RU2643083C2 - Artificial foot - Google Patents

Abstract

FIELD: medical equipment; medicine.

SUBSTANCE: invention refers to medical equipment and can be used in lower limb prosthetics. Artificial foot comprises an outer shell, a liner of damping profiled plates connected inside the shell by toe portions, and a shin-fixing assembly disposed on the upper plate. Artificial foot further comprises a buffer of elastic material made with an upper surface in the shape of the lower surface of the upper plate, from 1/3 to 2/3 of the length of the lower surface of the buffer is configured to interact with the mating portion of the upper surface of the lower plate and has the form of a mating portion of the upper surface of the lower plate, wherein the buffer is connected to the lower surface of the upper plate by means of an adhesive. Shin-fixing assembly is made in the form of an adapter mounted on the threaded connection, and the upper and lower plates are made of layered composite materials.

EFFECT: use of the invention provides an opportunity for active recreation and sports activities for the disabled persons of 2–3 activity levels, having a weight of up to 125 kg.

5 cl, 8 dwg

Description

The invention relates to medical equipment and can be used for prosthetics of the lower extremities.

Known artificial foot containing the outer shell with an S-shaped spring liner and additional shock-absorbing elastic elements (RU 2051648 C1, 01/10/1996).

Known artificial foot does not have effective adjustment tools to optimize its parameters in accordance with the physical data of the user, and contains an S-shaped insert, which greatly complicates the manufacture and assembly of the entire structure.

Closer to the present invention can be considered an artificial foot containing an outer shell with upper and lower liners in the form of shock absorbing profiled plates interconnected inside the shell by nose parts through gaskets, and a shank attachment unit located on the upper liner (RU 2085155 C1, 27.07 .1997).

The presence of two inserts, made in the form of interconnected plates, simplifies the design of the artificial foot and makes it more accessible to users, but the lack of a buffer in the foot does not allow it to be used by patients with a large weight and a high degree of activity.

The present invention is directed to solving the problem of creating an artificial foot that does not have the disadvantages of known designs and provides maximum comfort to the patient.

The technical result of the invention is the possibility of outdoor activities and sports for the disabled 2-3 levels of activity, weighing up to 125 kg

The invention is expressed in the combination of essential features, in which an artificial foot containing an outer shell, a liner of shock-absorbing profiled plates connected inside the shell by nose parts, and an attachment to the lower leg, located on the upper plate, differs from the closest analogue in that it additionally contains a buffer of elastic material made with the upper surface in the form of the lower surface of the upper plate, and from 1/3 to 2/3 of the length of the lower surface of the buffer is made for interaction Action with the mating part of the upper surface of the lower plate and has the form of the mating part of the upper surface of the lower plate, with the buffer connected to the lower surface of the upper plate by means of adhesive, the knot attachment point is made in the form of an adapter mounted on a threaded connection, and the upper and lower plates from layered composite materials.

In the particular case of execution or use, the artificial foot may comprise a polyurethane foam sheath; an additional upper shock-absorbing profiled plate connected to the upper shock-absorbing profiled plate by spacers of polymeric material or a dividing layer of polymeric material, the upper shock-absorbing profiled plate being made with a front longitudinal section having a length of up to 2/3 of the length of the additional upper shock-absorbing profiled plate; a bottom plate made with a longitudinal section; a lower plate made with a front longitudinal section having a length of up to 0.9 plate length.

The invention is illustrated by drawings, where in FIG. 1 shows a longitudinal section of an artificial foot with an upper shock-absorbing profiled plate; in FIG. 2 shows a longitudinal section of an artificial foot with an additional upper shock-absorbing profiled plate connected to the upper shock-absorbing profiled plate by gaskets of a polymeric material; in FIG. 3-6 show embodiments of the upper shock-absorbing profiled plate, and in FIG. 7 and 8 are embodiments of the lower shock-absorbing profiled plate.

The artificial foot contains an outer shell 1, in which a liner of the upper shock-absorbing profiled plate 2 and the lower shock-absorbing profiled plate 3 is placed. The plates 2 and 3 are made of layered composite materials (for example, carbon fiber or fiberglass) and are interconnected inside the shell 1 by socks parts through gaskets 4, for example, using rivets 5.

On the upper plate 2 of the liner there is an attachment to the lower leg, made in the form of an adapter 6 mounted on a threaded connection 7. The thickness of the upper plate 2 is 8-10 mm in the heel, 3-5 mm in the forefoot and 8.5-13 mm at the site of interaction with the buffer 8. The thickness of the lower plate 3 is 3-5 mm in the heel and forefoot and has a maximum size of 6-10 mm at the site of interaction with the buffer 8. The buffer 8 is made of elastic material with the upper surface in the shape of the lower surface top plate 2. 1/3 to 2/3 of the length of the bottom surface buffer 8 configured to interface with mating the upper surface of the bottom plate 3 and has a shape mating the upper surface of the bottom plate 3. The buffer 8 is connected to the lower surface of the upper plate 2 by means of adhesive.

