Sockliner

Information

  • Patent Grant
  • 6199304
  • Patent Number
    6,199,304
  • Date Filed
    Tuesday, May 18, 1999
    26 years ago
  • Date Issued
    Tuesday, March 13, 2001
    24 years ago
Abstract
A laminated foam sockliner for use in combination with footwear to cushion a foot inserted in the footwear. The sockliner comprises a compressibly resilient closed cell foam lower layer having top and bottom surfaces sized and shaped for insertion into the footwear and for supporting at least a portion of the foot. The lower layer has a compressibility sufficient to permit the layer to resiliently compress under the foot in response to pressure applied to the layer by the foot during periods of a gait cycle when the footwear impacts the ground thereby absorbing shock and cushioning the foot during impact. The sockliner further comprises an open cell foam upper layer having top and bottom surfaces sized and shaped for insertion in the footwear. The bottom surface of the upper layer is permanently bonded to the top surface of the lower layer for spacing the lower layer from the foot to reduce heat transfer from the lower layer to the foot and insulate the foot from thermal energy generated by the lower layer in response to compression of the lower layer by the foot during the gait cycle. In another aspect, the sockliner includes a compressibly resilient closed cell foam lower layer and a porous upper layer. The upper layer has a plurality of openings extending upward from a bottom surface aligned with openings extending through the lower layer for permitting air to pass through the upper and lower layers to cool and dry the foot.
Description




BACKGROUND OF THE INVENTION




The present invention relates generally to a sockliner and more particularly to a sockliner which cushions a foot while preserving a cool and dry environment for the foot.




When walking and running, various portions of the foot impact the ground at different times during the gait cycle. Generally, an outside (i.e., lateral) portion of the heel strikes the ground first, and the foot pivots on the heel to bring the outside portion of the forefoot into contact with the ground. From this position, the foot rapidly rotates inwardly to a neutral position in which the bottom of the heel and the forefoot are in contact with the ground. Thus, certain parts of the foot are subjected to repeated impact forces during walking and running. Moreover, these impact forces transfer to related anatomical features such as the shins and knees. Over time, these forces can cause pain and injury to the structures and tissue of the feet and the related anatomical features.




Foam sockliners frequently are used in shoes to attenuate the impact forces applied to the feet by the ground during walking and running. In the past, these sockliners frequently were made of closed cell polyurethane foam which offered excellent shock attenuation properties and durability. However, when closed cell foam is compressed, it generates heat due to a phenomena known as hysteresis. Moreover, the closed cell foam does not breathe well because it is substantially impermeable to air. Thus, closed cell foam sockliners heat the foot and do not keep the foot dry.




SUMMARY OF THE INVENTION




Among the several objects and features of the present invention may be noted the provision of a sockliner which provides cushioning to attenuate impact without heating the foot and while permitting the foot to breathe; and the provision of a method of making sockliners which permits a closed cell foam to be molded adjacent an open cell foam without substantially adversely affecting the breathability of the sockliner.




Briefly, apparatus of this invention is a laminated foam sockliner for use in combination with footwear to cushion a foot inserted in the footwear. The sockliner comprises a compressibly resilient closed cell foam lower layer having top and bottom surfaces sized and shaped for insertion into the footwear and for supporting at least a portion of the foot. The lower layer has a compressibility sufficient to permit the layer to resiliently compress under the foot in response to pressure applied to the layer by the foot during periods of a gait cycle when the footwear impacts the ground thereby absorbing shock and cushioning the foot during impact. The sockliner further comprises an open cell foam upper layer having top and bottom surfaces sized and shaped for insertion in the footwear. The bottom surface of the upper layer is permanently bonded to the top surface of the lower layer for spacing the lower layer from the foot to reduce heat transfer from the lower layer to the foot and insulate the foot from thermal energy generated by the lower layer in response to compression of the lower layer by the foot during the gait cycle.




In another aspect of the invention, the sockliner comprises a compressibly resilient closed cell foam lower layer and a porous upper layer fashioned from a flexible material which is permeable to air having top and bottom surfaces sized and shaped for insertion in the footwear. The bottom surface of the upper layer is permanently bonded to the top surface of the lower layer. The upper layer has a plurality of openings extending upward from the bottom surface aligned with the openings extending through the lower layer for permitting air to pass through the upper and lower layers to cool and dry the foot.




