FR3062887A1 - CLUTCH DISC WITH TORSIONABLE FLEXIBLE FLASK FOR VIBRATION DAMPING - Google Patents

Abstract

The invention relates to a clutch disk (1) comprising: - a hub (7); friction linings (2, 3); a flexible flange (4) comprising an inner annular portion (10) which is integral in rotation with the hub (7), an outer annular portion (9) which is rotationally integral with the friction linings (2, 3) and a plurality of connecting arms (11) which connect the inner annular portion (10) and the outer annular portion (9) and which are adapted to damp the rotational acyclisms between the friction linings (2, 3) and the hub (7) ; - a rigid web (5) which is fixed to the outer annular portion (9) of the flexible flange (4) and which is guided in rotation on the hub (7); and a stop device capable of limiting the relative movement of the friction linings (2, 3) with respect to the hub (7) in a first and a second opposite direction.

Description

Technical area

The invention relates to the field of clutch devices for a motor vehicle and relates more particularly to a clutch disc fitted with a torsional damper.

Technological background

Combustion engines have cyclic irregularities that can cause vibrations in the gearbox. Also, motor vehicle transmissions are generally equipped with shock absorbers to filter vibrations upstream of the gearbox so as to avoid shock, noise or particularly undesirable noise.

It is notably known that clutch discs are equipped with means for damping rotation acyclisms. Such clutch discs frequently include two guide washers, a web, and coil springs. The two guide washers are integral in rotation with the friction linings. The web is interposed axially between the two guide washers and is integral in rotation with the hub of the clutch disc. The coil springs are arranged circumferentially in windows provided in the guide washers and in the web and oppose the relative rotation of the guide washers relative to the web. The helical springs thus transmit the torque by damping the vibrations between the friction linings and the hub. The clutch discs also include a hysteresis device to dissipate, by friction, the energy accumulated in the coil springs. If such clutch discs offer satisfactory vibration damping performance, they have many components and are therefore complex and expensive to manufacture.

Document FR2922282 discloses a clutch disc whose damping means are less bulky and simpler to produce. The clutch disc comprises a rigid web which is, on the one hand, fixed at its external periphery to friction linings, and, on the other hand, engaged with an external toothing of the hub, with an angular and radial clearance . The clutch disc further comprises a flexible disc which has an external periphery fixed to the web, an internal periphery rigidly fixed to the hub and a flexible intermediate part. The flexible intermediate part functions as a torsional damper as long as the angular play between the external teeth and the rigid web has not been caught. If such a clutch disc is simpler than the clutch discs mentioned above, it has a small angle of travel so that the torsion damper operates exclusively at idle speed and does not allow to effectively filter the vibrations over the entire operating range of the combustion engine.

summary

One idea behind the invention is to provide a clutch disc that is equipped with effective vibration damping functionality and that is simple, compact and inexpensive.

According to one embodiment, the invention provides a clutch disc intended to be driven in rotation about an axis X, said clutch disc comprising:

- A hub capable of being secured in rotation to a driven shaft;

- friction linings;

- A flexible flange comprising an internal annular portion which is integral in rotation with the hub, an external annular portion which is integral in rotation with the friction linings and a plurality of link arms connecting the internal annular portion and the external annular portion, said arms of connection being able to deform elastically, in a circumferential direction and thus to allow a relative clearance between the friction linings and the hub around the axis X so as to dampen the acyclisms of rotation between the friction linings and the hub ;

- A rigid web which is fixed to the external annular portion of the flexible flange and which is guided in rotation on the hub; and

- A stop device capable of limiting the relative clearance of the friction linings relative to the hub in a first and a second opposite direction.

Thus, such a clutch disc is simple and space-saving because the damping functionality is achieved by the link arms of the flexible flange.

In addition, such a clutch disc does not require splines between the rigid web and the hub, which allows, on the one hand, to simplify the manufacture of the clutch disc and, on the other hand, to have 'a larger angle of travel so that vibrations are likely to be filtered over a larger engine operating range.

According to other advantageous embodiments, such a clutch disc can have one or more of the following characteristics.

According to one embodiment, the stop device comprises a first and a second stop surface which are carried by the rigid web and a third and a fourth stop surface which are carried by the internal annular portion of the flexible flange, the first and the second abutment surface being arranged to abut respectively against the third abutment surface for a clearance threshold in the first direction and against the fourth abutment surface for a clearance threshold in the second direction.