In special cases, the implementation or use of artificial foot may contain a shell 1 of polyurethane foam; an additional upper shock-absorbing profiled plate 9 connected to the upper shock-absorbing profiled plate 2 by gaskets 4 of polymer material or a dividing layer of polymer material, the upper shock-absorbing profiled plate 2 can be made with a front longitudinal section 10 having a length of up to 2/3 of the length of the upper shock-absorbing profiled plate 2; a lower plate 3 made with a longitudinal section 11 and a lower plate 3 made with a front longitudinal section 11 having a length of up to 0.9 of the length of the plate 3.

An artificial foot is attached to the prosthesis sleeve by means of an adapter 6 mounted on a threaded connection 7.

When using an artificial foot by a disabled person in the front push, the load is applied to the heel of the lower shock-absorbing profiled plate 3 and goes into torque in the sagittal plane, which ensures the deflection of the foot in the forefoot and a smooth transition to the support phase with the subsequent transition to the rolling phase without tearing the outer sole shell 1.

In the rear part of the artificial foot, energy is accumulated (energy-saving effect), which helps to increase energy in the rolling phase and the back shock phase.

The geometry of the mating surfaces of the upper plate 2 and the lower plate 3, which can have longitudinal cuts 10 and 11, and the tight connection in the fore part, achieved by gaskets 4, solve the problem of synthesizing the work of two, three, and four independent sections of flexible plates with a given moment of resistance when bending.

When the ankle angle changes, the lower surface of the upper plate 2 is deformed and moves relative to the upper surface of the lower plate 3, deforming the buffer 8. Torque, force and strain in the phase of movement from the toe to the ankle axis occurs with a variable value, creating the effect of a propeller, valgus varus and rotational movements, providing mitigation of shock in the support phase.

In the support phase, the buffer 8 is also deformed under the weight of the body. The moment of bending resistance depends on the dynamic load, the installed stiffness of the buffer and the length of the longitudinal section 10 of the upper plate 2. In turn, the moment of resistance determines the force interaction between the sleeve of the prosthesis and the stump. Thus, a connection is established between the initial stiffness setting and walking comfort.

The buffer 8 acts as a shock absorber (damper) of the displacement values of the upper plate 2 and the lower plate 3 in all phases of movement.

The longitudinal sections 10 and 11 of the upper plate 2 and the lower plate 3 provide comfort for patients with a large weight and a high degree of activity, since due to its geometry, the stiffness and strength of the liner increases by 2 times due to the reduction of shear loads.

By selecting the desired hardness of the elastic material of the buffer 8, an integrated biomechanical characteristic of the feet and the lowest peak load on the stump are achieved, which is interconnected with the highest possible level of comfort.

The set of parameters of the foot - the ankle node used in this design, the movement of the upper plate 2 and the lower plate 3 connected in the forefoot, are kinematic pairs that ensure smooth transitions in all phases of movement. The groove 10 made in the upper plate 2 and the groove 11 made in the lower plate 3 contribute to the smoothness of such transitions.

Claims (5)

1. An artificial foot containing an outer shell, a liner of shock-absorbing profiled plates connected inside the shell by nose parts, and a shank attachment unit located on the upper plate, characterized in that it further comprises a buffer of elastic material made with the upper surface in the form of a lower the surface of the upper plate, and from 1/3 to 2/3 of the length of the lower surface of the buffer is made to interact with the counterpart of the upper surface of the bottom plate and has the shape of the counterpart of the upper p the surface of the lower plate, the buffer being connected to the lower surface of the upper plate by means of glue, the shank attachment unit is made in the form of an adapter mounted on a threaded connection, and the upper and lower plates are made of layered composite materials. 2. An artificial foot according to claim 1, characterized in that the shell is made of polyurethane foam. 3. An artificial foot according to claim 1, characterized in that it contains an additional upper shock-absorbing profiled plate connected to the upper shock-absorbing profiled plate by spacers made of polymeric material or a dividing layer of polymeric material, the upper shock-absorbing profiled plate being made with a front longitudinal section having a length up to 2/3 of the length of the upper shock-absorbing profiled plate. 4. An artificial foot according to claim 1, characterized in that the lower plate is made with a longitudinal section. 5. An artificial foot according to claim 4, characterized in that the lower plate is made with a front longitudinal section having a length of up to 0.9 plate length.

Images