DE102011016716A1 - Coupling device e.g. normally-disengaged coupling device, for use in internal combustion engine of motor car, has lever member actuated by actuator, and annular support unit including attachment tip that is in contact with actuator - Google Patents

Abstract

The device e.g. normally-disengaged coupling device (1), has an annular supporting unit (12) provided on a housing component (6). A frictional torque transmitting unit (2) is provided in an axial direction (A) through a lever member (9) in an engaged condition. The lever member is tiltably mounted through the support unit and actuated by an actuator, where the support unit includes an attachment tip that is in contact with the actuator. The support unit and the attachment tip are arranged in the axial direction on sides of the housing component and a coupling cover of the device. The attachment tip is made of elastic material and spring plate i.e. spring steel sheet.

Description

The present invention relates to a coupling device according to the preamble of patent claim 1.

A according to the preamble of claim 1 considered as known coupling device is in 1 shown. The coupling device 101 has a in the axial direction by a lever element 103 engageable and disengageable, in the engaged state frictional torque transmission device 102 on. In addition, the coupling device 101 a housing component 106 on, at which an annular support means 104 is provided, wherein the lever element 103 through the annular support means 104 is tiltably mounted and can be actuated for tilting by an actuator.

Since the lever element at the end of its lever travel usually has a drop in its force-displacement curve, is a separate adjustment with multiple adjustment springs 105 on an outside of the housing component 106 fastened to compensate for the drop in the force-displacement characteristic of the lever member, and to allow a substantially constant over the actuating travel actuating force. It is disadvantageous that the number of components for the coupling device by the separate adjustment ring on the one hand 101 increased, and on the other hand of the coupling device 101 Increased space occupied in the axial direction.

It is an object of the present invention to provide a coupling device which can be actuated by an actuator, and in which the required operating force can be adjusted in a simple manner.

According to the invention, this object is achieved by a coupling device according to claim 1 with at least one housing component on which at least one substantially annular support means is provided, and at least one in the axial direction by a lever element and / or disengageable, frictionally engaged in the engaged state torque transmission device, said the lever member is tiltably supported by the annular support means and is operable to tilt by an actuator. Since the annular support means has at least one contact point that can be brought at least into contact with the actuating device, the required actuating force to be applied by the actuating device can be adapted in a simple manner.

"At least brought into contact" means that the contact point of the annular support means with the not belonging to the claimed coupling device actuator, more specifically with an actuating bearing of the actuator by which the lever member is actuated, can be brought in positive and / or non-positive engagement.

Preferred embodiments of the present invention are set forth in the dependent claims.

In the case of the coupling device explained above, it is particularly advantageous if the annular support means has more than one, for example two, three, four or more than four abutment tips, which can be brought into contact with the actuation device at least. Preferably, the abutment tips are distributed uniformly in the circumferential direction over the annular support means. The annular support means is advantageously attached to the housing member, in particular to a clutch cover of the coupling device, and preferably spaced from the housing member.

The torque transmission device preferably has at least one pressure plate, at least one counterpressure plate and at least one clutch disc arranged in the axial direction between the pressure plate and the counterpressure plate. The pressure plate is rotatably disposed in a housing of the coupling device and with respect to the counter-pressure plate in the axial direction limited displaceable, while the counter-pressure plate is arranged fixed to the housing. When the clutch disc between the pressure plate and the counter-pressure plate is braced, there is a frictional transmission of torque from the input side of the coupling device, for example from the internal combustion engine of a motor vehicle, via the pressure plate and the counter-pressure plate on the clutch disc, and from the clutch disc to the output side of the coupling device, For example, on the input shaft of a transmission.

By acting on the lever member and the abutment tip of the annular fastener actuator, the coupling device, more specifically, the torque transmitting device of the coupling device, be engaged or disengaged. The lever element may be a Belleville spring, as is commonly used in normally-engaged clutch devices, or a lever spring commonly used in normally-disengaged clutch devices.

