Clutch

The invention claimed is: 1. A clutch, comprising a first clutch part connected to a drive shaft; a second clutch part connected to an output shaft; a pressure element arranged to engage the first and second clutch parts, wherein a reinforcement mechanism is provided in a force flow zone between the pressure element and the second clutch part, wherein the mechanism includes first and second ramps to transmit a biasing force for pressing the pressure element against the first clutch part, wherein the first and second ramps contact to form a first ramp pair wherein a circumferential direction component of the first and second ramps of the first ramp pair points in a first circumferential direction, and third and fourth ramps are pressed against each other to form a second ramp pair wherein a circumferential direction component of the third and fourth ramps of the second ramp pair points in a second circumferential direction opposite the first circumferential direction, and wherein the first and second ramps are arranged pressing against each other and the third and fourth ramps are pressing against each other such that the first and second ramps and the third and fourth ramps, respectively, remain in surface contact when a direction of torque, transmitted between the first and second clutch parts, changes from the first circumferential direction to the second circumferential direction. 2. The clutch as claimed in claim 1 , wherein the first and second ramps are pressed against each other by an axial force, and simultaneously the third and fourth ramps are pressed against each other by the axial force. 3. The clutch as claimed in claim 1 , wherein the first and second ramps are pressed against each other creating a surface normal force with an axial direction component which is parallel to the drive and output shafts and the circumferential direction component which is circumferentially around the drive and output shafts. 4. The clutch as claimed in claim 3 , wherein: the reinforcement mechanism further comprises a ramp piece pair including a first ramp piece having the second and fourth ramps and a second ramp piece including the first and third ramps, wherein the first and second ramp pieces lie against each other axially on faces via the first, second, third, and fourth ramps, and the second ramp piece is mounted on the pressure element, and the first ramp piece is mounted essentially rotationally fixed on the first clutch part. 5. The clutch as claimed in claim 4 , wherein the first and second ramp pieces of the ramp piece pair are arranged lying against each other axially on the faces of both the first ramp pair and the second ramp pair under all operating conditions. 6. The clutch as claimed in claim 5 , wherein: the first and second ramp pieces lie against each other under spring pre-tension, wherein the first ramp piece is pressed against the second ramp piece by a first spring in a pressure application direction; and the second ramp piece is pressed against the first ramp piece by a second spring against the pressure application direction. 7. The clutch as claimed in claim 6 , wherein the first ramp piece and the second ramp piece each include a head portion and a foot portion, wherein the first ramp piece is guided in a first guide channel on the first clutch part and the second ramp piece is guided in a second guide channel on the pressure element. 8. The clutch as claimed in claim 7 , wherein: the foot portion of the first ramp piece and the foot portion of the second ramp piece are guided axially moveably in the first guide channel and in the second guide channel, respectively, and a cross section of the first foot portion of the first ramp piece and a cross section of the second foot portion of the second ramp piece have a smaller dimension than the cross section of the first guide channel and a cross section of the second guide channel respectively, which smaller dimension is suitable for self-inhibition of axial displaceability of the foot portions of the first and second ramp pieces by tilting in the first and second guide channels, respectively. 9. The clutch as claimed in claim 8 , wherein the first foot portion, at least on a side pointing in the circumferential direction, includes rear and front protrusions which run transverse to the pressure application direction and are arranged axially spaced by a distance and via which the first foot portion, on torque transmission, lies axially friction-resistantly inside the first guide channel. 10. The clutch as claimed in claim 4 , wherein the ramp piece pair is one of a plurality of ramp piece pairs which, in relation to the drive and output shafts, are arranged radially on a circumferential circle around the drive and output shafts and evenly spaced from each other circumferentially. 11. The clutch as claimed in claim 6 , wherein the second spring exerts a force against the pressure application direction on the pressure element to release the pressure element from the second clutch part. 12. The clutch as claimed in claim 11 , wherein: the first clutch part is a clutch cover which is connectable to, and rotationally fixed with, the drive shaft via a clutch basket or flywheel, and the second clutch part, the pressure element, the pressure element and reinforcement mechanism are arranged axially between the clutch basket or the flywheel and clutch cover, wherein the second ramp piece is mounted on the pressure element, the second clutch part rests on the pressure element in the pressure application direction, and the second spring rests on the pressure element and on the clutch basket or the flywheel. 13. The clutch as claimed in claim 6 , wherein a spring constant of the second spring has a value which is a multiple of the value of a spring constant of the first spring. 14. The clutch as claimed in claim 13 , wherein the multiple is between ten and twenty. 15. A clutch comprising: a first clutch part connected to a drive shaft; a second clutch part connected to an output shaft; a pressure element configured to selectively cause the first and second clutch parts to engage; a first ramp piece essentially rotationally fixed to the first clutch part and having a first ramp oriented in a first circumferential direction and a second ramp oriented in a second circumferential direction for torque transfer in a direction opposite from torque transfer of the first ramp; and a second ramp piece mounted to the pressure element and having a third ramp oriented parallel to the first ramp and a fourth ramp oriented parallel to the second ramp, wherein the first and third ramps and the second and fourth ramps remain in surface contact in both directions of relative torque between the first and second clutch parts under all operating conditions. 16. The clutch of claim 15 including a first spring pressing against the first ramp piece to bias the first ramp piece toward the second ramp piece. 17. The clutch of claim 16 including a second spring pressing against the pressure element, biasing the pressure element against the second ramp piece, which, in turn, is biased against the first ramp piece. 18. A clutch comprising: a first clutch part connected to a drive shaft and including a first channel guide; a second clutch part connected to an output shaft; a pressure element configured to selectively cause the first and second clutch parts to engage and including a second channel guide; a first ramp piece mounted essentially non-rotatably in the first channel guide of the first clutch part and having