According to an embodiment, a component for attachment to an article includes an upper component that is made of a thermoplastic material having a first melting temperature and a flange member that is molded onto the upper component and made of a thermoplastic elastomer material having a second melting temperature that is lower than the first melting temperature of the upper component. The flange member extends laterally from a bottom end of the upper component so that a bottom surface of the flange member is flush with or positioned axially below a bottom surface of the upper component. The melting temperature of the thermoplastic elastomer material enables the flange member to be directly coupled to the article via heat welding and the like without substantially affecting the upper component.

Sole structures for articles of footwear, including athletic footwear, include: (a) a lightweight foam midsole component for supporting the foot; and (b) a plurality of heavier and/or denser cage components covering selected areas of the midsole component. Spaces are provided between the cage components. These spaces may be sized, shaped, and oriented to define and/or correspond to flexion lines of the foot and/or to produce a more natural flex motion to the sole. The soles additionally may include one or more outsole components, e.g., on bottom surface(s) of the cage component(s) and/or the foam midsole. These sole structures may be engaged with an upper to form a shoe. The uppers may include one or more lace receiving openings supported by elongated wire or textile components. Methods of making footwear including such uppers and/or sole structures also are described.

An ankle brace which is positioned on an ankle of a person which incorporates a tensioning structure which permits full range of motion to the ankle joint but which prevents the ankle joint from moving past its normal range of motion to protect the ankle joint.

An ankle brace which is positioned on an ankle of a person which incorporates a tensioning structure which permits full range of motion to the ankle joint but which prevents the ankle joint from moving past its normal range of motion to protect the ankle joint.

A skate boot includes a boot shell having first and second opposite side portions cooperating to define a foot receiving opening therebetween. The first and second side portions have a facing portion extending from the foot receiving opening. A band having a first end portion is received in the boot shell and attached to the boot shell at or adjacent the second side portion. The band extends across an interior of the boot shell and is slidingly received through an opening defined in the first side portion so as to have a second end portion of the band extending outside of the boot shell. The second end portion of the band defines an aperture for receiving a lace.

A skate boot includes a boot shell having first and second opposite side portions cooperating to define a foot receiving opening therebetween. The first and second side portions have a facing portion extending from the foot receiving opening. A band having a first end portion is received in the boot shell and attached to the boot shell at or adjacent the second side portion. The band extends across an interior of the boot shell and is slidingly received through an opening defined in the first side portion so as to have a second end portion of the band extending outside of the boot shell. The second end portion of the band defines an aperture for receiving a lace.

An article of footwear includes a fastening system including a guide element and a carriage member slidably coupled to the guide element. A lacing element is coupled to the carriage member such that the position of the lacing element changes as the carriage member moves along the guide element. In an embodiment, the footwear includes a lateral side rail and a medial side rail, each rail including a series of carriage members selectively movable along the rail for a predetermined distance. The lacing element extends repeatedly from the lateral side to the medial side, being captured by the carriage members. In operation, the carriage members move along the rail, adapting the positioning of the lacing element.

A tension member guide that is configured to direct or route a tension member about a path of an article includes a cover member and a guide member that is partially covered by the cover member. The cover member is attachable to the article and includes a pair of slits or incisions. The guide member is folded along a longitudinal length to form a loop or channel within which the tension member may be inserted. The guide member is positioned in relation to the cover member so that opposing end portions of the loop or channel are inserted through the slits or incisions such that the opposing end portions are positioned on an opposite side of the cover member from a remainder of the guide member.

A tension member guide that is configured to direct or route a tension member about a path of an article includes a cover member and a guide member that is partially covered by the cover member. The cover member is attachable to the article and includes a pair of slits or incisions. The guide member is folded along a longitudinal length to form a loop or channel within which the tension member may be inserted. The guide member is positioned in relation to the cover member so that opposing end portions of the loop or channel are inserted through the slits or incisions such that the opposing end portions are positioned on an opposite side of the cover member from a remainder of the guide member.

A fiber bound engineered material is provided that imparts an intended characteristic at an intended relative location. A fiber layer is entangled with additional fibers in a manner to create a non-uniform engineered material. The lack of uniformity of a fiber bound engineered material may be accomplished through manipulation of the fibers and/or through fiber binding a scrim. The fiber layer binds with additional fibers through entanglement such that a mechanical connection between the entangled fibers is provided. This entanglement allows the fibers to bind without supplemental adhesives, interlacing, or connections. Variations in the fibers and/or inclusion of scrim materials prior to entanglement allows for an intended characteristic (e.g., a functional characteristic) at an intended relative location (e.g., a position determined by an article to be formed therefrom).