In yet another aspect, the present invention is a method of manufacturing a sockliner for use in combination with footwear to cushion a foot inserted in the footwear. The method comprises the step of continuously applying a porous adhesive substance to at least one of a bottom surface of a cloth layer and a top surface of an open cell foam upper layer. Further, the method includes the steps of marrying the cloth layer and the upper layer to permanently bond the upper layer and the cloth layer, cutting the cloth layer and the upper layer to a size and shape for insertion into the footwear and for supporting at least a portion of the foot, and compression molding the bonded upper layer and the cloth layer in a first mold to partially close exposed open cells in a bottom surface of the upper layer. The method also includes the steps of removing the compression molded upper layer and the cloth layer from said first mold, and inserting the compression molded upper layer and the cloth layer into a second mold. In addition, the method comprises the step of pouring a polyurethane onto the bottom surface of the upper layer in the second mold. Still further, the method includes the steps of foaming the polyurethane to form a closed cell foam lower layer adjacent the upper layer, and removing the cloth layer, the upper layer and the lower layer from the second mold.




Other objects and features of the present invention will be in part apparent and in part pointed out hereinafter.











BRIEF DESCRIPTION OF THE DRAWINGS





FIG. 1

is a top plan of a sockliner of the present invention;





FIG. 2

is a bottom plan of the sockliner;





FIG. 3

is a cross section of the sockliner taken in the plane of line


3





3


of

FIG. 1

;





FIG. 4

is a schematic cross section of a cloth layer bonded to an upper foam layer;





FIG. 5

is a schematic cross section of the cloth layer and upper foam layer during compression molding; and





FIG. 6

is a schematic cross section of a foam bottom layer being molded on the cloth layer and upper layer.











Corresponding reference characters indicate corresponding parts throughout the several views of the drawings.




DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT




Referring now to the drawings and in particular to

FIG. 1

, a sockliner or inner sole is designated in its entirety by the reference number


10


. The sockliner


10


is sized and shaped for insertion in footwear (not shown) over a sole of the footwear to attenuate shock to a foot during running and walking. Although the sockliner


10


of the preferred embodiment is sized and shaped to underlie the entire area of a foot, other sizes and shapes may be used without departing from the scope of the present invention. For instance, it is envisioned that the sockliner may be a three-quarter length sockliner sized for extending from the heel of a foot to a position just in front of the metatarsal heads.




As illustrated in

FIG. 1

, the sockliner


10


includes an upper surface, generally designated by


12


, having a field of generally truncated pyramid-shaped protrusions


14


. Grooves


16


formed between the protrusions


14


permit air circulation under the foot to keep the foot cool and dry. A raised pillow formation


18


is provided at the rearward end of the upper surface


12


for cushioning the heel during initial impact of the foot against the ground. The formation


18


also provides a smooth surface without protrusions for displaying a trademark or other indicia regarding the sockliner


10


. A wall, generally designated by


20


, extends around a rearward end of the sockliner


10


and forms an arch support


22


for supporting the arch of a foot and a heel cup


24


for positioning the heel of a foot on the sockliner.




As shown in

FIG. 2

, a series of ribs


30


extends under the arch support


22


for stiffening the support. As illustrated in

FIG. 3

, a plurality of channels


32


arranged in an evenly spaced rectilinear grid extends across a lower surface, generally designated by


34


, of the sockliner


10


for permitting air circulation under the sockliner. The sockliner


10


rests on the sole of the footwear on a matrix of rounded projections


36


positioned between the channels


32


. Openings


38


extend upward into the sockliner


10


between the projections


36


at evenly spaced intervals along the rectilinear grid of channels


32


for permitting air to flow through the sockliner


10


from the channels


32


. The openings


38


permit air to pass through the closed cell foam of the lower layer


40


to cool and dry the foot. The channels


32


extend between the openings


38


and the edges of the sockliner


10


for permitting air to flow under the sockliner and through the openings when the lower surface


34


contacts the sole of the footwear.




As further illustrated in

FIG. 3

, the sockliner


10


is a laminated structure comprising a compressibly resilient closed cell foam lower layer


40


, an open cell foam upper layer


42


, and a cloth layer


44


permanently bonded to the upper layer with an adhesive substance


46


. The lower layer


40


has top and bottom surfaces


50


,


52


, respectively, sized and shaped for insertion into the footwear and for supporting at least a portion of the foot. Further, the lower layer


40


has a compressibility sufficient to permit the layer to resiliently compress under the foot in response to pressure applied to the layer by the foot during periods of a gait cycle when the footwear impacts the ground to absorb shock and cushion the foot during impact. The upper layer


42


has top and bottom surfaces


54


,


56


, respectively, sized and shaped for insertion in the footwear. The bottom surface


56


of the upper layer


42


is permanently bonded to the top surface


50


of the lower layer


40


by a process which will be explained in detail below. The upper layer


42


is fashioned from a flexible material which is porous and permeable to air.




