DE102016208120A1 - Friction disc for a clutch disc damper - Google Patents

Abstract

There is provided a friction disc (24) for frictional damping in a clutch disc damper (10) having a friction ring (34) for frictional engagement with an input flange (14) or output flange (22) of the clutch disc damper (10), a mounting portion (36) for rotationally fixed engagement Attachment with the output flange (22) or input flange (14) of the clutch disc damper (10) rotatable relative to the friction ring (34) and at least one spring element (38, 44) coupled to the friction ring (34) and to the attachment region (36) to provide a Compliance in the radial direction, wherein the friction ring (34) by the at least one spring element (38, 44) in all radial directions relative to the mounting portion (36) is movable. By using the spring element (38, 44) reached radial compliance of the friction ring (34) of the friction disc (24) high-frequency noise developments when coupling a clutch disc can be avoided, so that a drive train of a motor vehicle with low noise developments is possible.

Description

The invention relates to a friction disc for a clutch disc damper, with the help of a frictional damping for the clutch disc damper can be achieved.

Out DE 10 2012 214 022 A1 a clutch disc damper is known in which an input flange connected to a clutch disc composed of two cover discs is coupled via helical compression springs to an output flange connected to a transmission input shaft. The output flange is designed in two parts, wherein between the two parts of the output flange a relatively limited rotatable friction disc is provided. By means of a supported on the input flange and on the output flange plate spring, a frictional force can be applied to the friction disc to realize a frictional damping in the clutch disc damper.

There is a constant need to reduce noise emissions in a drive train of a motor vehicle.

It is the object of the invention to show measures that allow a powertrain of a motor vehicle with low noise levels.

The object is achieved according to the invention by a friction disk having the features of claim 1. Preferred embodiments of the invention are specified in the subclaims and the following description, which individually or in combination may represent one aspect of the invention.

According to the invention, a friction disc for frictional damping in a clutch disc damper is provided with a friction ring for frictional engagement with an input flange or output flange of the clutch disc damper, a mounting area for non-rotatable mounting with the rotatable relative to the friction ring output flange or input flange of the clutch disc damper and at least one with the friction ring and with the Fastening region coupled spring element for providing a compliance in the radial direction, wherein the friction ring is movable by the at least one spring element in all radial directions relative to the attachment region.

The input flange, the output flange and acting on the input flange and the output flange, designed in particular as a helical compression spring energy storage element of the clutch disc damper form a spring-mass system that can dampen torsional vibrations in the speed of the input flange. With the help of the friction disc a conscious frictional damping can be introduced into this spring-mass system, which can dampen a resonance-induced rocking of the torsional vibrations in the natural frequency of the spring-mass system. Resonance-induced noise developments can be avoided. For this purpose, the friction disc can be indirectly or directly connected to the input flange and thereby rub indirectly or directly on the limited rotatable to the input flange output flange. Alternatively, the friction disc can be indirectly or directly connected to the output flange and thereby rub indirectly or directly on the limited rotatable to the output flange input flange.

Investigations have shown that in certain operating conditions of a drive train of a motor vehicle during the coupling of a friction clutch of the drive train, when an engine shaft of an automotive engine with at least one transmission input shaft of a motor vehicle transmission is to be coupled, especially in the slip operation of the friction clutch high-frequency noise developments can occur, also known as "screeching "Or" Eeken "are called. It is assumed that during the slip operation of the clutch, for example, by manufacturing tolerances and / or assembly tolerances a precise plane contact the pressure plate of the friction clutch on the clutch disc is not achieved and caused by an uneven force distribution in the circumferential direction of the clutch disc vibrations. By means of the at least one spring element of the friction disk, however, it is possible for the friction ring to be connected movably in the radial direction. It is believed that thereby the friction force applied by the friction ring and an associated friction torque can at least partially compensate for an uneven force distribution on the clutch disk, so that the force distribution on the clutch disk in the circumferential direction can be made uniform. Studies have shown that a soft connection of the clutch disc to the transmission input shaft in the radial direction can prevent high-frequency noise developments in the form of a "screech" or "eeken". The radial compliance of the friction ring can make a contribution to this. By achieved by means of the spring element radial compliance of the friction ring of the friction disc high-frequency noise developments when coupling a clutch disc can be avoided, so that a drive train of a motor vehicle with low noise developments is possible.