When the coupling device is designed as a normally-engaged clutch device, the force of the engaging plate spring, which acts on the pressure plate, prevails in the non-actuating state, the force of disengaging leaf springs acting on the pressure plate. Upon actuation, the plate spring is acted upon by the actuating device with a force through which the disc spring overturns or overturns, so that the clutch is disengaged. On the other hand, the coupling device can also be designed as a normally-disengaged coupling device, that is, as a clutch in which the force of the disengaging leaf springs acting on the pressure plate, in the non-actuating state, the force of the lever spring acting on the pressure plate outweighs. Upon actuation, the lever spring is acted upon by the actuator with a force by which the lever spring tilts or overturned, so that the clutch is engaged.

The coupling device can equally well as a depressed coupling device, that is, as a coupling device in which the actuating device exerts a pressing force on the plate spring or the lever spring, or as a drawn coupling device, that is as a coupling device, wherein the actuating device a pulling force on the plate spring or ., the lever spring exerts, be formed. Further, the coupling device may be formed on the one hand as a dry clutch and on the other hand as a wet clutch. In addition to single clutches also double or multiple clutches are possible as a coupling device.

Since due to the frictional engagement both the friction surfaces of the counter-pressure plate and the pressure plate and the friction linings of the clutch disc are subject to wear, the clutch device preferably has a wear adjustment to the decrease in the thickness of the friction surfaces and the thickness of the friction linings in the axial direction of the coupling device on the To compensate life of the coupling device. The sensing and / or the compensation of the clutch wear can be force-based or path-based.

Preferably, the annular support means and the abutment tip are arranged in the axial direction on the same side of the housing member. The housing component is preferably a clutch cover of the coupling device. In particular, it is advantageous if both the annular support means and the abutment tip or the abutment tips are arranged in the interior of the coupling device.

Furthermore, it is advantageous if the lever element has at least one lever tip with which the actuating device can be brought at least in contact with the actuation of the lever element at least. "At least when operating the lever member" means that the actuator temporarily interrupted or permanently with the lever tip of the lever member in positive and / or non-positive engagement can be brought or temporarily interrupted or permanently with the lever tip of the lever member in positive and / or non-positive engagement located.

In particular, it is advantageous if the abutment tip of the annular support means and the lever tip of the lever element extend substantially in the same direction. This allows a compact construction of the coupling device and the actuator actuating the coupling device.

Preferably, the abutment tips of the annular support means and / or the lever tip of the lever element extend in the radial direction. In particular, it is advantageous if the abutment tip of the annular support means and / or the lever tip of the lever element extend in the direction of a central axis of the coupling device. The lever tips are distributed in the circumferential direction, preferably evenly, over the lever element. Viewed in the axial direction, it is particularly advantageous if a contact point of the annular support means is arranged in the circumferential direction between two adjacent lever tips of the lever member.

Preferably, at least the abutment tip is formed of an elastic material. The elastic material is preferably a spring plate, in particular preferably a spring steel plate. This allows a precise adjustment of the required operating force.

According to a further preferred embodiment, the abutment tip is formed integrally with the annular support means. In particular, when the entire annular support means is formed with the contact point or the bearing tips of a spring plate, the spring stiffness of the spring plate should be higher than the spring stiffness of the lever member.

It is advantageous if the annular support means has at least one abutment with which the lever element is tiltably in abutment. In particular, it is advantageous if a force edge of the lever element is tiltably in abutment with the abutment projection. The abutment may be a circumferentially closed circumferential projection or a plurality of circumferentially spaced apart projections. Farther Preferably, the housing member has a housing-side projection which is formed as circumferentially closed circumferential projection or as a plurality of circumferentially spaced apart projections. The housing-side projection and the abutment projection are arranged opposite each other in the axial direction, so that the lever element is tiltably mounted between the housing-side projection and the abutment projection.

Further preferably, the abutment projection for the lever member and the abutment tip for the actuator in the radial direction are arranged opposite to each other.