As will be understood by those skilled in the art, although the lower layer


40


has good cushioning properties, it generates heat from repeated compression during walking and running. The upper layer


42


spaces the lower layer


40


from the foot to reduce heat transfer from the lower layer to the foot and insulate the foot from thermal energy generated by the lower layer. The openings


38


extend in a straight line through both the upper layer


42


and the lower layer


40


for permitting air to pass through the upper and lower layers to cool and dry the foot. Although the lower layer


40


is impermeable to air, the openings


38


extending upward through the lower layer


40


permit air to pass through the lower layer to the upper layer


42


. Because the upper layer


42


is permeable to air, air traveling through the openings


38


flows through the upper layer of the sockliner


10


to cool and dry the foot.




Although the upper and lower layers


42


,


40


may be made of other materials without departing from the scope of the invention, the upper and lower layers of the preferred embodiment used in general purpose athletic shoes are made of polyurethane. The upper layer


42


is a breathable, open cell foam having a specific gravity of between about 0.15 and 0.20, and a Shore C scale durometer hardness of between about 17 and about 23. The lower layer


40


is a closed cell foam having a specific gravity of between about 0.25 and 0.32, and a Shore C scale durometer hardness of between about 22 and about 28. However, materials having other properties may be used to maximize comfort and cushioning in footwear intended for other purposes. For instance, sockliners for men's basketball footwear may have higher specific gravities and hardnesses due to increased body weight and jumping activity.




The cloth layer


44


is sized and shaped in correspondence with the upper and lower layers


42


,


40


, respectively. The cloth layer


44


is permanently bonded to the top surface


54


of the upper layer


42


by a porous adhesive substance


46


applied between the upper layer and the cloth layer. In the most preferred embodiment, the adhesive substance


46


is applied to either the cloth layer or the upper layer in a continuous layer. Because the adhesive substance


46


is porous, air can pass through the adhesive layer and flow substantially unimpeded between the upper layer


42


and the cloth layer


44


. Although other adhesive substances may be used without departing from the scope of the present invention, the adhesive substance


46


of the preferred embodiment is a polyurethane cement. Although other materials may used as the cloth layer


44


without departing from the scope of the present invention, the cloth layer of the preferred embodiment is a conventional sockliner covering such as a brushed nylon fabric.





FIGS. 4-6

illustrate a method of making the sockliner


10


of the present invention. As shown in

FIG. 4

, an upper subassembly, generally designated by


60


, is formed by adhesively bonding a sheet of cloth


44


to a sheet of porous, open cell polyurethane foam


44


using an adhesive substance


46


. The cloth


44


is bonded to the foam


44


by spraying or otherwise applying an adhesive substance on either the cloth or the foam sheet before marrying the sheets. Although sheets having other thicknesses may be used without departing from the scope of the present invention, the cloth of the preferred embodiment is between about 0.4 millimeters (mm) and about 0.6 mm thick and the open cell foam of the preferred embodiment is between about 3.0 mm and about 3.5 mm thick, resulting in a total thickness for the subassembly


60


of between about 3.4 mm and about 4.1 mm.




The subassembly


60


is cut to a desired size and shape before being placed in a first mold M


1


as shown in

FIG. 5

for compression molding. The first mold M


1


is heated to a temperature of about 120 degrees centigrade and closed on the subassembly


66


for about one minute. The nominal height of the mold cavity is about 85 percent of the total thickness of the subassembly


66


so the mold M


1


squeezes the subassembly when the mold is closed. Due to the heat and pressure applied by the mold M


1


, the subassembly


66


is permanently molded to the shape of the mold cavity. Further, the bottom surface


56


of the upper layer


42


is partially sealed (i.e, the exposed open cells are closed) by the heat and pressure so liquid cannot pass through the bottom surface but air freely passes through the surface. As shown in

FIG. 5

, the compression molding process also forms the truncated pyramid-shaped protrusions


14


.




Once the subassembly


66


is compression molded, it is removed from the first mold M


1


and loaded into an upper half of a second mold M


2


. The second mold


2


is heated to about 45 degrees centigrade and a foaming liquid polyurethane is poured into the second mold M


2


. The mold M


2


is closed so the subassembly


60


is positioned above the liquid polyurethane, and the mold is held at a temperature of about 45 degrees centigrade for about ten minutes to cure the polyurethane. As the liquid polyurethane cures, it expands to form the lower layer


40


of the sockliner


10


. The lower layer


40


permanently bonds to the upper layer


42


during the curing process. After the lower layer


40


cures, the finished sockliner


10


is removed from the second mold M


2


.




