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Publication numberUS3098239 A
Publication typeGrant
Publication dateJul 23, 1963
Filing dateJan 18, 1961
Priority dateJan 18, 1961
Publication numberUS 3098239 A, US 3098239A, US-A-3098239, US3098239 A, US3098239A
InventorsMax Nader Hugo Otto
Original AssigneeMax Nader Hugo Otto
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Prosthetic foot
US 3098239 A
Abstract  available in
Images(1)
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Claims  available in
Description  (OCR text may contain errors)

July 23, 1963 H. O. M. NADER 3,098,239 PHOSTHETIC FOOT Filed Jan- 18, 1961 IN V EN TOR.

H. o. MAX M405@ BY Afrox/ver United States Patent Oli 3,098,239 Patented July 23, 1963 ice 3,098,239 PROSTHETIC F001 Hugo Otto Max Nader, Duderstadt, Hannover :un Euzenberg 219, Germany Filed Jan. 18, 1961, Ser. No. 83,570 4 Claims. (Cl. 3 7) This invention relates to a prosthetic foot and more particularly to the type of artificial foot known as SACH (Solid-Ankle-Cushion Heel).

In recent years the SACH type foot has become used widely as a replacement for the articulated type of foot having a hinged or pivoted ankle joint. The SACH type foot is directly attached to a prosthetic shank and foot action during walking is achieved entirely through the elasticity of the heel and toe portions.

In general the absence of the simulated ankle joint action eliminates completely problems such as wear or moving parts, instability, characteristic noises created by articulation and pressures reliability in the action at the joint duc to variations in frictional contact within the moving parts. Also, the SACH type foot has a cushioned heel which simulates plantar ilexion in a natural ankle. The heel provides shock absorption and is compressed at the beginning of each step, After compression of the heel, the foot begins to simulate ankle dorsillexion. With continued rocking of the shank over the foot, the heel cushion expands and the weight of the user shifts to the ball of the foot. The internal keel provides a fulcrum which assists in sharing weight placed upon the foot and upon continued rocking of the shank, transfers full weight to the keel and causes the toe portion to flex. When the leg is lifted, the toe springs back to its original position. The resilient action of the heel and toe portions assist the user in walking and, in addition to simulating the natural gait, also makes it possible for the user to walk for longer distances before becoming tired.

Because of the reliance upon resilience of the heel and toe portions of `the SACH type foot, the parts tend to separate and delaminate more easily. Furthermore, the steps of aliixing the parts together render the prior solid ankle-cushion heel prosthetic foot more costly. Still further, adjustin(y the natural resilience of the cushioning material is done at the sacrice of resistance to abrasion. Despite these disadvantages, the SACH type foot has gained wide appeal and is rapidly being adopted throughout the world.

It is within the contemplation of the present invention and a general object thereof to provide an economical and efficient prosthetic foot of the SACH type which will have improved simulated walking characteristics.

It is another object ofthe invention to provide a sta-ble prosthetic foot made up of a rigid kcel surrounded by mounted resilient sections so related as to give dicrent degrees of cushioning elect `and at the same time to exhibit wear resistance where it is most needed.

A further object of the invention is to provide a prosthetic foot which utilizes rigid and flexible members joined in continuously secured relation, the area of juncture under the greatest strain `being keyed in a novel manner to relieve compression and to prevent rupture or delamination of the parts.

These and other objects and advantages of my invention will more `fully appear from the following description, made in connection with the accompanying drawings, wherein like reference characters refer to the same or similar parts throughout the several views and in which:

FIGURE l is a top plan view of the artificial foot placed upon the foot and untaken below the ankle segment in horizontal section along the line 1-1 of FIGURE 2; and

FIGURE 2 is la vertical section thereof taken on the line 2 2 of FlGURE l.

With continued reference to the drawing, FIGURE 1 shows my solid ankle-cushion heel prosthetic foo-t, the keel 10 being constructed of a rigid material such as Wood and presenting an upper face 11 from which projects a fastener element 12. The keel 10 is covered for the greater portion of its area, with a resilient and tough material constituting an upper foot portion 13. I conveniently employ a polyurethane foam, the density and flexibility of which can be controlled in a manner already known to the art.

Referring now to FIGURE 2, the foot is there shown as secured to an ankle segment 14, which may be constructed of material such as wood, which enables the foot to be attached to the prosthetic shank. The ankle segment 14 has la vertical opening 15 which is shouldered at 16 and terminates downwardly in a reduced bore 17 as shown. The fastener element 12 includes a threaded steel sleeve or adapter collar 18 having an external threaded portion 19 which is screwed into the reduced bore 17 until the head 20 is firmly abutted against the shouldered area `16. The adapter collar 18 also has an internally threaded bore 21 which extends through the entire length thereof. Keel 10 has a bore 22 with an enlarged portion 23 at the bottom thereof forming a shouldered area 24 and is aligned with bore 1'! as shown in FIGURE 2. A Washer element 25 abuts against shoulder 24 and bolt 26 which also forms a part of fastener element 12, has a threaded portion 27 adapted to be screwed into the threaded bore 21 of adapter collar 18 until head 28 abuts against the washer 25 and is securely drawn thereagainst.