According to one embodiment, the stop device comprises:

- At least one groove, formed in the internal annular portion of the flexible flange and extending in the circumferential direction, said groove having a first and a second circumferentially opposite ends respectively forming the third and the fourth abutment surfaces; and

- at least one tab formed in the rigid web and extending axially inside the groove; said tab having first and second circumferentially opposite surfaces respectively forming the first and second abutment surfaces. Thus, the stop device is simple and does not require any additional part.

According to one embodiment, the stop device comprises a plurality of grooves formed in the annular portion of the flexible flange and a plurality of tabs formed in the rigid web; each of said tabs extending axially inside one of said grooves.

According to one embodiment, the grooves and the legs are regularly distributed in the circumferential direction around the axis X.

According to one embodiment, the rigid web is centered on a washer which is centered and guided in rotation on the hub.

According to one embodiment, the washer is integral in rotation with the rigid web and is in rubbing contact against the internal annular portion of the flexible disc so that said washer and the internal annular portion of the flexible disc exert a friction resistant torque s' opposing the relative movement of the friction linings relative to the hub. Thus, the washer has a double functionality since it makes it possible, on the one hand, to ensure the guiding in rotation of the rigid veil and, on the other hand, to ensure a friction making it possible to dissipate the energy accumulated in the arms link.

According to one embodiment, the flexible flange is fixed axially to the hub and the washer is interposed axially between the rigid web and the internal annular portion of the flexible disc, the link arms being able to deform elastically in the axial direction and acting on the rigid web an axial load tending to pull said rigid web towards the flexible flange so as to press the washer against said internal annular portion of the flexible flange. Such an arrangement is particularly advantageous in that the hysteresis device does not require a dedicated elastic washer to ensure an axial load of the washer against the internal annular portion of the flexible flange.

According to one embodiment, the washer has a shoulder defined by a cylindrical surface of axial orientation and by a plane surface of radial orientation, the rigid web being in abutment in the direction of the flexible flange against the plane surface of radial orientation and having an internal edge which is centered on the cylindrical surface of axial orientation.

According to one embodiment, the rigid web comprises a member which extends axially in a notch formed in the washer so as to secure in rotation the rigid web and the washer.

According to one embodiment, the rigid web comprises a plurality of members extending axially in a respective notch formed in the washer.

According to one embodiment, the member which extends axially in the notch is constituted by the tab which is formed in the rigid web and which extends axially inside the groove of the flexible flange. Such an arrangement is very simple since the tab allows, on the one hand, to secure in rotation the rigid web to the washer and on the other hand to ensure a limitation of the angular clearance between the friction linings and the hub.

According to one embodiment, each member which extends axially in the notch is formed by one of the legs which is formed in the rigid web and which extends axially inside the groove of the flexible flange.

According to one embodiment, the flexible flange is welded to the hub.

According to one embodiment, the flexible flange is fixed by crimping on the hub.

According to one embodiment, the friction linings are secured to the outer annular portion of the flexible disc via progressive means ensuring elasticity in the axial direction between the two friction linings.

According to one embodiment, the flexible disc and the progressive means are formed in one piece.

According to one embodiment, the link arms are regularly distributed around the axis X.

According to one embodiment, each link arm extends, in projection in a plane orthogonal to the X axis, in a radial direction.

According to one embodiment, the link arms are regularly distributed around the axis X.

According to one embodiment, the link arms are curved, for example with a concavity directed opposite the rigid web.

According to one embodiment, the junction area of each of the connecting arms to the external annular portion has connecting radii.

According to one embodiment, the junction zone of each of the connecting arms to the internal annular portion has connecting radii.

According to one embodiment, the invention also relates to a motor vehicle comprising a said clutch disc.

Brief description of the figures

The invention will be better understood, and other objects, details, characteristics and advantages thereof will appear more clearly during the following description of several particular embodiments of the invention, given solely by way of illustration and without limitation. , with reference to the accompanying drawings.

- Figure 1 is a front view of a clutch disc according to one embodiment.

- Figure 2 is a rear view of the clutch disc of Figure 1.

- Figure 3 is a view of the clutch disc of Figure 1 in section along lll-lll.

- Figure 4 is a partial exploded view of the clutch disc of Figure 1.

- Figure 5 is an enlarged view of area V of Figure 2.