According to a further preferred embodiment, the annular support means between the abutment projection for the lever member and the abutment tip for the actuator is connected to the housing member. Preferably, the annular support means comprises a web which is connected to the housing member. The connection is preferably by screwing or riveting. In this case, a bolt, for example a screw or a rivet, is provided in order to space the support means, in particular the web of the support means, from the housing component. Between two adjacent lever tips of the lever element, a recess is preferably provided, through which the bolt extends.

The present invention will be explained in more detail below with reference to preferred embodiments in conjunction with the accompanying figures. In these show:

1 1 is a detailed view of a considered as known coupling device, which has been explained in the introduction, in a plan view,

2a an embodiment of a coupling device with an annular support means having at least one bearing tip, in a half-section, and

2 B a detailed view of the coupling device 2a in a top view.

While the 1 a known as known, already explained in the introduction introduction coupling device relates to the 2a and 2 B a preferred embodiment of a coupling device 1 for a motor vehicle. Features that are not marked in the present description as essential to the invention are to be understood as optional. Therefore, the following description also relates to further embodiments of the coupling device 1 which have sub-combinations of the features to be explained below.

The coupling device 1 has at least one torque transmission device 2 on. The torque transmitting device 2 has at least one pressure plate 3 , at least one counter-pressure plate 4 and at least one in the axial direction A between the pressure plate 3 and the counterpressure plate 4 arranged clutch disc 5 on. The counterpressure plate 4 is with one or more housing components 6 , For example, a clutch cover of the coupling device 1 , firmly connected, in particular screwed. The pressure plate 4 is in the housing, in particular in the housing component 6 , rotatably mounted and in the axial direction A of the coupling device 1 limited shiftable. In particular, the pressure plate 3 by means of a plurality of unillustrated leaf springs rotatably mounted in the housing and the counter pressure plate 4 away, that is with reference to 2a to the right, biased.

In addition, the coupling device 1 a lever element 9 on the housing side by an annular support means 12 is supported and can be actuated by an actuating device, not shown. On the exact structure of the annular support means 12 will be discussed below.

The lever element 9 Can be used as a diaphragm spring for a normal-indented, in the 2a and 2 B illustrated coupling device 1 or be designed as a lever spring for a normally-disengaged, not shown coupling device. In the normally-engaged clutch device 1 outweighs the effective force of the trained as a plate spring lever element 9 the opposing force of the leaf springs, while in the normally-disengaged coupling device, the opposing force of the leaf springs outweighs the effective force of the lever element designed as a lever spring element. Accordingly, an operation of the plate spring in the normally-engaged clutch device 1 by the actuator for disengaging the coupling device 1 that is to lift off the pressure plate 3 and for removing the pressure plate 3 from the counterpressure plate 4 while actuation of the lever spring by the actuator in the normally-disengaged coupling device results in engagement of the coupling device.

When disengaged clutch is the clutch disc 5 about a central axis Z relative to the clutch housing or to the pressure plate 3 and to the counter pressure plate 4 , which are both rotatably connected to the housing, rotatable. When the clutch is engaged, a torque from the input side of the coupling device 1 , For example, from an internal combustion engine of a motor vehicle or from a dual-mass flywheel driven by the internal combustion engine via the housing and both the counter-pressure plate 4 as well as the pressure plate 3 frictionally engaged on the clutch disc 5 transfer. From the clutch disc 5 , which frictionally between the counter-pressure plate 4 and the pressure plate 3 is clamped, the torque to the output side of the coupling device 1 transmitted, for example, to an input shaft of a transmission.

