IE48898B1 - Foot cushioning device - Google Patents

Description

The present invention relates generally to a foot appliance and more particularly relates to a cushioning and shock absorbing device which is insertable or may be incorporated in a shoe to relieve pressures on the weight bearing portions of the foot.

The anatomical structure of the foot is in the form of a tripod, the weight of the person is supported at the heel and at the head of the first and fifth metatarsal bones. Forces applied at these points are substantial and various conditions or disorders can arise as a result of the application of these forces. ' In physically active people and in many children and young adults, a vascular condition known as apophysitis can occur. Apophysitis is an inflamation of the tendon achilles 'at the point where the tendon joins the underside of the os calcis. Other disorders can be caused or aggravated by forces' applied at the weight bearing portions of the foot. Such conditions include achilles tendonitis, formation of heel spurs and Osgood Shletters disease.

Various devices can be found in the prior art which are corrective foot appliances. Generally, these devices are orthopedic appliances to alleviate conditions such as flat footedness, or devices to maintain the heel and foot in the proper anatomical attitude to prevent the tendency of the foot to pronate. Typical of these devices are the appliances shown in the patent to Helfet, U.S. Patent No. 2,821,032, which shows a one-piece, rigid appliance which is fitted to the heel of the foot. A somewhat similar device is disclosed in U.S. Patent No. 3,545,447 to Silverman, showing a heel stabilizer insertable in a conventional shoe adapted to prevent pronation of the foot.

A generally horseshoe-shaped element is bonded to the exterior of a heel receiving cup on the underside of the cup.

The prior art also shows various devices such as arch supports which are deformable and support the arch portion of the foot. These cushions generally incorporate a spongy or other elastic material in the arch portion of the support. Devices of this type are shown in u.S. Patent No. 2,163,906 to Gote and U.S. Patent No. 2,546,867 to Lavinthal.

The present invention provides a novel and unique cushioning device. The invention therefore provides a foot cushioning device comprising: (a) A resilient body member having a medial side wall, a lateral side wall, bottom and rear walls defining a recess conforming to generally at least the os calcis portion of a foot, said rear wall adapted to extend along the posterior portion of the heel to at least a location corresponding approximately to the vertical terminus of the os calcis; (b) resilient shock absorbing means extending along the outer surface of said body member from a first end on the posterior portion of the rear wall to the second end on the bottom wall of said body member, said shock absorbing means having the greatest depth in the heel strike area and tapering to said bottom and rear walls at said first and second ends, said shock absorbing means further extending from said body at said lateral and medial side walls whereby forces imposed by heel strikes are absorbed by deflection and deformation and antipronatory motion is induced to relieve stresses placed on the foot and leg by deflection of said > 48898 shock absorbing means and whereby upon release of said shock from said shock absorber means returns substantially to its normal position. The heel portion is formed from a relatively soft, flexible material such as a molded rubber or thermo plastic material.

The shock absorbing means may be formed in various configurations such as, semi-circular projections, disclike projections or formed by a series of interconnecting longitudinal and transverse ribs. In other embodiments the cushioning device extends substantially along the entire plantar surface terminating in the general area of the metatarsal heads 1 through 5.

In other embodiments the device may be formed as an integral portion of the insole and heel seat of a shoe. As pointed out above, the appliance can be used by individuals engaged in athletic endeavors such as joggers, runners, hikers, football players and the like. The appliance is particularly useful in preventing or alleviating apophysitis which is a common disorder in growing, active children. The device of the present invention is also extremely helpful in preventing vascular and other disorders in individuals who are required to stand for long periods on hard surfaces.

The above and other objects and advantages of the present invention will be more readily apparent from the following Specification, claims and drawings in which: Fig. 1 is a perspective of the shock absorbing and cushioning device of the present invention designed to be secured about the heel of the user; Fig. 2 is a side eievational view of the shook 15 absorbing device shown in Fig. 1; Fig. 3 is a view of the underside of the device shown in Figs. 1 and 2; Fig. 4 is a partial bottom view showing another form of cushioning device; Fig. 5 is a side eievational view of the cushioning device as shown in Fig. 4; Fig. 6 is a longitudinal sectional view illustrating another form of a cushioning device in accordance with the present invention utilizing a liquid shock absorbing substance; 48888 Fig. 7 is a perspective view illustrating still another form of the present invention; Fig. 8 is a fragmentary view showing still another form of the shock absorbing projections utilized with the present invention; Fig. 9 is an elevational view showing the medial or inner side of the cushioning device of the present invention and its relationship with the bone. structure of the foot applied to the foot of the wearer; Fig. 10 is a longitudinal sectional view illustrating still another form of the cushioning device designed to fit on the heel portion of the foot; Fig. 11 is a bottom view illustrating another embodiment of the present invention designed to extend substantially over the entire plantar surface of the foot; Fig. 12 is a side elevational view of the cushioning device shown in Fig. 11; and Fig. 13 is a perspective view of a shoe broken away showing the cushion as an integral part of the’shoe. 2Q The skeletal structure of the human foot is shown in Fig. 9 and generally includes the os calcis or heel bone designated by the letter 0. The talus T is positioned above the os calcis and below the tibia A. The forward bone structure of the foot includes the cuboid C and metatarsal bones M extending forwardly from the cuboid. 898 Generally in the anatomically correct foot, the body weight is supported at three points,· two weight bearing portions being on the forward part of the foot in the metatarsal area and the other weight bearing area being on the bottom of the foot below the os calcis. The achilles tendon extends along the rear of the foot and attaches to the underside of the os calcis. As discussed above, apophysitis which is an inflamatory response at the point where the tendon is attached to the bone is a common condition and can be caused or aggravated by shock and pressure forces particularly at the underside of the os calcis.