About the mounting portion, the friction disc can be coupled in motion with a component of the clutch disc damper. For example, the attachment area can be rotatably coupled via a toothing with the clutch disc or a transmission input shaft, with which the input flange or the output flange of the clutch disc damper is rotatably connected. In particular, the attachment region is indirectly or directly fixed, for example via a rivet connection with the input flange or with the output flange. The friction ring can abut against a component that is rotatable relative to the component with which the fastening region is connected or at least coupled in a rotational manner, so that a frictional relative rotation can take place. The friction ring may, in the event of rotational nonuniformity, when the input flange rotates to a limited extent relative to the output flange, rub indirectly or indirectly restrictably at the output flange or the input flange to provide the frictional damping. The spring element can be supported on the one hand on the friction ring and on the other hand on the attachment area. The spring element can be connected in series in the direction of force of the spring element between the friction ring and the attachment region. In particular, a plurality of spring elements is provided, each of which allow a compliance in a specific radial direction, wherein the plurality of spring elements are arranged uniformly distributed in particular in the circumferential direction. Particularly preferably, the at least one spring element is designed to support a frictional torque to be expected on the friction ring at the fastening region. For this purpose, the spring element can be made sufficiently stiff in the tangential direction and / or in the circumferential direction. Optionally, a deliberate clearance angle of the friction ring in the circumferential direction relative to the component with which the fastening region is attached, are provided via the spring element, so that at low rotational nonuniformities a frictional damping is avoided. This allows the frictional damping to take effect only at larger amplitudes. For example, allows the spring element to a rotational axis of the clutch disc damper, which corresponds to the axis of rotation of the friction disc at a constant speed without rotational irregularities, a radial mobility of the friction ring of 0.5 mm to 30 mm, preferably 1 mm to 10 mm and more preferably from 2 mm 3 mm.

In particular, the spring element is designed to be rigid in the tangential direction and / or in the circumferential direction, wherein in particular the spring element has a spring constant c _r in the radial direction and a spring constant c _t in the tangential direction and 100 ≦ c _t / c _r ≦ 3000, in particular 200 ≦ c _t / c _r ≦ 2000, preferably 300 ≦ c _t / c _r ≦ 1500, and more preferably 400 ≦ c _t / c _r ≦ 1000. The spring constant c _t in the tangential direction may be, for example, 2000 N / mm ± 500 N / mm. The spring constant c _r in the radial direction may be, for example, 1 N / mm to 10 N / mm. Particularly preferably, the spring element in the tangential direction and / or in the circumferential direction, at least until the beginning of a buckling failure, carried out substantially rigid. The spring element has in the tangential direction and / or in the circumferential direction compared to the compliance in the radial direction only a low compliance, if any. This makes it possible to support a particularly high frictional torque of the friction ring via the spring element on the mounting area. This allows a high frictional damping effect. At the same time, the friction ring can escape even at low power ratios in the radial direction. In particular, the friction ring is movable at a friction force determining normal force of greater than 15 N, preferably greater than 10 N and particularly preferably greater than 5 N in the radial direction. Preferably, a friction torque of more than 5 Nm, in particular up to 30 Nm, preferably of more than 10 Nm, in particular up to 20 Nm, can be supported at the same time essentially free of play in the circumferential direction at the attachment area. Particularly preferably, the friction ring, the attachment region and the spring element are made in one piece. The number of components of the clutch disc damper is thereby kept low. In addition, the friction can be produced inexpensively by punching and non-cutting forming.

