Torque transmission device for motor vehicle

The invention claimed is: 1. A torque transmission device, comprising: a torque input element ( 15 , 17 ) and a torque output element ( 8 ) pivotable about an axis (X) with respect to one another; at least one elastic leaf ( 22 ) rotationally coupled to one of the torque output element ( 8 ) and the torque input element ( 15 , 17 ); and a supporting member ( 18 ) carried by another one of the torque output element ( 8 ) and the torque input element ( 15 , 17 ), the at least one elastic leaf ( 22 ) configured to elastically and radially engage the supporting member ( 18 ); the at least one elastic leaf ( 22 ) configured to bend upon rotation of the torque input element ( 15 , 17 ) with respect to the torque input element ( 8 ); the at least one elastic leaf ( 22 ) comprising a radially external strand ( 25 ) comprising a radially external surface forming a raceway ( 26 ) in contact with the supporting member ( 18 ), a radially internal strand ( 27 ) rotationally coupled with one of the torque output element ( 8 ) and torque input element ( 15 , 17 ), and a radially median strand ( 28 ) located radially between the radially internal ( 27 ) and external ( 25 ) strands so that the median strand is disposed radially under the external strand; the median strand ( 28 ) comprising a first circumferential end connected with the internal strand ( 27 ) by a first curved area ( 29 ); the median strand ( 28 ) further comprising a second circumferential end connected with the external strand ( 25 ) by a second curved area ( 30 ); the external strand ( 25 ) and the median strand ( 28 ) being elastically deformable in the radial direction; the supporting member ( 18 ) configured to move along the raceway ( 26 ). 2. The device according to claim 1 , wherein at least one of the median strand ( 28 ) and the first curved area ( 29 ) comprises an area having a smaller section than at least one of the external strand ( 25 ) and the second curved area ( 30 ). 3. The device according to claim 2 , wherein the external strand ( 25 ) angularly extends over a range from 80 to 180°. 4. The device according to claim 2 , wherein the raceway ( 26 ) comprises a bearing area at rest ( 32 ), a forward bearing area ( 33 ) and a backward bearing area ( 34 ), wherein the bearing area at rest ( 32 ) forms the bearing area of the supporting member ( 18 ) in a position of rest of the device ( 1 ) when no torque is transmitted through the device ( 1 ), wherein the forward bearing area ( 33 ) forms the bearing area of the supporting member ( 18 ) when the torque input element ( 15 , 17 ) pivots with respect to the torque output element ( 8 ) in a first direction of rotation, wherein the forward bearing area ( 33 ) is located opposite the second curved area ( 30 ) with respect to the bearing area at rest ( 32 ), wherein the backward bearing area ( 34 ) forms the bearing area of the supporting member ( 18 ) when the torque input element ( 15 , 17 ) pivots with respect to the torque output element ( 8 ) in a second direction of rotation, wherein the backward bearing area ( 34 ) is located on the second curved area ( 30 ) side with respect to the bearing area at rest ( 32 ), wherein the forward bearing area ( 33 ) angularly extends over a range from 10 to 100°, and wherein the backward bearing area ( 34 ) angularly extends over a range from 10 to 30°. 5. The device according to claim 2 , wherein the median strand ( 28 ) angularly extends over a range from 80 to 165°. 6. The device according to claim 1 , wherein a thickness of the at least one elastic leaf ( 22 ) in an axial direction is substantially constant, and wherein a section of the at least one elastic leaf ( 22 ) varies by varying a width (L) in the radial direction of the at least one elastic leaf ( 22 ). 7. The device according to claim 6 , wherein the raceway ( 26 ) comprises a bearing area at rest ( 32 ), a forward bearing area ( 33 ) and a backward bearing area ( 34 ), wherein the bearing area at rest ( 32 ) forms the bearing area of the supporting member ( 18 ) in a position of rest of the device ( 1 ) when no torque is transmitted through the device ( 1 ), wherein the forward bearing area ( 33 ) forms the bearing area of the supporting member ( 18 ) when the torque input element ( 15 , 17 ) pivots with respect to the torque output element ( 8 ) in a first direction of rotation, wherein the forward bearing area ( 33 ) is located opposite the second curved area ( 30 ) with respect to the bearing area at rest ( 32 ), wherein the backward bearing area ( 34 ) forms the bearing area of the supporting member ( 18 ) when the torque input element ( 15 , 17 ) pivots with respect to the torque output element ( 8 ) in a second direction of rotation, wherein the backward bearing area ( 34 ) is located on the second curved area ( 30 ) side with respect to the bearing area at rest ( 32 ), wherein the forward bearing area ( 33 ) angularly extends over a range from 10 to 100°, and wherein the backward bearing area ( 34 ) angularly extends over a range from 10 to 30°. 8. The device according to claim 6 , wherein the external strand ( 25 ) angularly extends over a range from 80 to 180°. 9. The device according to claim 6 , wherein the median strand ( 28 ) angularly extends over a range from 80 to 165°. 10. The device according to claim 1 , wherein the raceway ( 26 ) comprises a bearing area at rest ( 32 ), a forward bearing area ( 33 ) and a backward bearing area ( 34 ), wherein the bearing area at rest ( 32 ) forms the bearing area of the supporting member ( 18 ) in a position of rest of the device ( 1 ) when no torque is transmitted through the device ( 1 ), wherein the forward bearing area ( 33 ) forms the bearing area of the supporting member ( 18 ) when the torque input element ( 15 , 17 ) pivots with respect to the torque output element ( 8 ) in a first direction of rotation, wherein the forward bearing area ( 33 ) is located opposite the second curved area ( 30 ) with respect to the bearing area at rest ( 32 ), wherein the backward bearing area ( 34 ) forms the bearing area of the supporting member ( 18 ) when the torque input element ( 15 , 17 ) pivots with respect to the torque output element ( 8 ) in a second direction of rotation, wherein the backward bearing area ( 34 ) is located on the second curved area ( 30 ) side with respect to the bearing area at rest ( 32 ), wherein the forward bearing area ( 33 ) angularly extends over a range from 10 to 100°, and wherein the backward bearing area ( 34 ) angularly extends over a range from 10 to 30°. 11. The device according to claim 10 , wherein the forward bearing area ( 33 ) comprises a straight or concave portion ( 36 ), located close to the bearing area at rest ( 32 ), with the rest of the raceway ( 26 ) being domed or convex. 12. The device according to claim 10 , wherein the external strand ( 25 ) angularly extends over a range from 80 to 180°. 13. The device according to claim 10 , wherein the median strand ( 28 ) angularly extends over a range from 80 to 165°. 14. The device according to claim 1 , wherein the external strand ( 25 ) angularly extends over a range from 80 to 180°. 15. The device according to claim 14 , wherein the median strand ( 28 ) angularly extends over a range from 80 to 165°. 16. The device according to claim 1 , wherein the median strand ( 28 ) angularly extends over a range from 80 to 165°. 17. The device according to claim 1 , wherein the median strand ( 28 ) comprises a portion ( 35 ) substantially extending along an arc of circle. 18. The device according to claim 17