FIG. 6 is an enlarged view of zone VI of FIG. 3.

- Figure 7 is an enlarged view of area VII of Figure 3.

- Figures 8 to 11 are views similar to Figure 6 for four other alternative embodiments.

- Figure 12 is a sectional view of a clutch disc according to another embodiment.

- Figure 13 is a front view of the flexible flange of the clutch disc of Figure 12.

Detailed description of embodiments

In the description and the claims, the terms external and internal as well as the axial and radial orientations will be used to designate, according to the definitions given in the description, elements of the clutch disc. By convention, the radial orientation is directed orthogonally to the axis X of rotation of the clutch disc determining the axial orientation and, from the inside to the outside away from said axis, the circumferential orientation is directed orthogonally to the X axis and orthogonally to the radial direction. The terms external and internal are used to define the relative position of one element with respect to another, with reference to the axis X of rotation of the clutch disc, an element close to the axis is thus qualified as internal as opposed to an external element located radially on the periphery. Furthermore, the terms rear AR and front AV are used to define the relative position of one element with respect to another in the axial direction.

A clutch disc 1, as described below, is intended to be mounted integral in rotation with a driven shaft, such as an input shaft of a gearbox, and to be arranged, in a chain. transmission, between a clutch pressure plate and a reaction plate, integral in rotation with a driving shaft, such as a crankshaft. During a clutch operation, the pressure plate clamps the linings 2, 3 of the clutch disc 1 against the reaction plate so as to allow torque transmission between the driving shaft and the driven shaft.

In connection with FIGS. 1 to 6, a clutch disc 1 according to a first embodiment is described. The clutch disc 1 has two friction linings 2, 3, of annular shape, which are turned forwards and backwards respectively and which are intended to be clamped between the pressure plate and the reaction plate. the clutch. The friction linings 2, 3 are fixed to a flexible flange 4 and to a rigid web 5 via progressive means ensuring elasticity in the axial direction between the two friction linings 2, 3. To do this, according to a method of embodiment, the progressiveness means comprise a plurality of progressivity blades 6 which are each riveted to the flexible flange 4 and to the annular web 5 and which are alternately fixed by riveting to one and to the other of the two friction linings 2, 3. The progressivity blades 6 are for example made of metal sheet.

The clutch disc 1 also comprises a hub 7 which is capable of being secured in rotation to a driven shaft, not shown. To do this, the hub 7 has longitudinal grooves 8 which are formed on the internal surface of the hub 7 and which are intended to cooperate with complementary grooves formed on the driven shaft, not shown.

As shown in FIGS. 2, 3 and 4, the flexible flange 4 comprises an external annular portion 9 on which the friction linings 2, 3 are fixed, an internal annular portion 10 which is fixed to the hub 7 and a plurality of arms of elastic connection 11 which connects the external annular portion 9 and the internal annular portion 10.

The link arms 11 are regularly distributed around the axis X and are separated from each other by radial slots 12. Each link arm 11 extends, in projection in a plane orthogonal to the axis X, along a radial direction, that is to say a direction passing through the axis X. The connecting arms 11 are curved with a concavity directed towards the front, that is to say facing the rigid web 5. This curvature provides axial and circumferential flexibility between the outer annular portion 9 and the inner annular portion 10 of the flexible flange 4. Thus, each of the connecting arms 11 has a neutral fiber whose length is greater than the radial distance between the inner annular portion 10 and the outer annular portion 9. More specifically, the length of the neutral fibers of the link arms 11 is greater than the subtraction of the outer diameter of the inner annular portion 10 from the inner diameter of the outer annular portion 9. Thus, the arms 11 are adapted to deform elastically in the circumferential direction so as to allow a torsion of the flexible flange 4 around the axis X. Such a deformation of the link arms 11 in the circumferential direction thus causes a relative movement of the outer annular portion 9 with respect to the inner annular portion 10 around the axis of rotation X and, consequently, a relative clearance of the friction linings 2, 3 with respect to the hub 7.

Advantageously, the junction zone 13 of each of the connecting arms 11 to the external annular portion 9 has connecting radii. Likewise, the junction zone 14 of each of the connecting arms 11 to the internal annular portion 10 advantageously has connecting radii. Thus, the junction zones 13, 14 of each of the link arms 11 are devoid of edges, which makes it possible to avoid stress concentrations at the level of said junction zones 13, 14.