Preferably, a first spring element, in particular an opposing pair of two first spring elements, for providing a radial compliance in a first radial direction and a second spring element, in particular an opposite pair of two second spring elements, for providing a radial compliance in a second perpendicular to the first radial direction Radial direction provided. As a result, the individual spring element essentially only needs to provide the desired flexibility in a radial direction, since the compliance in a radial direction rotated by 90 ° is provided by another spring element. The single spring element can be constructed particularly simple.

Particularly preferably, the friction ring is connected to the fastening area via the first spring element and the second spring element connected in series with the first spring element, wherein a connecting piece is connected to the first spring element and the second spring element, the connecting piece in particular having a ring-shaped closed support ring. By the The first spring element and the second spring element connected in series can superimpose the compliance achieved along the first radial direction by the first spring element and the resilience made possible by the second spring element along the second radial direction to a total movement in any radial direction. This allows a floating in the radial direction connection of the friction ring to the attachment area. The connection piece provided between the first spring element and the second spring element can ensure the correct alignment of the spring elements. In particular, a plurality of pairs of first spring element and second spring element are provided, between each of which a connecting piece is provided, wherein these connecting pieces, in particular in one piece, are connected to one another. For example, these connecting pieces are connected to the common annularly closed support ring. The relative position of the spring elements can thereby be maintained under load.

In particular, the at least one spring element is designed as a, in particular substantially tangential, leaf spring. The spring element is characterized in the radial direction very soft and can easily give way in the radial direction if necessary. In the tangential direction, the spring element configured as a leaf spring can essentially act as a rod, which is essentially rigid and unyielding until the beginning of a buckling failure, and has at least a significantly lower flexibility than in the radial direction. Preferably, the respective spring element has more than one leaf spring, which, for example, connect the fastening region with the friction ring as substantially parallel strips. Particularly preferably, the leaf springs are oriented such that they are claimed in the transmission of a friction torque essentially only to train. As a result, bending stresses that could lead to a buckling load can be avoided.

Preferably, the attachment region for rotationally fixed attachment to an internal toothing or an external toothing or a through hole. As a result, the fastening region can easily be connected non-rotatably via a positive fastening and / or with the aid of a fastening means, for example a rivet connection or screw connection.

Particularly preferably, in particular in the support ring, a passage window for passing a, designed in particular as a helical compression spring, energy storage element for limited rotatable coupling of the input flange provided with the output flange. As a result, the friction disk can extend into a radius region of the energy storage element of the clutch disk damper. Through the passage window can be ensured that enough space remains for the energy storage element and accidental impact of the energy storage element is avoided on the friction disc. Alternatively, it is also possible to couple the friction disk with the aid of the passage window with the energy storage element, so that the friction ring can exert a frictional relative movement to the input flange and / or the output flange. Due to the increased radial extension, the friction disc can have a high stability, which in particular allows a correct relative position of the spring elements.

The invention further relates to a clutch disk damper for damping torsional vibrations of a clutch disk, with an input flange, in particular composed of two cover disks, for introducing a torque generated in a motor vehicle engine, a rotor flange which is rotatable relative to the input flange, in particular arranged between the cover disks, for discharging the rotor Torque to a transmission input shaft, an engageable on the input flange and the output flange, in particular configured as a helical compression spring, energy storage element and at least one co-rotating with the input flange or with the output flange friction disc, which may be as described above and further developed to provide a frictional force on the rotatable relative to the friction disc output flange or input flange. By achieved by means of the spring element radial compliance of the friction ring of the friction disc high-frequency noise developments when coupling a clutch disc can be avoided with the help of the clutch disc damper, so that a drive train of a motor vehicle with low noise developments is possible.

In particular, a force acting on the friction disc, designed in particular as a plate spring, friction spring for providing the frictional force to the friction disc is provided. About the spring force of the friction spring, the normal force can be adjusted, with which the friction ring of the friction disc acts on its friction partner. As a result, the frictional damping effect can be easily adjusted.

