Abstract: A above knee prosthesis (P) applied to femoral connection (100) of an amputee that comprises a upper hinge (1) connected to femoral connection of the patient, an articulation axis (2) with the function of reproducing the knee movements, a tibia-calf muscle unit (3) pivotally connected to the femoral•segment and a damper (5) that reproduces some functions of the calf muscle and ensures to the prosthesis to brake and to allow the sequential swing and stance phases typical of the gait. The damper comprises a cylinder (5c) wherein a piston (10) and a stem (9) act connected to each other and adapted to carry out a damping reaction of said damper responsive to the forces loaded on the prosthesis. In particular, a force transducer is provided in the damper arranged, in particular, in the stem with a microprocessor that receives a force signal from the transducer and operates means for adjusting the reaction of the damper responsive to the detected force signal.
Abstract: A prosthesis for lower-limb amputees having a foot segment and a tibial segment pivotally connected to each other about an articulation axis that perform an ankle joint of a leg/foot prosthesis. The leg-foot prosthesis has a gear motor whose axis coincides with the axis of the tibia. From the gear motor a pinion gear extends below with conical toothed shape that meshes with a toothed arch present on the foot. This way, the gear motor operates the relative movement between tibia and foot and varies the relative angle ?. The gear motor can be associated with a microprocessor that is adapted to control the movement of the ankle joint. To obtain that, the microprocessor communicates with a position transducer provided at the articulation axis of the ankle that measure the rotation of the ankle, i.e. the angle ?.
Abstract: A above knee prosthesis (P) applied to femoral connection (100) of an amputee that comprises a upper hinge (1) connected to femoral connection of the patient, an articulation axis (2) with the function of reproducing the knee movements, a tibia-calf muscle unit (3) pivotally connected to the femoral•segment and a damper (5) that reproduces some functions of the calf muscle and ensures to the prosthesis to brake and to allow the sequential swing and stance phases typical of the gait. The damper comprises a cylinder (5c) wherein a piston (10) and a stem (9) act connected to each other and adapted to carry out a damping reaction of said damper responsive to the forces loaded on the prosthesis. In particular, a force transducer is provided in the damper arranged, in particular, in the stem with a microprocessor that receives a force signal from the transducer and operates means for adjusting the reaction of the damper responsive to the detected force signal.