Note that the shape of the link arms 11 is described and illustrated, by way of example, and that the invention is not limited to such a shape.

The flexible flange 4 is made of metal sheet. The metal sheet is advantageously a sheet of spring steel, quenched and tempered such as steel 51CrV4, or another alloy steel of high elastic limit> 700MPa after receiving the heat treatments. In order to improve the mechanical characteristics of the flexible flange 4, and in particular to increase its elastic limit, the steel sheet is advantageously heat treated. To do this, the metal sheet undergoes for example a quenching step followed by a tempering step

By way of example, the flexible flange 4 has an angular stiffness which could be constant or variable lying in a range between 0 and 25 Nm / ° and, preferably between 0 and 10 Nm / °.

As illustrated in FIGS. 3 and 6, the internal annular portion 10 of the flexible flange 4 is welded to the hub 7. More particularly, the hub 7 is fitted inside the opening which is formed inside the internal annular portion 10 so that the internal edge of the flexible flange 4 cooperates with a cylindrical portion of the hub 7. A spot weld 15, by spot or continuous, is produced between the internal edge of the flexible flange 4 and the cylindrical portion of the hub

7.

The rigid web 5, more particularly illustrated in Figures 1, 3 and 4 aims in particular to ensure the concentricity of the friction linings and the hub. The rigid web 5 is fixed to the outer annular portion 9 of the flexible flange 4 and is centered and guided in rotation on the hub 7. In the embodiment shown, the rigid web 5 and the flexible flange 4 are fixed to the progressive means by common fasteners, here rivets 16.

The rigid cover 5 is formed from a metal sheet and is advantageously perforated so as to limit the inertia of the clutch disc 1. The rigid cover 5 has a central opening 17 through which said rigid cover 5 is mounted on the hub 7. The rigid web 5 is guided in rotation on the hub 7 by means of a washer 18 forming a smooth bearing.

As shown in particular in FIGS. 6 and 7, the washer 18 is fitted onto the hub 7 and has an internal surface 19 which is cylindrical and which is in contact with a cylindrical external surface of the hub 7 so as to guide it in rotation. The washer 18 also has a shoulder 20, illustrated in particular in FIG. 7, which is defined by a cylindrical surface of axial orientation 21 and by a planar surface of radial orientation 22. The rigid web 5 has a cylindrical internal edge which is centered on the cylindrical surface of axial orientation 21 of the shoulder 20 so as to center the rigid web 5 on the washer 18. In addition, the rear face of the rigid web 5 is in abutment against the flat surface of orientation radial 22.

In addition to the function of guiding the rigid web 5 on the hub 7, the washer 18 performs a function of dissipating energy by friction. In fact, the washer 18 is arranged to exert a resisting friction torque opposing the relative movement around the axis X between the friction linings 2, 3 and the hub 7, so as to dissipate the accumulated energy by friction in the link arms 11 of the flexible flange 4.

To do this, the washer 18 is, on the one hand, secured in rotation to the rigid web 5 and, on the other hand, has a portion which is interposed axially between the rigid web 5 and the internal annular portion 10 of the flexible flange 4 The flexible flange 4 is fixed axially to the rigid veil 4 in an axially prestressed state so that the connecting arms 11 exert on the rigid veil 5 an axial load which tends to bring said rigid veil 5 closer to the flexible flange 4. Thus, the flexible veil 4, which bears against the shoulder 20 of the washer 18, axially plates said washer 18 against the internal annular portion 10 of the flexible disc 4.

The washer 18 is for example made of a plastic material, such as Poliamide 6.6, optionally reinforced with fibers.

In order to secure the rigid web 5 in rotation to the washer 18, the rigid web has three tabs 23, shown in FIG. 4, which protrude axially towards the rear and which are regularly distributed around the axis X. Each of the said legs 23 is received in a respective notch 24 formed in the friction washer 18. The quantity of legs could increase from 3 to 12 depending on the application.

Furthermore, the clutch disc 1 comprises a stop device capable of limiting the relative clearance of the friction linings 2, 3 relative to the hub 7. Such a stop device makes it possible to protect the link arms 11 against likely overtorques to pass through the clutch disc 1, under certain severe conditions of use of the vehicle or in the event of a malfunction of the powertrain.