Preferably, the friction spring on the relative supported to the friction disc rotatable output flange or input flange and an intermediate piece, wherein the intermediate piece engages the side facing away from the friction spring axial side of the friction disc and the friction disc of the friction spring between the intermediate piece and the rotatable relative to the friction disc output flange or input flange is pressed. The intermediate piece may preferably rotate at the same speed as the component on which the friction spring is supported with its other side. A wear-related relative rotation of the friction spring can be avoided. Since the friction spring can compress the friction ring of the friction disc between the intermediate piece and the component on which the friction spring is supported with its other side, the friction ring can exert on its two axial sides a frictional relative rotation, whereby the frictional damping effect can be improved. For this purpose, the intermediate piece can embrace the friction disk and the component on which the friction spring is supported with its other side. For example, the intermediate piece has a U-shaped cross-section, at the one radially projecting leg engage the friction spring and the other leg of the friction ring, wherein the two radially projecting legs are connected to each other via an axially extending base.

Particularly preferably, two or more friction disks are stacked in the axial direction one behind the other. The friction plates can thereby be inexpensively manufactured from a correspondingly thin single sheet and layered in the axial direction. The individual friction disks can be assembled to form a common friction flange. In addition, it is possible that the individual friction disks, for example by different clearance angles provided for the individual friction disks in the circumferential direction, can execute a relative rotation relative to one another, whereby the frictional damping effect is increased.

The invention will now be described by way of example with reference to the accompanying drawings with reference to preferred embodiments, wherein the features shown below, both individually and in combination may represent an aspect of the invention. Show it:

1 FIG. 1 is a schematic sectional view of a clutch disk damper, FIG.

2 : A schematic plan view of a friction disc of the clutch disc damper 1 and

3 an alternative embodiment of a friction disc.

The in 1 illustrated clutch disc damper 10 has a with a clutch disc of a friction clutch for coupling a drive shaft of an automotive engine with a transmission input shaft 12 a motor vehicle gearbox connected input flange 14 on, in the illustrated embodiment by a first cover plate 16 and one with the first cover disk 16 for example, via distance bolts connected second cover plate 18 is composed. The input flange 14 is designed as a helical compression energy storage elements 20 with a limited to the input flange rotatable output flange 22 coupled to dampen by the thus formed spring-mass system rotational irregularities in the speed of the clutch disc can. The input flange 14 , in particular the first cover plate 16 , this can be riveted to the clutch disc, while the output flange 22 rotatably via a spline with the transmission input shaft 12 can be connected.

To dampen resonance effects is a friction disk 24 intended. In the illustrated embodiment, the friction disc 24 with the output flange 22 attached, leaving the friction disc 24 at a rotational nonuniformity, a relative rotation to the input flange 14 can perform. In the illustrated embodiment, the friction disc 24 with the help of a friction spring 26 against the second cover disk 18 of the input flange 14 pressed. Additionally or alternatively, a second friction disc against the first cover plate 16 be pressed. Alternatively, the friction disc 24 with the input flange 16 be connected and a relative rotation to the output flange 22 To run. For this purpose, a friction disc 24 with the first cover disk 16 and / or a friction disc 24 with the second cover disk 18 be connected. In the illustrated embodiment, designed as a plate spring friction spring 26 at a force edge on the input flange 14 and with the other force edge on a radially protruding first leg 28 an intermediate piece 30 is supported. The intermediate piece 30 can the friction disc 24 and the second cover disk 18 from radially inward embrace, so that the friction disc 24 on one axial side on the second cover disk 18 and on the other axial side on a radially projecting second leg 32 of the intermediate piece 30 can rub.

