixed in the housing and can be driven in rotation, - a thrust washer held in the housing ( 17 ), which is held in a rotationally fixed manner by anti-rotation means arranged in the housing and is axially displaceable in the housing, - ball groove configurations ( 22 . 28 ) with opposite slopes in the mutually facing surfaces of the adjusting disc ( 11 ) and the thrust washer ( 17 ), which are assigned to each other in pairs running in the circumferential direction and together each have a ball ( 23 ) and the depth of which can be varied over the circumference, and - rotary drive means for the adjusting disk used in the housing ( 11 ), characterized in that the anti-rotation means from the thrust washer ( 17 ) are designed to be detachable. Adjusting device according to claim 1, characterized in that the anti-rotation means comprise a radially axially movable pin ( 20 ) which, in a first position, have notches ( 19 ) on the circumference of the thrust washer ( 17 ) can intervene and in a second position from the notches ( 19 ) can extend radially. Adjusting device according to claim 2, characterized in that the anti-rotation means comprise an electromagnet ( 26 ) which, when excited, on the bolt ( 20 ) acting in the first position. Adjusting device according to one of claims 2 or 3, characterized in that the free end of the bolt ( 20 ) and the flanks of the notches ( 19 ) on the circumference of the pressure disc ( 17 ) Make an angle with the radial that is larger than the self-locking angle. Adjusting device according to one of claims 1 to 4, characterized in that a prestressed compression spring - in particular a plate spring - axially on the pressure disc ( 17 ) towards the adjusting disc ( 11 ) acts. Adjusting device according to one of claims 1 to 5, characterized in that on the outer circumference of the adjusting disk ( 11 ) a worm or helical toothing ( 14 ) is provided, and that - an actuator ( 25 ), on whose shaft ( 24 ) one with worm or helical teeth ( 14 ) engaged worm ( 15 ) sits, is provided. Adjusting device according to claim 6, characterized in that the adjusting disk ( 11 ) and snail ( 15 ) formed worm gear is self-locking.