The present invention relates to a cushioning or shock-absorbing device, the preferred embodiment of which is shown in Figs. 1 to 3 and 9 and is generally designated by the numeral 10. Cushioning device 10 is designed to snugly fit about the os calcis as shown in Fig. 1 and is preferably molded as an integral piece from an appropriately lightweight material such as natural latex rubber, neoprene or a low density thermo plastic material, such as polypropylene or polyethylene. The materials of fabrication may vary but the main characteristics of the material is that the material should be resilient and have memory so that after the material is deformed, it returns to its original shape or position.

The device 10 is formed fran an integral body Rentier or heel cup 11 having opposite medial and lateral side walls 12 and 14 respectively. The side walls 12 and 14 are interconnected by a platform 16. A heel receiving recess 18 is completed by a generally vertical rear wall 20 which connects with platform 16 at curved heel seat 24. Shock absorbing or cushioning means 25 are provided to the exterior surface of the body 11. The shock absorbing means consist of a plurality of spaced-apart, parallel ribs 28 extending longitudinally along the exterior of rear wall 20 and 5 continuing along the bottom side of platform 16. Preferably, as best seen in Fig. 2, the depth of the longitudinal rib decreases from a maximum depth in the area of the heel seat 24 to a minimum near the forward terminal end of the ribs. The number and spacing of the ribs may vary but the ribs should extend substantially the full width of the os calcis.

Transverse rib 30 intersects the longitudinal ribs 28 at spaced intervals forming a plurality of generally rectangular sections 32. With this configuration, the 15 shock absorbing means 25 are in a general waffle· configuration.

The device 10 is placed in the heel section of a shoe and the wearer1s foot inserted as shown in Fig. 9.

Shock forces imparted during walking or other activities are absorbed by deflection or deformation of the ribs 28 and 30. After deflection, the ribs return to their normal, nondeflected state.

Figures 4 and 5 illustrate another embodiment of the present invention generally designated by the numeral 37.

In this embodiment, an integrally molded heel cro or body menber 38 is formed similar to that shown in Figs. 1 to 3 having a central recess or cavity 34 for reception of the heel portion of the foot. The outside of the heel cup 38 carries a plurality of projections which are shown in the form of round, relatively thin discs of resilient material. The discs are located to extend from the exterior of the heel cup 38 in the area of the os calcis. Again, forces of shock imparted to the foot are absorbed by deflection and deformation of the shock absorbing members 36.

Fig. 6 shows still another embodiment of the present invention generally designated by the numeral 40 also including an integrally molded heel cup or body «enter 42 defining a recess or cavity 44 for reception of the heel portion of the foot. An internal void or hollow section 45 is formed in the body of the heel cup extending from the rear of the cup to the underside in the area of the os calcis. The hollow cavity or void is filled with suitable liquid 48 for absorbing shock forces. The liquid 48 is preferably a viscous material such as a silicon gel which closely approximates the characteristics of fatty tissue in the foot and serves to absorb the shock forces imposed.

Fig. 7 illustrates another form of the present invention generally designated by the numeral 50 generally including an integrally molded heel cup or body matter 52 defining, a recess or cavity 54 for reception of the heel of the wearer. Projections extend from the outer surface of the cup 52 and are in the form of generally rectangular members 56 which are resilient and spaced-apart extending laterally and longitudinally in the area corresponding to the os calcis.

In Fig. 8, the shock absorbing projections 59 are slightly rounded to have a generally hemispherical shape and otherwise are functionally and structurally similar to those shown with reference to previous figures.

Fig. 10 illustrates still another embodiment of the present invention generally designated by the numeral 60.

In this entoodiment, an integrally formsd.heel exp or .body member 62 again is contoured to conform generally to the os calcis portion of the foot and defines a cavity or recess 64. Shock absorbing member 55 formed by a series of transversely extending ribs 56 and 57 which, as seen in Fig. 10 are angularly disposed on the exterior of cup 62 and intersect in a general X-configuration. An outer layer of material 61 covers the ribs 56 and 57 in a sandwich construction. Forces imposed on the user's heel are absorbed by the shock absorber 55 as ribs 56 and 57 will tend to deflect and distort under application of pressure to cushion the foot.

Figs. 11 and 12 illustrate the modified form of the cushioning appliance of the present invention which is generally designated by the numeral 70. The cushioning device 70 includes a heel portion 72 having opposite sides 74 which engage the lateral and medial sides of the foot 2o in the area of the os calcis.