As in 2 shown has the friction disc 24 a friction ring 34 on, the frictional contact with the second cover plate 18 and the second leg 32 manufactures. The friction disc 24 also has attachment areas 36 on, over which the friction disc 24 can be riveted in the illustrated embodiment with the output flange. Radial within to the friction disk 34 This leaves enough space for the clutch disc damper 10 to provide an additional predamper. At the attachment area 36 closes a first spring element 38 which, in the illustrated embodiment, comprises a plurality of for example, three, leaf springs 40 having. The leaf springs 40 of the first spring element 38 extend substantially in the tangential direction, so that a high flexibility of the first spring element 38 is given along a first radial direction, while in the tangential direction and / or in the circumferential direction is given a low compliance. The first spring element 38 is soft along the first radial direction and rigid in the tangential direction and / or in the circumferential direction, or even rigid.

On the first spring element 38 is about a connector 42 a second spring element 44 Tailored, that finally with the friction ring 34 connected is. The second spring element 44 has analogous to the first spring element 38 likewise tangential Blattfern 40 on that to the leaf spring 40 of the first spring element 38 are aligned rotated by 90 °. This results in a high flexibility of the second spring element 44 along a second radial direction perpendicular to the first radial direction, while in the tangential direction and / or in the circumferential direction is given a low compliance. The second spring element 44 is soft along the second radial direction and rigid in the tangential direction and / or in the circumferential direction, or even rigid. The spring elements 38 . 44 This allows a mobility of the friction ring even at low forces 34 allow in the radial plane, so that high-frequency noise developments when coupling the clutch disc can be avoided. At the same time is the friction ring 34 essentially torsionally rigid with the attachment area 36 connected, so that a high friction torque can be supported.

The connecting pieces 42 are integrally via a ring-shaped closed support ring 46 connected with each other. In the illustrated embodiment, the support ring extends 46 into the radius region of the energy storage element 20 radially outward. To collide the friction disc 24 with the energy storage element 20 to avoid are in the support ring 46 Through window 48 provided by the respective energy storage element 20 can protrude through. In the illustrated embodiment, the friction disc 24 designed in one piece, so that the entire friction disc 24 can be produced inexpensively by punching and non-cutting forming of a metal sheet.

At the in 3 illustrated embodiment of the friction disc 24 is compared to the in 2 illustrated embodiment of the friction disc 24 the friction ring 34 radially outside and the mounting area 36 provided radially inside. The attachment area 36 can for example via an internal toothing with the transmission input shaft 12 rotatably connected, so that the attachment area 36 indirectly via the transmission input shaft 12 non-rotatably with the output flange 22 the clutch disc damper 10 connected is. This connection of the friction disc 24 is particularly suitable if radially inward to the friction disc 24 no pre-damper of the clutch disc damper 10 is provided and thus this space can be used. In this case, a direct attachment of the friction disc 24 with the output flange 22 Saved over a riveted joint. In addition, the first spring element 38 and the second spring element 44 only one leaf spring each 40 on. In addition, in this embodiment, the annular closed support ring 46 configured connector 42 in the radial direction between the first spring element 38 and the second spring element 44 provided while at the in 2 illustrated embodiment of the friction disc 24 the first spring element 38 and the second spring element 44 are arranged on a common mean radius.

LIST OF REFERENCE NUMBERS

10

 Clutch disc damper

12

 Transmission input shaft

14

 inlet flange

16

 first cover disk

18

 second cover disk

20

 Energy storage element

22

 output flange

24

 friction

26

 friction spring

28

 first leg

30

 connecting piece

32

 second leg

34

 friction ring

36

 fastening area

38

 first spring element

40

 leaf spring

42

 joint

44

 second spring element

46

 support ring

48

 Through window

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 102012214022 A1 [0002]

Claims (10)