Because of the frictional engagement both the friction surfaces of the counter-pressure plate 4 and the pressure plate 3 as well as the friction linings of the clutch disc 5 must be subjected to wear over the life of the coupling device 1 the pressure plate 3 getting closer to the platen 4 be moved to compensate for the decrease in the thickness of the friction surfaces and the thickness of the friction linings in the axial direction A and produce the frictional engagement or the coupling device 1 More specifically, the torque transmitting device 2 the coupling device 1 to be able to get in. For this purpose, it is advantageous if a wear adjusting device, not shown, is provided for sensing and / or compensating for the coupling wear. The sensing and / or the compensation of the clutch wear can be force-based or path-based.

The annular attachment means 12 through which the lever element 9 on the housing component 6 , in particular on the inside of the clutch cover, is fastened, has one, preferably a plurality of arranged in the circumferential direction arranged application tips 14 on. For example, two, three, four or more than four investment tips 14 provided, which are preferably equally spaced in the circumferential direction. The investment tips 14 are with the same actuating device, not shown, in particular an actuating bearing of the actuating device, by which also the lever element 9 is operable when tilting the lever element 9 can be brought into contact. In the system may be a positive and / or non-positive engagement. When actuated, the system in a limited range of operation, that is, temporally interrupted, or in the entire operating range, that is permanent, take place.

In addition to the investment tips 14 has the annular support means 12 a peripheral circumferential web 13 on, from which the investment tips 14 extend in the radial direction R. In particular, it is advantageous if the investment tips 14 in the radial direction R to the central axis Z of the coupling device 1 that is inside the coupling device 1 extend.

Furthermore, the annular support means 12 at least one investment advantage 15 on, with which the lever element 9 , preferably a force margin 10 of the lever element 9 , tiltable in attachment. The investment advantage 15 may be formed in the circumferential direction as a closed circumferential projection or as a plurality of circumferentially spaced apart projections. In the radial direction R are the investment projection 15 for the lever element 9 and the investment tips 14 for the actuator disposed opposite each other. In particular, the bridge is 13 the annular support means 12 between the investment projection 15 and the investment tips 14 arranged.

In the axial direction A the investment projection 15 opposite lying is preferably a housing-side projection 7 intended. The housing side projection 7 Can be made in one piece with the housing component 6 , in particular with the clutch cover, be formed, but may also be formed as a separate component, which is connected to the housing component 6 , in particular the clutch cover, is connected. In particular, the housing-side projection 7 formed on an inner side of the clutch cover.

In the circumferential direction of the housing-side projection 7 be formed as a closed circumferential projection or as a plurality of spaced-apart projections. Preferably, the housing-side projection 7 and the investment advantage 15 from the central axis Z of the coupling device 1 in the radial direction R at substantially the same distance. The lever element 9 , more precisely, the force's edge 10 of the lever element 9 , is between the housing-side tab 7 and the investment advantage 15 the annular support means 12 tiltably mounted, preferably resiliently clamped.

The investment tips 14 and the remaining annular support means 12 , especially the footbridge 13 and the investment advantage 15 , are in the axial direction A on the same side of the housing component 6 arranged. In particular, the jetty 13 , the investment tips 14 and the investment advantage 15 inside the coupling device 1 that is, arranged inside the clutch cover.

The investment tips 14 , preferably the entire annular support means 12 , is / are formed of an elastic material. Preferably, the elastic material is a spring plate, in particular preferably a spring steel plate. The spring plate preferably has a higher spring stiffness than the lever element 9 , In particular, it is advantageous if the investment tips 14 in one piece with the rest of the annular support means 12 are formed.

The annular support means 12 , preferably the bridge 13 the annular support means 12 , is with the housing component 6 by one or more bolts 8th connected. Preferably, the connection is made as a screw connection or riveting, wherein the bolts 8th are designed as screws or rivets. Through the bolts 8th is the annular support means 12 from the inside of the housing component 6 spaced so that between the annular support means 12 and the housing component 6 the lever element 9 is arranged. For this purpose, the lever element 9 Recesses on, in particular recesses between adjacent lever tips 11 of the lever element 9 through which the bolts 8th extend as a spacer in the axial direction A therethrough.

