SU381347A1 - PROTESIS OF THE TERROR TO BEAT AROUND =: ^:? -; - Google Patents

Description

A prosthetic shin prosthesis for swimming is known, comprising a shin sleeve, an ankle, a skeleton artificial foot, and a mechanism of subglacial flexion in the form of a fixative. However, the design of the mechanism of the subjoint flexion of the foot in it does not automatically regulate the position of the foot during swimming. The fixed position of the foot makes it difficult for the prosthetic limb to move in the water, as it experiences greater water resistance, especially when swimming with flippers.

In order to ensure automatic adjustment of the flexion of the artificial foot when sailing, the mechanism of the basal flexion of the foot in it is made in the form of flexible clamps, for example, from a nylon tape, and a uniaxial hinge with springs fixed, hooked under the frame axis, and returnable, placed between the ankle and the foot skeleton.

FIG. 1 shows the proposed lower leg prosthesis; in fig. 2 is a section along L-A in FIG. one; in fig. 3 is a section along BB in FIG. one; in fig. 4 shows a section along BB in FIG. one.

The prosthesis of the lower leg contains a sleeve /, ankle 2, a skeleton 3 of an artificial foot and a mechanism of facial flexion, made in the form of flexible clamps 4 and a uniaxial joint

2

5 with springs 6 and 7. The collar 4 is made, for example, of a nylon tape. Fgp siruyupda spring 6 is equipped with a hook 8 under the axis of the frame 3, and the return spring 7 is placed

between and ikolotkoy 2 and frame 3 foot.

The operation of the device and walking is as follows. At the moment of foot separation, when transferring the prosthetic limb over the supporting surface, the skeleton 3 of the foot relative to the ankle 2 is rigidly bound with a collar 4 and, moreover, the illoscule of the basement of the foot is perpendicular to the axis of the ankle 2 (Fig. I). In the transfer phase, the position of the foot is maintained. When relying on the pectoral part of the prosthetic limb, the skeleton 3 of the foot rotates relative to the ankle 2 by a certain angle, and this angle of rotation is limited by an elastic collar 4 and its maximum value is 45 °, which corresponds to the largest basement of the foot when swimming.

The operation of the device during swimming is as follows. The prosthetic limb from top to bottom, due to the pressure of water on the speed of the foot, especially with a flipper, the fixed mechanism of basal flexion allows the toe of the foot to be deflected from below, which corresponds to a relaxed state in the body and provides the swimmer with strength

t gi and lifting force. When moving from the bottom up, the foot automatically levels off (Fig. 1) and in this case the water resistance sharply decreases, which is very important for the rational consumption of the muscular energy of the stump. In order to reduce the braking forces and swimming in the inactive period of work by the prosthetic limb, at the request of a disabled person, the foot can be fixed with the help of a spring 6 and a locking screw 9 in the equilibrated position. To do this, the foot must be moved to the position of the greatest plantar flexion, and it will automatically lock. The return of the foot to its original position is carried out by pressing on the toe of the foot. This design of the ankle assembly in the prosthesis of the lower leg allows the foot to automatically self-regulate in the equilibrated position both during walking and during swimming, which provides it with biomechanically favorable positions and significantly improves the functional qualities of the prosthesis. Subject of the invention: A leg prosthesis for swimming comprising a calf sleeve, ankle, frame artificial foot and plantar flexion mechanism, characterized in that, in order to automatically control the flexion of the foot when an invalid is sailed, the plantar flexion mechanism in it is designed as flexible clamps, for example from a kapron tape, and a uniaxial hinge with springs - locking, fitted with a hook under the frame axis, and a return hinge, placed between the ankle and the frame of the foot.

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