Friction disc for frictional damping in a clutch disc damper ( 10 ), with a friction ring ( 34 ) to the frictional contact on an input flange ( 14 ) or output flange ( 22 ) of the clutch disc damper ( 10 ), a mounting area ( 36 ) for the rotationally fixed attachment with the relative to the friction ring ( 34 ) rotatable output flange ( 22 ) or input flange ( 14 ) of the clutch disc damper ( 10 ) and at least one with the friction ring ( 34 ) and with the attachment area ( 36 ) coupled spring element ( 38 . 44 ) for providing a compliance in the radial direction, wherein the friction ring ( 34 ) by the at least one spring element ( 38 . 44 ) in all radial directions relative to the attachment area ( 36 ) is movable. Friction disc according to claim 1, characterized in that the spring element ( 38 . 44 ) in the tangential direction and / or in the circumferential direction is stiff, in particular the spring element ( 38 . 44 ) A spring constant c _r in the radial direction and a spring constant c _t in the tangential direction on has, and 100 ≤ c _t / c _r ≤ 3000.0, especially 200 ≤ c _t / c _r ≤ 2,000, preferably 300 ≤ c _t / c _r ≤ 1500 and more preferably 400 ≤ c _t / c _r ≤ 1000. Friction disc according to claim 1 or 2, characterized in that a first spring element ( 38 ), in particular an opposite pair of two first spring elements ( 38 ), for providing a radial compliance in a first radial direction and a second spring element ( 44 ), in particular an opposite pair of two second spring elements ( 44 ) are provided for providing a radial compliance in a direction perpendicular to the first radial direction of the second radial direction. Friction disc according to claim 3, characterized in that the friction ring ( 34 ) with the attachment area ( 36 ) via the first spring element ( 38 ) and that to the first spring element ( 38 ) connected in series second spring element ( 44 ), wherein with the first spring element ( 38 ) and the second spring element ( 44 ) a connector ( 42 ), wherein the connecting piece ( 42 ) in particular a ring-shaped closed support ring ( 46 ) having. Friction disc according to one of claims 1 to 4, characterized in that the at least one spring element ( 38 . 44 ) as a, in particular substantially tangential, leaf spring ( 40 ) is configured. Friction disc according to one of claims 1 to 5, characterized in that in particular in the support ring ( 46 ), a through window ( 48 ) for passing a, in particular designed as a helical compression spring, energy storage element ( 20 ) to the limited rotatable coupling of the input flange ( 14 ) with the output flange ( 22 ) is provided. Clutch disk damper for damping torsional vibrations of a clutch disk, with one, in particular two cover disks ( 16 . 18 ) to assembled, input flange ( 14 ) for introducing a torque generated in a motor vehicle engine, in particular between the cover disks ( 16 . 18 ), relative to the input flange ( 14 ) limited rotatable output flange ( 22 ) for deriving the torque to a transmission input shaft ( 12 ), one at the input flange ( 14 ) and the output flange ( 22 ) vulnerable, especially as Schraubendruckfe the ausgestaltetes, energy storage element ( 20 ) and at least one with the input flange ( 14 ) or with the output flange ( 22 ) co-rotating friction disc ( 24 ) according to one of claims 1 to 6 for providing a frictional force on the relative to the friction disc ( 24 ) rotatable output flange ( 22 ) or input flange ( 14 ). Clutch disc damper according to claim 7, characterized in that one on the friction disc ( 24 ) engaging, in particular designed as a plate spring, friction spring ( 26 ) for providing the frictional force to the friction disc ( 24 ) is provided. Clutch disc damper according to claim 8, characterized in that the friction spring ( 26 ) at the relative to the friction disc ( 24 ) rotatable output flange ( 22 ) or input flange ( 14 ) and an intermediate piece ( 30 ) is supported, wherein the intermediate piece ( 30 ) at the of the friction spring ( 26 ) away axial side of the friction disc ( 24 ) and the friction disc ( 24 ) of the friction spring ( 26 ) between the intermediate piece ( 30 ) and the relative to the friction disc ( 24 ) rotatable output flange ( 22 ) or input flange ( 14 ) is compressed. Clutch disc damper according to one of claims 7 to 9, characterized in that two or more friction discs ( 24 ) are stacked in the axial direction one behind the other.

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