Patent ID: 7279010
Filing Date: 2007-10-09
Classification: A61F

Abstract:
1. A knee joint for a prosthetic leg comprising an upper member for connecting to the thigh of said prosthetic leg, a lower member for connecting to the shin and foot of said prosthetic leg, a linking device for connecting the upper and lower members, a cushion element, and a resilient device, wherein said linking device comprises a joining element and a plurality of connecting rods; said resilient device comprises a supporting element, a first cap element, a first helical spring, a first adjustment screw, a second cap element, a second helical spring, a second adjustment screw, and a stopping plate; an upper portion of said joining element is hinged to fork arms of said upper member by a first axle, said first axle is fixedly locked by a first positioning screw on said joining element, a plurality of cushion blocks are configured on said joining element at where said joining element interfaces with said upper member, said joining element has an adjustment screw in the front; an lower portion of said joining element is hinged to fork arms of said supporting element by a second axle, said second axle is fixedly locked by at least a second positioning screw on said supporting element, said supporting element has a tubular portion extended from the bottom of said supporting element for receiving said first cap element, said first helical spring, and said first adjustment screw inside, said first cap element, said first helical spring, and said first adjustment screw, along with said adjustment screw of said joining element, confines the angle between said joining element and said supporting element, said first adjustment screw controls the force exerted by said first helical spring; a front protruding portion of said supporting element is hinged to fork arms of said lower member by a third axle, said third axle is fixedly locked by a third positioning screw on said supporting element; needles bearings are installed in through holes of said upper and lower members, top ends of said connecting rods are bolted to a lateral through hole in the middle of said upper member by a plurality of screws, bottom ends of said connecting rods are bolted to a lateral through hole in the back of said lower member by a plurality of screws, a second cap element, a second helical spring, a second adjustment screw, and a stopping plate are installed inside a threaded hole on said lower member between said fork arms of said lower member, said second cap element is pressed against said tubular portion of said supporting element, said second adjustment screw controls the force exerted by said second helical spring; and said cushion element, made of a plastic material, is positioned on a curved seat in the back of said lower member and confined by said connecting rods, said cushion element absorbs the shock when said prosthetic leg is walking or standing.