Torque transmitting device

The invention claimed is: 1. A torque transmitting device ( 1 ) comprising: a torque input element ( 5 ) configured to be coupled to a crankshaft of an engine a torque output element ( 8 ) configured to be coupled to a transmission input shaft; a damping device ( 13 , 17 ) mounted between the torque input element ( 5 ) and the torque output element ( 8 ), the torque output element ( 8 ) configured to pivot relative to the torque input element ( 5 ) about an axis (X) against a resisting torque exerted by the damping device ( 13 , 17 ); and a clutch device ( 20 , 18 ) mounted between the damping device ( 13 , 17 ) and the torque output element ( 8 ); the damping device ( 13 , 17 ) operatively connected to the torque output element ( 8 ) through the clutch device ( 20 , 18 ); the damping device comprising at least one elastic leaf ( 17 ) configured to be elastically and radially held to rest on a supporting member ( 13 ), the at least one elastic leaf ( 17 ) configured to bend upon rotation of the torque input element ( 5 ) relative to the torque output element ( 8 ), the supporting member ( 13 ) being carried by the torque input element ( 5 ). 2. The torque transmitting device ( 1 ) according to claim 1 , wherein the torque input element comprises a cover ( 5 ) at least partly accommodating the damping device ( 13 , 17 ) and the clutch device ( 20 , 18 ), and wherein the supporting member is carried by the cover ( 5 ). 3. The torque transmitting device ( 1 ) according to claim 2 , wherein the supporting member comprises a rolling body ( 13 ) so mounted as to pivot about a shaft ( 14 ) fixed to or formed by the cover ( 5 ). 4. The torque transmitting device ( 1 ) according to claim 1 , wherein a shaft ( 14 ) is welded to the cover ( 5 ). 5. The torque transmitting device ( 1 ) according to claim 4 , wherein the piston ( 20 ) is non-rotatably coupled to the torque output element ( 8 ). 6. The torque transmitting device ( 1 ) according to claim 1 , wherein the clutch device comprises a piston ( 20 ) axially movable from an engaged position in which the torque input element ( 5 ) is coupled to the torque output element ( 8 ) through the damping means ( 13 , 17 ), and a disengaged position. 7. The torque transmitting device ( 1 ) according claim 1 , further comprising a turbine wheel ( 3 ) and an impeller wheel ( 2 ) non-rotatably coupled to the torque input element ( 5 ) and configured to hydrokinetically drive the turbine wheel ( 3 ). 8. A device ( 1 ) according to claim 7 , further comprising a reactor ( 4 ), with the impeller wheel ( 2 ) configured to hydrokinetically drive the turbine wheel ( 3 ) through the reactor ( 4 ). 9. The torque transmitting device ( 1 ) according to claim 1 , wherein the torque output element comprises a central hub ( 8 ). 10. The torque transmitting device ( 1 ) according to claim 2 , wherein a shaft ( 14 ) is welded to the cover ( 5 ). 11. The torque transmitting device ( 1 ) according to claim 3 , wherein a shaft ( 14 ) is welded to the cover ( 5 ). 12. The torque transmitting device ( 1 ) according to claim 2 , wherein the clutch device comprises a piston ( 20 ) axially movable from an engaged position in which the torque input element ( 5 ) is rotationally coupled to the torque output element ( 8 ) through the damping means ( 13 , 17 ), and a disengaged position. 13. The torque transmitting device ( 1 ) according to claim 3 , wherein the clutch device comprises a piston ( 20 ) axially movable from an engaged position in which the torque input element ( 5 ) is coupled to the torque output element ( 8 ) through the damping means ( 13 , 17 ), and a disengaged position. 14. The torque transmitting device ( 1 ) according to claim 4 , wherein the clutch device comprises a piston ( 20 ) axially movable from an engaged position in which the torque input element ( 5 ) is coupled to the torque output element ( 8 ) through the damping means ( 13 , 17 ), and a disengaged position. 15. A torque transmitting device ( 1 ), comprising: a torque input element ( 5 ) configured to be coupled to a crankshaft of an engine; a torque output element ( 8 ) configured to be coupled to a transmission input shaft; a damping device ( 13 , 17 ) mounted between the torque input element ( 5 ) and the torque output element ( 8 ), the torque output element ( 8 ) configured to pivot relative to the torque input element ( 5 ) about an axis (X) against a resisting torque exerted by the damping device ( 13 , 17 ); and a clutch device ( 20 , 18 ) mounted between the torque input element ( 5 ) and the torque output element ( 8 ); the damping device comprising at least one elastic leaf ( 17 ) configured to be elastically and radially held to rest on a supporting member ( 13 ), the at least one elastic leaf ( 17 ) configured to bend upon rotation of the torque input element ( 5 ) relative to the torque output element ( 8 ), the supporting member ( 13 ) being carried by the torque input element ( 5 ); the clutch device comprising a piston ( 20 ) axially movable from an engaged position in which the torque input element ( 5 ) is coupled to the torque output element ( 8 ) through the damping means ( 13 , 1 ), and a disengaged position; the torque transmitting device ( 1 ) further comprising an assistance device ( 24 ) exerting an axial stress tending to return the piston ( 20 ) to the engaged position thereof. 16. The torque transmitting device ( 1 ) according to claim 15 , wherein the assistance device ( 24 ) includes at least one washer ( 24 ) elastically axially deformable. 17. The torque transmitting device ( 1 ) according to claim 15 , further comprising a supporting flange ( 18 ) friction-coupled to the piston ( 20 ) in the engaged position and configured to be rotationally uncoupled relative to the piston ( 20 ) in the disengaged position, and wherein the at least one elastic leaf ( 17 ) is fixed to the supporting flange ( 18 ). 18. The torque transmitting device ( 1 ) according to claim 16 , further comprising a supporting flange ( 18 ) friction-coupled to the piston ( 20 ) in the engaged position and configured to be rotationally uncoupled relative to the piston ( 20 ) in the disengaged position, and wherein the at least one elastic leaf ( 17 ) is fixed to the supporting flange ( 18 ). 19. A torque transmitting device ( 1 ), comprising: a torque input element ( 5 ) configured to be coupled to a crankshaft of an engine; a torque output element ( 8 ) configured to be coupled to a transmission input shaft; a damping device ( 13 , 17 ) mounted between the torque input element ( 5 ) and the torque output element ( 8 ), the torque output element ( 8 ) configured to pivot relative to the torque input element ( 5 ) about an axis (X) against a resisting torque exerted by the damping device ( 13 , 17 ); and a clutch device ( 20 , 18 ) mounted between the torque input element ( 5 ) and the torque output element ( 8 ); the damping device comprising at least one elastic leaf ( 17 ) configured to be elastically and radially held to rest on a supporting member ( 13 ), the at least one elastic leaf ( 17 ) configured to bend upon rotation of the torque input element ( 5 ) relative to the torque output element ( 8 ), the supporting member ( 13 ) being carried by the torque input element ( 5 ); the clutch device comprising: a piston ( 20 ) axially movable from an engaged position in which the torque input element ( 5 ) is coupled to the torque output element ( 8 ) through the damping means ( 13 , 17 ), and a disengaged position; and