An article of footwear with a medial contact portion disposed on the medial side of the article is described. The medial contact portion includes a plurality of raised elements that extend outwards from the surface of the upper on the medial side. The raised elements are configured to contact a ball during passing or trapping to absorb and dampen forces associated with the impact of the ball with the article to provide cushioning. The sizing and spacing arrangement of the raised elements on the medial contact portion provide sufficient surface area to allow a portion of the surface of the upper to contact a ball. In one embodiment, the upper is made from a synthetic leather material that has substantially the same coefficient of friction under dry conditions and wet conditions.

Upper components for footwear include: (a) a first upper component that includes a first layer having a first material as a first filament including first plural, non-intersecting, spaced apart path segments (wherein the first filament has a width dimension of less than 3 mm wide (and in some examples, less than 2 mm wide, less than 1.5 mm wide, less than 1 mm wide, or even less than 0.75 mm wide)); and (b) a second upper component including a fabric element formed at least in part of a fusible material, wherein the fusible material of the second upper component is fused to the first material of the first upper component (e.g., in an adhesive-free manner). Additional layers of material, including additional layers including filament and/or fabric elements, e.g., of the types described above, may be included in the upper.

Aspects herein are directed to a reflective textile, and articles of apparel, uppers for an article of footwear constructed therefrom, comprising a reflective material dispersed between a first and second surface of the textile in a first zone. The first zone reflects a greater amount of light than a second zone of the textile. Other aspects herein are directed to a method of manufacturing a reflective textile or article having a portion comprising a reflective textile.

Boot shafts can be designed for comfort by providing expansion in the shaft of a boot. Portions of a shaft can be replaced, augmented, or associated with a more deformable and elastically resilient material or materials. When effectively associated or integrated, the elastic material can allow for temporary expansion of the shaft to ease passage of the heel and foot through the shaft and into the shoe box. A long thin resilient feature can provide expansion and ease of passage of a foot down the boot shaft while also potentially minimizing conspicuous departure from conventional stylings. Such features can also be physically obscured with straps (which may rotate, for example). Such features may be curved or angled to visually in fit with and even be camouflaged by surrounding decorative ornamentation on the shaft of such a boot.

A shoe including a sole and an upper. The upper is coupled to the sole. The upper includes an outer layer and an inner layer. The outer layer has an outer surface and an inner surface. The inner surface of the outer layer is in direct contact with the inner layer. The outer layer is a hot melt thermoplastic material, and the inner layer is a material different from that of the outer layer. At least a portion of the outer layer is adhered to the inner layer, and the inner layer including a portion not covered by the outer layer.

The present invention relates to an upper for a shoe, including an inner layer; an outer layer overlapping the inner layer at least partially; wherein the outer layer includes a plurality of cuts; wherein the inner layer includes a plurality of protrusions; wherein each cut at least partially overlaps at least one protrusion; wherein each protrusion causes an extension in width of its corresponding cut when the shoe is worn.

A shoe device having bimodal structures, configured to selectively snap the device to at least one of a second position and a first position, which selectively snaps the shoe into a first position upon being subjected to a first bending force, apt for placement or removal of a foot, and selectively snaps the shoe into a second position upon being subjected to a second bending force, apt for securement of a foot or having no foot. A forward leaning, flexible stadium arch structure, assembled to form a heel notch mechanism, connects to a sole. A morphing shoe collar portion connects to a heel. These are combined via vector changing devices for greater functionality.

A three-dimensional flexing resistance waterproof and moisture-permeable shoe upper, including fabric, waterproof and moisture-permeable membrane, and eco-friendly adhesive is provided. The waterproof and moisture-permeable membrane is closely bonded with an inner layer of the fabric. The outer layer and inner layer of the fabric are closely bonded together through eco-friendly adhesive, which is bonded with the fabric in a mesh structure. The eco-friendly adhesive includes liquid adhesive or powder adhesive. The shoe upper is shaped by the heating method which includes vacuum heating, electric heating or steam heating. The outer layer of the fabric is closely bonded with the inner layer, so that the defects of the accumulation of sludge, dust and water droplets between the outer layer and the inner layer of the existing shoe upper is overcome, making the shoe upper waterproof and moisture permeable. The three-dimensional shoe upper is formed through vacuum forming method.

An outsole for an athletic shoe that includes a heel section and a forefoot section. The heel and forefoot sections are on the outer surface of the outsole. The forefoot section includes a tread pattern that provides first and second ground friction forces. The first ground friction force promotes rotation in a first rotational direction about a rotation point of the forefoot section. The second ground friction force restricts rotation in a second rotational direction about the rotation point. The second rotational direction is opposite of the first rotational direction and the second ground friction force is greater than the first ground friction force.

An article of footwear is configured to be worn so as to at least partially cover a wearer's foot. The footwear includes at least one optical fiber on an internal surface of the footwear. The at least one optical fiber is configured to project radiation having a therapeutic wavelength through the at least one optical fiber and toward at least one of the wearer's foot, ankle or leg when the footwear is being worn so as to at least partially cover the wearer's foot.