To do this, the flexible disc 4 is equipped with grooves 25 formed in its internal annular portion 10. The grooves 25 are regularly distributed around the axis X and each extend in the circumferential direction around the axis X. Each of the three legs 23 of the rigid web 5 is received inside one of said grooves 25. Thus, as shown in FIG. 5, each of the legs 23 has two circumferentially opposite surfaces 26, 27 which are respectively opposite the one and the other of the circumferentially opposite ends 28, 29 of the respective groove 25. Consequently, beyond a first threshold of relative movement of the friction linings 2, 3 relative to the hub 7 according to a first direction of rotation, one of the two circumferentially opposite surfaces 26 of each tab 23 comes into abutment against one of the ends 28 of the respective groove 25 while, beyond a second relative displacement threshold of the friction linings 2, 3 relative to the hub 7 according to a second direction of rotation, the other of the two surfaces circumferentially opposite 27 of the tab 23 comes into abutment against the other end 29 of the groove 25. For example, the values of the angular movement are in a range between 5 and 20 °.

The operation of a clutch disc as described above is as follows. When a driving torque is transmitted from the engine to the vehicle wheels, a torque passes through the flexible flange 4, from the friction linings 2, 3 to the hub 7. Under the effect of this torque, the link arms 11 deform in the circumferential direction, in the first direction, and the friction linings 2, 3 pivot relative to the hub 7 around the axis X in the first direction. During such a relative movement, the washer 18 rubs against the internal annular portion 10 of the flexible flange 4. When a resistant torque is transmitted from the wheels to the engines of the vehicle, a torque passes through the flexible flange 4, from the hub 7 towards the friction linings 2, 3. Under the effect of this torque, the link arms 11 deform in the circumferential direction, in the second direction opposite to said first direction, and the friction linings pivot relative to the hub, around from the X axis, in the second direction. Thus, the torsional vibrations and the torque irregularities which are produced by the engine and which pass through the clutch disc 1 are damped, on the one hand, by the elastic bending of the link arms 11 and, on the other hand , by dissipation by friction of the energy accumulated in said link arms 11.

Beyond a driving torque threshold or a resisting torque threshold, the lugs 23 each come into abutment against one of the ends 28, 29 of one of the grooves 25. Thus, the overlays do not pass by the link arms 11 but pass via the rigid web 5 and the internal annular portion 10 of the flexible flange 4.

FIGS. 8 to 11 show different methods of fixing the flexible flange 4 to the hub 7.

In the embodiments shown in FIGS. 8 to 10, the hub 7 has, near its rear end, a shoulder 30 defined by a cylindrical surface of axial orientation 32 and by a plane surface of radial orientation 31. The internal edge of the flexible flange 4 cooperates with the axial orientation portion 32 while the front face of the internal annular portion 10 of the flexible flange 4 bears against the planar surface of radial orientation 31. The welding 15 can alternatively be carried out between the internal portion 10 of the flexible flange 4 and the cylindrical surface of the hub 7 on which the washer 18 is guided in rotation (FIG. 8), between the internal portion 10 and the planar surface of radial orientation 31 (FIG.

9) or between the internal portion 10 and the cylindrical surface of axial orientation 32 (FIG.

10).

Alternatively, the internal annular portion 10 of the flexible flange can be fixed by crimping on the hub 7, as shown in FIG. 11, or even be fixed by riveting on the hub 7, not shown.

Figures 12 and 13 show a clutch disc 1 according to another embodiment. The clutch disc 1 differs from the embodiments described above in that the progressive means on which the friction linings 2, 3 are fixed and ensuring elasticity in the axial direction between the two friction linings 2, 3 are formed. integrally with the flexible flange 4. Thus, the outer annular portion 9 of the flexible flange 4 comprises a plurality of progressivity blades 33 which are alternately offset axially forward and backward relative to a median plane , orthogonal to the X axis, and which are alternately fixed to one and to the other of the two friction linings 2, 3.

Although the invention has been described in connection with several particular embodiments, it is obvious that it is in no way limited thereto and that it includes all the technical equivalents of the means described as well as their combinations if these fall within the scope of the invention.

The use of the verb "behave", "understand" or "include" and its conjugate forms does not exclude the presence of other elements or steps than those set out in a claim.

In the claims, any reference sign in parentheses cannot be interpreted as a limitation of the claim.