Sockliners


10


made by this process have good cushioning properties for attenuating shock to feet during running and walking. In addition, because the upper foam layer


42


spaces the closed cell foam layer


40


from the foot, less heat is transferred to the foot from closed cell layer. Moreover, the grooves


16


and channels


32


formed in the upper and lower surfaces


12


,


34


, respectively, permit air to flow between the foot and the sockliner


10


and between the sole of the footwear and the sockliner. The openings


38


in the lower layer


40


, the porosity of the adhesive substance


46


, and the porosity of the upper layer


42


permit the air to flow vertically between the grooves


16


and the channels


32


to cool the foot and keep it dry. Further, the porosity of the open cell foam helps to defuse the air traveling through the sockliner


10


to deliver air to the entire surface of the sole of the foot rather than in localized areas corresponding to the openings


38


. Moreover, because the sockliner


10


uses closed cell foam in the lower layer


40


, the sockliner has high durability and tear strength.




In view of the above, it will be seen that the several objects of the invention are achieved and other advantageous results attained.




When introducing elements of the present invention or the preferred embodiment(s) thereof, the articles “a”, “an”, “the” and “said” are intended to mean that there are one or more of the elements. The terms “comprising”, “including” and “having” are intended to be inclusive and mean that there may be additional elements other than the listed elements.




As various changes could be made in the above constructions without departing from the scope of the invention, it is intended that all matter contained in the above description or shown in the accompanying drawings shall be interpreted as illustrative and not in a limiting sense.



Claims
  • 1. A laminated foam sockliner for use in combination with footwear to cushion a foot inserted in the footwear, the sockliner comprising:a compressibly resilient closed cell foam lower layer having top and bottom surfaces sized and shaped for insertion into the footwear and for supporting at least a portion of the foot, said lower layer having a compressibility sufficient to permit said layer to resiliently compress under the foot in response to pressure applied to said layer by the foot during periods of a gait cycle when the footwear impacts the ground thereby absorbing shock and cushioning the foot during impact, the lower layer having a plurality of openings extending from the top surface to the bottom surface for permitting air to pass through said lower layer; and a porous upper layer fashioned from a flexible material which is permeable to air having top and bottom surfaces sized and shaped for insertion in the footwear, the bottom surface of the upper layer being permanently bonded to the top surface of the lower layer, the upper layer having a plurality of openings extending upward from the bottom surface only partially through the upper layer, and aligned with the openings extending through the lower layer for permitting air to pass through the lower layer and to diffuse through the upper layer to cool and dry the foot.
  • 2. A sockliner as set forth in claim 1 wherein the bottom surface of the lower layer has at least one channel extending between the plurality of openings and an edge of the sockliner for permitting air to flow under the sockliner and through the openings to cool and dry the foot.
  • 3. A sockliner as set forth in claim 1 wherein the porous upper layer comprises an open cell foam layer, and the sockliner further comprisesa cloth layer sized and shaped in correspondence with said upper and lower layers, permanently bonded to the top surface of the upper layer by a porous adhesive substance continuously applied between the upper layer and the cloth layer.
  • 4. A sockliner as set forth in claim 1 wherein the bottom surface of the lower layer has at least one channel extending between the plurality of openings and an edge of the sockliner for permitting air to flow under the sockliner in the channels from the edge and through the openings to cool and dry the foot when the lower layer is in contact with the footwear.
  • 5. A sockliner as set forth in claim 4 wherein said at least one channel comprises a plurality of channels arranged in a grid extending across the bottom surface of the lower layer, and interconnecting the plurality of openings.
US Referenced Citations (27)
Number Name Date Kind
3418731 Anciaux Dec 1968
3426455 Drago Feb 1969
3624930 Johnson et al. Dec 1971
3825017 Scrima Jul 1974
4054706 Shapiro Oct 1977
4170078 Moss Oct 1979
4185402 Digate Jan 1980
4285144 Power Aug 1981
4336661 Medrano Jun 1982
4413429 Power Nov 1983
4461099 Bailly Jul 1984
4513518 Jalbert et al. Apr 1985
4619055 Davidson Oct 1986
4627179 McElroy Dec 1986
4633598 Moronaga et al. Jan 1987
4642912 Wildman et al. Feb 1987
4674204 Sullivan et al. Jun 1987
4677766 Gudas Jul 1987
4685224 Anger Aug 1987
4823483 Chapnick Apr 1989
4896441 Galasso Jan 1990
5068983 Marc Dec 1991
5216825 Brum Jun 1993
5551173 Chambers Sep 1996
5675914 Cintron Oct 1997
5718064 Pyle Feb 1998
5845418 Chi Dec 1998