Heel portion 72 extends around the os calcis and has a lower platform 75 which extends forwardly covering the plantar surface to an area approximately corresponding to the metatarsal heads 1 to 5. As discussed above, the weight of a person is supported generally at three points on the foot which are indicated as P^, P2, and P^ in Fig. 11. The cushion device as shown in Figs. 11 and 12 extends forwardly a sufficient distance to serve to absorb shock and forces imposed on the metatarsal area. Shock absorbing means 76 are provided along the entire underside of the platform and may be of the type described with reference to any of the η preceding Figures. For convenience of representation, the shock absorbing means are shown as longitudinal and transverse ribs 77 and 78 intersecting in a generally rectangular pattern. The arch area of the foot is generally elevated and cushioning in the area designated by numeral 79 which corresponds to the long medial arch, has not been included. The cushioning device 70 in other respects is substantially the same as that discussed with reference to prior drawings and figures.

The cushioning device 70 is inserted in footwear and serves to absorb and dampen shock forces.

Fig. 13 shows the present invention integrally formed into footwear 80. Shoe 80 can be of any type such as an athletic or jogging shoe and has an upper 82 and a lower sole 84 joined to the upper. Xn the heel section 83 cushioning device 85 is integrally formed as part of the heel portion of the shoe. Cushioning device 85 again has a body matter or cap 86 defining a cavity or recess 87 for reception of the heel portion of the foot. The outer or exterior surface of the cushion is provided with shock absorbing or cushioning means 88 which can be of any configuration as described and is shown as having longitudinal and transverse ribs similar to those described with reference to Figs. 1 to 3. It will be apparent that a cushioning device similar to that as shown in Figs. 11 and 12 having a platform extending substantially along the entire plantar surface of the foot may also be incorporated into ordinary footwear. The principal advantage of the inclusion of the cushioning device of the present invention for footwear is that cushioning means are affixed in place between the foot of the wearer and the hard sole of the shoe. Conventional shoe designs tend to alleviate shock-absorbing portions of the foot by use of specially designed soles having elevated heels such as are typical of jogging shoes or by providing specially formed ridges on the underside of the soles. Contrary to this approach, the present invention serves as a cushioning means between the foot and the interior sole surface thereby reducing shock forces imparted on the foot.

Thus, it will be seen that the present invention provides a simple, effective and unique cushioning device for the foot which is compatible with footwear of almost any type. The various forms of the shock absorbing means associated with the cushion body .have been shown and it will be understood that the present invention is not limited to any particular shape or configuration. Those chosen were selected as being representative.and for purposes of illustration only. Various materials can be used In the construction of the cushion of the present invention.

It will be apparent to those skilled in the art to make various changes, alterations and modifications to the present invention and to the extent that these changes, alterations and modifications do not depart from the spirit and scope of the appendant claims, they ate intended to be encompassed therein.

Claims (9)

1. CLAIMS:1. A foot cushioning device comprising: (a) a resilient body member having a medial side wall, a lateral side wall, bottom and rear walls defining 5 a recess conforming to generally at least the os calcis portion of a foot, said rear wall adapted to extend along the posterior » portion of the heel to at least a location corresponding approximately to the vertical terminus of 10 the os calcis; (b) resilient shock absorbing means extending along the outer surface of said body member from a first end on the posterior portion of the rear wall to the second end on the bottom wall of 15 said body member, said shock absorbing means having the greatest depth in the heel strike area and tapering to said bottom and rear walls at said first and second ends, said shock absorbing means further extending from said body at said lateral 20 and medial side walls whereby forces Imposed by heel strikes are absorbed by deflection and deformation and antipronatory motion is induced to relieve stresses placed on the foot and leg by deflection of said shock absorbing means and whereby upon release 25 of said shock from said shock absorber means returns substantially to its normal position.

2. A foot cushioning device as clained in Claim 1 wherein said resilient body member and said shock absorbing means are formed as an integrally molded member. 5

3. A fcot cushioning device as claimed in Claim 1 ' wherein said shock absorbing means comprise first rib means disposed transversely on the outer surface of said body member and second rib means disposed longitudinally on the outer surface of said body mariber, said first and 10 second rib means intersecting to define a waffle pattern.

4. A foot cushioning device as claimed in Claim 1 wherein shock absorbing means comprise first rib means extending on the exterior surface of said body marcher and 15 disposed at an angle with respect to said body member and second rib means extending on the exterior surface of said body member disposed at an angle with respect to said body member and intersecting said first rib means in a general decussate-shaped configuration when viewed in cross-section.

5. A foot cushioning device as claimed in Claim 1 wherein said shock absorbing means comprise generally cylindrical projections extending from said body member.

6. A foot cushioning device as claimed in Claim 1 wherein 5 said cushioning device is formed as an integral part of footwear.

7. A foot cushioning device as claimed in Claim 1 wherein said body member and said shock absorbing means are integrally molded from latex rubber.

8. A foot cushioning device as claimed in Claim 1 10 wherein said bottom wall extends a distance substantially conforming to plantar surface of the foot and terminating in the metatarsal area.

9. A foot cushioning device substantially as hereinbefore described with reference to and as 15 illustrated in the accompanying drawings.