The keel 10 has a portion 29 which extends rearwardly of the bolt 26 of fastener 12. The keel 10 also has a forwardly and downwardly extending portion 30 which has a rounded termi-nus 31 at its forwardmost position. The terminus 31 in turn is provided with a recess or keyway 32, the function of which will be described in greater detail later in this specification.

The keel 10 has secured to its bottom surface 33 a belting reinforcement 34 which may be glued and/or secured by screw means 35 to the keel so as to have its rearward terminus 36 adjacent the enlarged bore 23 and the forward terminus 37 extending well beyond the forward terminus 31 of keel 10.

The foot upper 13 is molded in one piece so as to cover the greater portion of the surface area of keel 10. A layer 3S of upper 13 extends over the top and sides of the forward keel portion 30 and may also form a thin bottom wall 39 covering the belting reinforcement 34 and the rearward keel portion 29 as shown. A thicker toe portion 40 of the foot upper 13 extends forwardly of both the keel terminus 31 and the forward terminus 37 of belting reinforcement 34.

A sole 41 underlies the undersurface 42 of the forward toe portion of resilient upper 13 and is adhered thereto as shown. The rearward portion 43 of the sole 41 diverges from, and is not adhered to, the upper 13.

At the heel portion of the foot, a resilient segment 44 is shaped in the form of a wedge having an upper surface 4S and a lower surface 46 which are designed to precisely contact the corresponding bottom surface 42 at the rear portion of the upper 13 and the corresponding top surface 48 of sole 41 and to be adhered or sealed thereto to cornplete a solid unitary structure with the upper 13, sole 41, and keel 10. A hole 49 may be formed through the sole 41 and heel segment d4 so as to be aligned with the bore enlargement 23 in keel 10 as shown in FIGURE 2. A resilient plug 5ft may be removably secured within the hole 49 to gain access to the bolt head 2S of the fastener assemblage 12.

An important feature of the invention resides in the comparative density and resilience of the upper 13, sole 41 and heel segment 44. I have found that where polyurethane is molded in several densities, I can obtain a comparative effect which will lend an improved resilience and, at the same time, achieve a good resistance to wear and abrasion. To achieve this end, I employ a high density material for the upper 13 which gives a stiffness and good abrasion resistance, particularly at the toe 49. The sole 41 has an intermediate density which will give lateral stability and good abrasion resistance, yet will be sufficiently flexible to present a natural cushioning effect and to permit proper flexion. The heel segment 44 is of lowest density and has the highest compressibility of the resilient foot portions. The cushioning effect of the heel makes possible a natura] walking gait without articulating the prosthetic foot at the ankle joint.

It will be further noted that the sole 41 provides wear resistance below the heel segment 44 and hence, the softer material of the heel segment is not called upon to resist surface wear and abrasion.

The arrangement of the resilient portions is such that surface adhesives can resist delamination in the surface junctures. The most critical point of strain is that where the keel terminus 31 joins with the upper toe 4t), since this constitutes a fulcrum point during use of the prosthetic foot. The recess or keyway 32 provides additional securement of the resilient upper 13 to the keel 10 since the upper material extends into and is adhered to the Walls of the recess.

The herein disclosed prosthetic foot has been exed in simulated walking gait for over 3,000,000! times without losing its resilient character or causing any delamination. Furthermore, the foot remained secured by its special fastening assemblage and did not exhibit undue wear at the undersurface of the sole.

It may thus be seen that I have devised a solid anklecushion heel prosthetic foot with improved attaching means and having improved function and wearing characteristics through selected resilience of solidly assembled molded portions.

What is claimed is:

1. A solid ankle-cushion heel prosthetic foot comprising, a keel having a portion thereof extending forwardly and downwardly to provide a bottom surface sloping generally forwardly and downwardly from an elevated rear terminus, attaching means extending upwardly from said keel at a position rearwardly of the forward and downward portion and adapted to secure said foot to a prosthetic ankle segment, an upper foot portion constructed of a tough but rcsiiient material and overlying the forward portion and sides of said keel and extending forwardly of the forwardmost terminus of said keel, said upper portion also underlying the bottom of said keel to thereby completely cover said forward portion, said sides and bottom of the keel with at least the section of said upper foot portion that underlies the rear portion of said keel bottom being in direct contact therewith, a generally horizontal sole portion constructed of resilient material having a density less than that of the upper and secured to the bottom of said upper between the forward terminus thereof and the forward terminus of said keel, and a unitary wedge-shaped keel segment of resilient material having a density less than that of said sole portion and secured at the rear of the foot between said underlying upper portion and said sole, said heel segment having its greatest thickness underlying said rear terminus of the `keel and overlying the rear terminus of said sole, whereby said foot will have improved walking characteristics with good resistance to wear and abrasion.