Although applications are possible in which the lever element 9 a single lever tip 11 However, it is advantageous if the lever element 9 several lever tips 11 having. The lever tips 11 are preferably distributed in the circumferential direction, preferably evenly distributed, arranged and extending from the force edge 10 of the lever element 9 starting in the radial direction R, preferably in the direction of the central axis Z, that is, into the interior of the coupling device 1 , The power 10 and the lever tips 11 are integrally formed with each other. When the lever element 9 is designed as a plate spring, the lever tips 11 designed as disc spring tips. When the lever element 9 is designed as a lever spring, the lever tips 11 designed as lever spring tips.

The actuator, not shown, is with the lever tips 11 at least during the actuation of the lever element 9 at least brought into contact, that can be brought in positive and / or non-positive engagement. The intervention may be interrupted in time, that is to say only during the actual actuation, or permanently, that is also during the actuation device, the coupling device 1 not actuated or while the actuator is in its home or rest position.

The investment tips 14 the annular support means 12 and the lever tips 11 of the lever element 9 extend substantially in the same direction, preferably in the radial direction R, in particular preferably in the direction of the central axis Z, that is, into the interior of the coupling device 1 , Viewed in the axial direction A is a bearing tip 14 the annular support means 12 preferably in the circumferential direction between two adjacent lever tips 11 of the lever element 9 arranged.

To the force-displacement characteristic, in particular in the last section of the disengagement of the coupling device 1 To be able to adapt specifically, it is advantageous if the lever tips 11 of the lever element 9 and the investment tips 14 the annular support means 12 at least when the coupling device is not actuated 1 or in the relaxed state of the lever element 9 in the axial direction A are spaced from each other.

For the in 2a shown, pressed coupling device 1 this means that the investment peaks 14 the annular support means 12 when not operating the coupling device 1 in the axial direction A between the lever tips 11 of the lever element 9 and the clutch disc 5 are arranged.

Thus, at the beginning of the operation, that is, at the beginning of the disengagement, only the spring force of the lever member 9 effective, while continuing the operation, that is, the farther the coupling device 1 is disengaged, the spring force of the investment tips 14 the annular support means 12 come in addition. The vote is ideally such that the effective spring force of the investment tips 14 the annular support means 12 increases, the stronger the effective spring force of the lever member 9 on progress of the operation, that is, the increasing disengagement of the coupling device 1 , decreases in the force-displacement diagram.

Conversely, it is possible for pulled coupling devices that the investment tips 14 the annular support means 12 when not operating the coupling device 1 in the axial direction A between the lever tips 11 of the lever element 9 and the housing component 6 , in particular the clutch cover, are arranged.

In 2a is the coupling device 1 More specifically, the torque transmitting device 2 the coupling device 1 , shown in the unactuated, fully engaged state. The power 10 of the lever element 9 is between the investment advantage 15 the annular support means 12 and the housing-side projection 7 clamped. The investment tip 14 the annular support means 12 is in the axial direction A between the lever tip 11 of the lever element 9 and the clutch disc 5 arranged.

By actuation by means of the actuating device, not shown, more precisely by the lever tips 11 of the lever element 9 through the actuating bearing of the actuating device, in the illustrated embodiment by a release bearing, in the axial direction A to the counter-pressure plate 4 moved or pressed, the lever element tilts 9 or reverses, whereby the torque transmission device 2 goes into the partially disengaged state. In this situation, the frictional engagement between the platen 4 and the clutch disc 5 or between the pressure plate 3 and the clutch disc 5 at least partially canceled, that is, the clutch grinds, so that at best only a reduced torque is transferable.

In this situation, the actuating bearing of the actuator comes with the bearing tips 14 the annular support means 12 in Appendix. The farther the torque transmitting device 2 From the partially disengaged to completely disengaged state, the stronger the investment peaks 14 elastically deformed. The rising spring force compensates for the investment peaks 14 the annular support means 12 the falling spring force of the lever element 9 at the end of the disengaging operation, that is, closer to the torque transmitting device 2 approaching the fully disengaged state, or the further one moves away from the origin in the force-displacement diagram.

