Patent ID: 9687363
Date: 2017-06-27
CPC Classifications: A61F

Claim:
1. A bi-articular prosthetic or orthotic leg comprising: an above-knee segment configured to attach to a biological limb of a human body above a knee of the human body; a support member connected at its upper end to said above-knee segment, said support member configured to rotate with respect to said above-knee segment to define a knee joint; a foot member attached to a lower end of the support member, the foot member including a rearwardly extending heel portion and a forwardly extending toe portion to make periodic bearing contact with ground during walking, running or jumping gait cycle of a human body, said foot member configured to rotate relative to said support member to define an ankle joint; first and second anterior pneumatic springs; the first anterior pneumatic spring connected at its upper end to the above-knee segment and connected at its lower end to a mid-portion of the support member, the first anterior spring displaced from the knee joint and configured to store energy when said support member rotates about said knee joint to move said foot member rearwardly with respect to said above-knee segment and configured to release energy to rotate said support member about said knee joint; the second anterior pneumatic spring connected at its upper end to said mid-portion of the support member and connected at its lower end to said foot member; an anterior knee valve operably connected to said first anterior pneumatic spring; an anterior ankle valve operably connected to said second anterior pneumatic spring; a posterior pneumatic spring connected at its upper end to the above-knee segment and connected at its lower end to said mid-portion of the support member, the posterior spring displaced from the knee joint and configured to store energy when said support member is rotated in an extension movement about said knee joint and configured to store energy to rotate said foot member about said ankle joint to increase bearing force applied to the ground by said toe portion during powered ankle plantar-flexion and to impart lifting force against the ground; and a posterior knee valve operably connected to said posterior pneumatic spring; wherein each of the springs is configured to store and release energy via a fluid transfer system controlled by the anterior knee valve, the posterior knee valve, and the anterior ankle valve, wherein the anterior knee valve is closed or locked throughout early stance knee flexion and extension, wherein the posterior knee valve is open during early stance knee flexion, wherein when the ankle is dorsi-flexed and the knee extended: the posterior pneumatic spring is compressed, the posterior knee valve changes from a closed state to an open state, and the anterior ankle valve changes to a closed state, allowing energy stored in the posterior pneumatic spring to be transferred through the ankle during powered ankle plantar-flexion.