2. A prosthetic foot in accordance with claim 1 including a flexible belting reinforcement secured to the bottom of said keel at the forward portion thereof and extending forwardly beyond said keel, the forward section of said upper portion that underlies the bottom of said keel being in direct contact with the underside of said belting reinforcement to form an uninterrupted continuation of the rear section of said upper portion which is in direct contact with the bottom of said keel.

3. A prosthetic foot in accordance with claim 1 in which said keel has a recessed keyway at said forwardrnost terminus `and receiving an integral projection of said upper foot portion, whereby, when the upper foot portion is bent forwardly of said keel, said keyway will prevent delamination and rupture of said resilient material at the juncture of the forward terminus of said keel with the upper forward extension of said resilient material.

4. A solid ankle-cushion heel prosthetic foot in accordance with claim 1 in which said upper foot portion completely encircles the upper portion of said keel.

References Cited in the file of this patent UNITED STATES PATENTS 808,296 Merrick Dec. 26, 1905 981,090 Karn Ian. l0, 19ll 1,420,330 Marks June 20. 1922 1,812,156 Leaf June 30, 1931 FOREIGN PATENTS 354,246 Germany June 6, 1922

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US808296 *Jul 21, 1905Dec 26, 1905Frank W MerrickArtificial foot.
US981090 *Apr 18, 1910Jan 10, 1911Harry W KarnArtificial foot.
US1420330 *Aug 23, 1921Jun 20, 1922Marks George EArtificial foot
US1812156 *Mar 23, 1929Jun 30, 1931Leaf Earnest RArtificial foot
DE354246C *May 21, 1921Jun 6, 1922Anton LeistenKuenstlicher Fuss
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3440668 *Sep 1, 1965Apr 29, 1969Basf AgArtificial limbs of expanded polyamides
US3484871 *Dec 2, 1968Dec 23, 1969Orange John LArtificial foot
US3766569 *Oct 5, 1972Oct 23, 1973Orange JArtificial foot
US3833941 *Feb 28, 1973Sep 10, 1974Wagner S Orthopedic Supply CoMolded sach foot
US3920610 *Apr 24, 1974Nov 18, 1975Wagner EugeneMethod of making and tailoring prosthetic feet
US3940804 *Mar 10, 1975Mar 2, 1976Hosmer/Dorrance CorporationAnkle block
US4091472 *Dec 27, 1976May 30, 1978Daher Reinhard LProsthetic foot
US4161042 *Oct 25, 1977Jul 17, 1979Bhn, Inc.Adjustable prosthetic limb
US4328594 *Feb 13, 1980May 11, 1982Campbell John WProsthetic foot
US4506395 *Oct 24, 1983Mar 26, 1985Otto Bock Orthopadische Industrie KgProsthetic foot
US4619661 *Mar 3, 1983Oct 28, 1986Robert AxelssonProsthesis foot
US4652266 *Mar 7, 1986Mar 24, 1987Kingsley Mfg. Co.Molded elastomeric prosthetic foot having energy-storing articulated keel
US5993488 *May 13, 1998Nov 30, 1999Phillips; Van L.Prosthesis with resilient ankle block
US6206934Aug 21, 1998Mar 27, 2001Flex-Foot, Inc.Ankle block with spring inserts
US6280479Apr 9, 1999Aug 28, 2001Flex-Foot, Inc.Foot prosthesis having cushioned ankle
US6899737Oct 26, 2000May 31, 2005Van L. PhillipsFoot prosthesis having cushioned ankle
US7063727Dec 17, 2002Jun 20, 2006Van L. PhillipsFoot prosthesis having cushioned ankle
US7279011Feb 11, 2004Oct 9, 2007Phillips Van LFoot prosthesis having cushioned ankle
US7354456Sep 14, 2004Apr 8, 2008Phillips Van LFoot prosthesis having cushioned ankle
US7503937 *Jun 29, 2007Mar 17, 2009Ossur HfProsthetic foot
US7771488Oct 1, 2008Aug 10, 2010Ossur HfProsthetic foot
US7879110Dec 1, 2009Feb 1, 2011Ossur HfFoot prosthesis having cushioned ankle
US8177855Oct 1, 2008May 15, 2012Ossur HfProsthetic foot
US20100050470 *Nov 10, 2009Mar 4, 2010Baffin Inc.Footwear construction and method
DE3309777A1 *Mar 18, 1983Sep 27, 1984Bock Orthopaed IndKuenstlicher fuss
EP0122372A1 *Feb 3, 1984Oct 24, 1984Otto Bock Orthopädische Industrie Besitz- und Verwaltungs-KommanditgesellschaftArtificial foot
EP0275552A1 *Dec 29, 1987Jul 27, 1988Otto Bock Orthopädische Industrie Besitz- und Verwaltungs-KommanditgesellschaftArtificial hingeless foot
EP0275553A1 *Dec 29, 1987Jul 27, 1988Otto Bock Orthopädische Industrie Besitz- und Verwaltungs-KommanditgesellschaftArtificial hingeless foot
Classifications
U.S. Classification623/55, D24/155
International ClassificationA61F2/60, A61F2/66
Cooperative ClassificationA61F2002/6657, A61F2/66
European ClassificationA61F2/66