Prosthetic joint

We claim: 1. An artificial ankle joint, comprising: a foot connector; a lower leg connector, the lower leg connector and the foot connector being pivotable with respect to another about an axis of rotation; a fluid system, comprising: a first cylinder having a first fluid chamber; a first piston movably positioned inside the first cylinder; a second cylinder having a second fluid chamber; a second piston movably positioned inside the second cylinder; a fluid connection providing fluid communication between the first fluid chamber and the second fluid chamber; a fluid movable from one of the first fluid chamber and the second fluid chamber through the fluid connection into the other of the first fluid chamber and the second fluid chamber by pivoting the foot connector relative to the lower leg connector about the axis of rotation; wherein the first cylinder and the second cylinder are positioned posterior of the axis of rotation. 2. The artificial ankle joint according to claim 1 , wherein the fluid system further comprises a reservoir coupled to the first fluid chamber and to the second fluid chamber. 3. The artificial ankle joint according to claim 1 , wherein at least one of the first cylinder and the second cylinder is a rotary cylinder. 4. The artificial ankle joint according to claim 1 , further comprising a non-electronic controlling device operable to control an amount of the fluid that is moved between the first fluid chamber and the second fluid chamber based on at least one of a position or a change of position of the foot connector relative to the lower leg connector. 5. The artificial ankle joint according to claim 4 , wherein the controlling device comprises a valve that is adapted to close the fluid connection when the foot connector is in a predetermined closing position relative to the lower leg connector. 6. The artificial ankle joint according to claim 5 , wherein the controlling device further comprises a damper adapted to dampen a movement of the valve. 7. The artificial ankle joint according to claim 5 , wherein the controlling device further comprises a contact surface and at least one contact element, the contact element sliding or rolling on the contact surface when the foot connector is moved relative to the lower leg connector, which leads to a movement of the valve. 8. An artificial ankle joint, comprising: a foot connector; a lower leg connector, the lower leg connector and the foot connector being pivotable with respect to each other about an axis of rotation; a fluid system, comprising: a first piston/cylinder assembly having a first fluid chamber and being positioned posterior of the axis of rotation; a second piston/cylinder assembly having a second fluid chamber and being positioned posterior of the axis of rotation; a fluid connection providing fluid communication between the first and second fluid chambers; a fluid movable between the first and second fluid chamber via the fluid connection when the foot connector rotates relative to the lower leg connector. 9. The artificial ankle joint according to claim 8 , wherein the fluid system further comprises a reservoir in fluid communication with the first and second fluid chambers. 10. The artificial ankle joint according to claim 8 , wherein at least one of the first and second piston/cylinder assemblies includes a rotary cylinder. 11. The artificial ankle joint according to claim 8 , further comprising a non-electronic controlling device operable to control an amount of the fluid that is moved between the first and second fluid chambers when the foot connector rotates relative to the lower leg connector. 12. The artificial ankle joint according to claim 11 , wherein the controlling device comprises a valve adapted to close the fluid connection when the foot connector is in a predetermined closing position relative to the lower leg connector. 13. The artificial ankle joint according to claim 12 , wherein the controlling device further comprises a damper adapted to dampen a movement of the valve. 14. The artificial ankle joint according to claim 12 , wherein the controlling device further comprises a contact surface and at least one contact element, the contact element sliding or rolling on the contact surface when the foot connector is moved relative to the lower leg connector, which leads to a movement of the valve. 15. The artificial ankle joint according to claim 8 , wherein the first piston/cylinder assembly includes a first piston movable within a first cylinder, and the second piston/cylinder assembly includes a second piston movable within a second cylinder.