Claims (14)

1. Clutch disc (1) intended to be rotated about an X axis, said clutch disc (1) comprising: - a hub (7) capable of being secured in rotation to a driven shaft; - friction linings (2, 3); - a flexible flange (4) comprising an inner annular portion (10) which is integral in rotation with the hub (7), an outer annular portion (9) which is integral in rotation with the friction linings (2, 3) and a plurality of link arms (11) connecting the internal annular portion (10) and the external annular portion (9), said link arms (11) being capable of deforming elastically, in a circumferential direction and thus allowing relative movement between the friction linings (2, 3) and the hub (7) around the X axis so as to dampen the rotation acyclisms between the friction linings (2, 3) and the hub (7); - a rigid web (5) which is fixed to the external annular portion (9) of the flexible flange (4) and which is guided in rotation on the hub (7); and - A stop device capable of limiting the relative clearance of the friction linings (2, 3) relative to the hub (7) in a first and a second opposite direction. 2. The clutch disc (1) according to claim 1, in which the stop device comprises first and second stop surfaces (26, 27) which are carried by the rigid web (5) and a third and a fourth. abutment surfaces (28, 29) which are carried by the internal annular portion (10) of the flexible flange (4), the first and second abutment surfaces (26, 27) being arranged to abut respectively against the third surface stop (28) for a travel threshold in the first direction and against the fourth stop surface (29) for a travel threshold in the second direction. 3. Clutch disc (1) according to claim 2, in which the stop device comprises: - At least one groove (25), formed in the internal annular portion (10) of the flexible flange (4) and extending in the circumferential direction, said groove (25) having first and second ends (28, 29) circumferentially opposite respectively forming the third and the fourth abutment surfaces; and - at least one tab (23) formed in the rigid web (5) and extending axially inside the groove (25); said tab (23) having first and second circumferentially opposite surfaces (26, 27) respectively forming the first and second abutment surfaces. 4. Clutch disc (1) according to any one of claims 1 to 3, wherein the rigid web (5) is centered on a washer (18) which is centered and guided in rotation on the hub (7). 5. Clutch disc (1) according to claim 4, wherein the washer (18) is integral in rotation with the rigid web (5) and is in friction contact against the internal annular portion (10) of the flexible disc so that said washer (18) and the internal annular portion (10) of the flexible disc exert a resisting friction torque opposing the relative movement of the friction linings (2, 3) relative to the hub (7). 6. Clutch disc (1) according to claim 5, in which the flexible flange (4) is fixed axially to the hub (7) and in which the washer (18) is interposed axially between the rigid web (5) and the internal annular portion (10) of the flexible disc, the link arms (11) being able to deform elastically in the axial direction and exerting on the rigid web (5) an axial load tending to pull said rigid web (5) towards the flexible flange (4) so as to press the washer (18) against said internal annular portion (10) of the flexible flange (4). 7. The clutch disc (1) according to claim 6, in which the washer (18) has a shoulder (20) defined by a cylindrical surface of axial orientation (21) and by a plane surface of radial orientation (22 ), the rigid web (5) bearing in the direction of the flexible flange (4) against the flat surface of radial orientation (22) and having an internal edge which is centered on the cylindrical surface of axial orientation (21). 8. Clutch disc (1) according to any one of claims 5 to 7, in which the rigid web (5) comprises a member (23) which extends axially in a notch (24) formed in the washer ( 18) so as to secure the rigid web (5) and the washer (18) in rotation. 9. Clutch disc (1) according to claim 8 taken in combination with claim 3, wherein the member which extends axially in the notch is constituted by the tab (23) which is formed in the rigid web (5) and which extends axially inside the groove of the flexible flange (4). 10. Clutch disc (1) according to any one of claims 1 to 9, in which the flexible flange (4) is welded to the hub (7). 11. Clutch disc (1) according to any one of claims 1 to 9, in which the flexible flange (4) is fixed by crimping on the hub (7). 5 12. Clutch disc (1) according to any one of the claims 1 to 11, in which the friction linings (2, 3) are secured to the outer annular portion (9) of the flexible disc (4) via progressive means (6,33) ensuring elasticity in the axial direction between the friction linings (2, 3). 13. The clutch disc (1) according to claim 12, in the disc. 10 flexible (4) and the progressive means (33) are formed in one piece. 14. Motor vehicle comprising a clutch disc according to any one of the preceding claims. 1/5 2/5