When the torque transmitting device 2 is engaged, the process is reversed. After exceeding the partially disengaged state is on the way to the engaged state of the torque transmitting device 2 only the spring force of the lever element 9 effective.

The preceding embodiments relate to a coupling device 1 with at least one housing component 6 on which at least one substantially annular support means 12 is provided, and at least one in the axial direction A by a lever element 9 ein- and / or disengageable, in the engaged state frictional torque transmission device 2 , wherein the lever element 9 through the annular support means 12 is mounted tiltable and can be actuated by an actuator for tilting, and wherein the annular support means 12 at least one contact point which can be brought at least into contact with the actuating device 14 having.

LIST OF REFERENCE NUMBERS

1

coupling device

2

Torque transfer device

3

pressure plate

4

Platen

5

clutch disc

6

housing component

7

housing-side projection

8th

bolt

9

lever member

10

force boundary

11

lever tip

12

annular support means

13

web

14

system peak

15

abutment projection

101

coupling device

102

Torque transfer device

103

lever member

104

annular support means

105

adjusting spring

106

housing component

A

axial direction

R

radial direction

Z

central axis

Claims (10)

Coupling device ( 1 ) with at least one housing component ( 6 ), on which at least one substantially annular support means ( 12 ) is provided, and at least one in the axial direction (A) by a lever element ( 9 ) ein- and / or disengageable, in the engaged state frictional torque transmission device ( 2 ), wherein the lever element ( 9 ) by the annular support means ( 12 ) is tiltably mounted and can be actuated for tilting by an actuating device, characterized in that the annular support means ( 12 ) at least one bearing tip that can be brought into contact with the actuating device ( 14 ) having. Coupling device ( 1 ) according to claim 1, wherein the annular support means ( 12 ) and the investment tip ( 14 ) in the axial direction (A) on the same side of the housing component ( 6 ), preferably a clutch cover of the coupling device ( 1 ) are arranged. Coupling device ( 1 ) according to claim 1 or 2, wherein the lever element ( 9 ) at least one lever tip ( 11 ), with which the actuating device at least during the actuation of the lever element ( 9 ) is at least brought into contact. Coupling device ( 1 ) according to claim 3, wherein the investment tip ( 14 ) of the annular support means ( 12 ) and the lever tip ( 11 ) of the lever element ( 9 ) extend in substantially the same direction. Coupling device ( 1 ) according to claim 3 or 4, wherein the investment tip ( 14 ) of the annular support means ( 12 ) and / or the lever tip ( 11 ) of the lever element ( 9 ) in the radial direction (R), preferably in the direction of a central axis (Z) of the coupling device ( 1 ). Coupling device ( 1 ) according to at least one of claims 1 to 5, wherein at least the investment tip ( 14 ) is formed from an elastic material, preferably from a spring plate, in particular preferably from a spring steel sheet. Coupling device ( 1 ) according to at least one of claims 1 to 6, wherein the investment tip ( 14 ) in one piece with the annular support means ( 12 ) is trained. Coupling device ( 1 ) according to at least one of claims 1 to 7, wherein the annular support means ( 12 ) at least one investment advantage ( 15 ), with which the lever element ( 9 ), preferably a force border ( 10 ) of the lever element ( 9 ), tiltable in attachment. Coupling device ( 1 ) according to claim 8, wherein the investment projection ( 15 ) for the lever element ( 9 ) and the investment tip ( 14 ) are arranged for the actuating device in the radial direction (R) opposite one another. Coupling device ( 1 ) according to claim 8 or 9, wherein the annular support means ( 12 ), preferably a bridge ( 13 ) of the annular support means ( 12 ), between the investment advantage ( 15 ) for the lever element ( 9 ) and the investment tip ( 14 ) for the actuating device with the housing component ( 6 ) is connected, preferably screwed or riveted.

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