Stock material or miscellaneous articles – Hollow or container type article – Polymer or resin containing
Reexamination Certificate
2001-06-14
2003-06-24
Pyon, Harold (Department: 1772)
Stock material or miscellaneous articles
Hollow or container type article
Polymer or resin containing
C428S213000, C428S339000, C428S412000, C428S423300, C428S423500, C428S423700, C428S424200, C428S424400, C428S424600, C428S424700, C428S424800, C428S474700, C428S475200, C428S476100, C428S476300, C428S476900, C428S483000, C428S517000, C428S518000, C428S520000
Reexamination Certificate
active
06582786
ABSTRACT:
FIELD OF THE INVENTION
The present invention concerns membranes suitable for applications that require both barrier properties and flexibility. The membranes of the invention are particularly useful in construction of pressurized bladders, including cushioning devices. The membranes of the invention are elastic and have very low gas transmissions rates for nitrogen and other gasses that can be used to inflate the bladders and cushioning devices. The present invention further relates to footwear that includes one or more bladders or cushioning devices of the invention.
BACKGROUND OF THE INVENTION
Thermoplastic and thermoset polymeric materials have been widely used in membranes for their fluid (gas or liquid) barrier properties. Such fluid barrier films are used, for example, for plastic wrap materials and for other packaging materials. Another common application for polymeric materials with good fluid barrier properties is in the construction of inflatable bladders.
Inflatable bladders have been used in a variety of products such as vehicle tires, balls, accumulators used on heavy machinery, and in footwear, especially shoes, as cushioning devices. It is often desirable to use polymeric materials that are thermoplastic because thermoplastic materials may be reclaimed and reformed into new articles, thus reducing waste during manufacturing operations and promoting recycling after the life of an article. While thermoplastic barrier films may be flexed to a certain extent due to their thinness, thermoplastic barrier films do not generally have sufficient elasticity for many applications. Elastic materials, or elastomers, are able to substantially recover their original shape and size after removal of a deforming force, even when the part has undergone significant deformation. Elastomeric properties are important in many applications, including inflatable bladders for footwear and hydraulic accumulators.
Footwear, and in particular shoes, usually include two major components, a shoe upper and a sole. The general purpose of the shoe upper is to snuggly and comfortably enclose the foot. Ideally, the shoe upper should be made from an attractive, highly durable, comfortable materials or combination of materials. The sole, constructed from a durable material, is designed to provide traction and to protect the foot during use. The sole also typically serves the important function of providing enhanced cushioning and shock absorption during athletic activities to protect the feet, ankles, and legs of the wearer from the considerable forces generated. The force of impact generated during running activities can amount to two or three times the body weight of the wearer, while other athletic activities such as playing basketball may generate forces of between six and ten times the body weight of the wearer. Many shoes, particularly athletic shoes, now include some type of resilient, shock-absorbent material or components to cushion the foot and body during strenuous athletic activity. These resilient, shock-absorbent materials or components are commonly referred to in the shoe manufacturing industry as the midsole. Such resilient, shock-absorbent materials or components can also be applied to the insole portion of the shoe, which is generally defined as that portion of the shoe upper directly underlying the plantar surface of the foot.
Gas-filled bladders may be used for midsoles or inserts within the soles of shoes. The gas-filled bladders are generally inflated to significant pressures in order to cushion against the forces generated on the foot during strenuous athletic activities. Such bladders typically fall into two broad categories, those that are “permanently” inflated, such as disclosed in Rudy, U.S. Pat. Nos. 4,183,156 and 4,219,945, and those using a pump and valve system, such as those disclosed in Huang, U.S. Pat. No. 4,722,131.
Athletic shoes of the type disclosed in U.S. Pat. No. 4,183,156 having “permanently” inflated bladders have been sold under the trademark “Air-Sole” and other trademarks by Nike, Inc. of Beaverton, Oreg. Permanently inflated bladders of such shoes are constructed using an elastomeric thermoplastic material that is inflated with a large molecule gas that has a low solubility coefficient, referred to in the industry as a “super gas.” Gases such as SF
6
, CF
4
, C
2
F
6
, C
3
F
8
, and so on have been used in this way as super gases. Super gases are costly, however, and so it is desirable to provide permanent inflation with less expensive gasses like air or nitrogen. By way of example, U.S. Pat. No. 4,340,626 entitled “Diffusion Pumping Apparatus Self-Inflating Device” which issued Jul. 20, 1982, to Rudy, which is expressly incorporated herein by reference, discloses selectively permeable sheets of film that are formed into a bladder and inflated with a gas or mixture of gases to a prescribed pressure. The gas or gases utilized ideally have a relatively low diffusion rate through the selectively permeable bladder to the exterior environment while gases contained in the atmosphere, such as nitrogen, oxygen, and argon, have a relatively high diffusion rate are able to penetrate the bladder. This produces an increase in the total pressure within the bladder, by the addition of the partial pressures of the nitrogen, oxygen and argon from the atmosphere to the partial pressures of the gas or gases with which the bladder is initially inflated. This concept of a relative one-way addition of gases to enhance the total pressure of the bladder is now known as “diffusion pumping.”
Many of the earlier midsole bladders used in the footwear manufacturing industry prior to and shortly after the introduction of the Air-Sole™ athletic shoes consisted of a single layer gas barrier type film made from polyvinylidene chloride-based materials such as Saran® (which is a registered trademark of the Dow Chemical Co.) and which by their nature are rigid plastics, having relatively poor flex fatigue, heat sealability and elasticity. Composite films of two gas barrier materials have also been used. Momose, U.S. Pat. No. 5,122,322, incorporated hereinby reference, describes a film of a first thermoplastic resin having a plurality of continuous tapes of a second thermoplastic resin that lie parallel to the plane of the film. The first thermoplastic resin is selected from polyolefin, polystyrene, polyacrylonitrile, polyester, polycarbonate, or polyvinyl chloride resins and modified resins. The second resin may be a polyamide, saponified ethylene vinyl acetate copolymer, ethylene-vinyl alcohol copolymer, polyvinylidene chloride, or polyacrylonitrile copolymer. The film is formed by extruding the first resin from a first extruder and the second resin from a second extruder, introducing both extrudate streams simultaneously into a static mixer in which the layers (tapes) are formed. The film may have one or two outer films laminated to it. While these films are disclosed to have an oxygen permeation rate of 0.12 to 900 cc/m
2
-day-atm at 20° C., making them generally suitable for forming cushioning material for packaging and shipping material, the films are not resilient or flexible enough for cushioning bladders for footwear.
Additional laminates of two different kinds of barrier materials, in which the laminate has a large number of relatively thin layers of the different materials, have been disclosed. Schrenk et al., U.S. Pat. Nos. 3,565,985, 4,937,134, 5,202,074, 5,094,788, and 5,094,793, 5,380,479, 5,540,878, 5,626,950; Chisolm et al., U.S. Pat. No. 3,557,265; Ramanathan et al., and U.S. Pat. No. 5,269,995, all of which are incorporated herein by reference (including the references cited therein), disclose methods of preparing multilayer films (at least about 10 layers) using streams of at least two different thermoplastics. The streams of molten thermoplastic resin are combined in a layered stream and then directed through a layer multiplying means to provide the multilayer film. The multilayering described in these patents is used to obtain iridescent films. In order to create th
Bonk Henry W.
Goldwasser David J.
Mitchell Paul H.
Harness, Dickey & Pierece, P.L.C.
Nike Inc.
Nordmeyer Patricia L.
Pyon Harold
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