A bladder for an article of footwear includes a chamber having (i) an arcuate segment extending from a first transition to a second transition, (ii) a first plurality of elongate segments extending in a first direction from the first transition to a first terminal end, and (iii) a second plurality of elongate segments spaced apart from the first plurality of elongate segments and extending in the first direction from the second transition to a second terminal end. The bladder also includes a web area connecting the arcuate segment, the first plurality of elongate segments, and the second plurality of elongate segments and extending to a terminal edge spaced apart from each of the first terminal end and the second terminal end.

A bladder for an article of footwear includes a chamber having (i) an arcuate segment extending from a first transition to a second transition, (ii) a first plurality of elongate segments extending in a first direction from the first transition to a first terminal end, and (iii) a second plurality of elongate segments spaced apart from the first plurality of elongate segments and extending in the first direction from the second transition to a second terminal end. The bladder also includes a web area connecting the arcuate segment, the first plurality of elongate segments, and the second plurality of elongate segments and extending to a terminal edge spaced apart from each of the first terminal end and the second terminal end.

Embodiments provide a support structure for an article of footwear, which may include upper and lower support elements, upper and lower members, a compression element disposed between the upper and lower members, and a torsion element. A vertical force applied to the upper support element compresses the compression element, rotationally displaces in a first direction the upper member relative to the lower member, rotationally displaces in the first direction a second portion of the torsion element relative to a first portion of the torsion element, deflects a torsion loading portion of the torsion element, and moves the upper member vertically toward the lower member. Upon release of the force, the torsion loading portion rotationally displaces in a second direction opposite to the first direction the second portion of the torsion element relative to the first portion. Embodiments of methods of manufacturing a support structure are also disclosed.

Embodiments provide a support structure for an article of footwear, which may include upper and lower support elements, upper and lower members, a compression element disposed between the upper and lower members, and a torsion element. A vertical force applied to the upper support element compresses the compression element, rotationally displaces in a first direction the upper member relative to the lower member, rotationally displaces in the first direction a second portion of the torsion element relative to a first portion of the torsion element, deflects a torsion loading portion of the torsion element, and moves the upper member vertically toward the lower member. Upon release of the force, the torsion loading portion rotationally displaces in a second direction opposite to the first direction the second portion of the torsion element relative to the first portion. Embodiments of methods of manufacturing a support structure are also disclosed.

A sole structure for an article of footwear comprises a base component and a wedge component. The base component has a forefoot region, a midfoot region, and a heel region, and includes a forward base portion and a rearward base portion. The forward base portion of the base component includes a forward lateral flange and a forward medial flange. The wedge component extends from the midfoot region to the heel region and includes a forward portion having a rearward medial flange and a rearward lateral flange. The forward lateral flange of the base component abuts the rearward lateral flange of the wedge component. The forward medial flange of the base component abuts the rearward medial flange of the wedge component.

Shoe heel devices comprising a longitudinally compressible and transversely expandable shock absorber within a bore.

Shoe heel devices comprising a longitudinally compressible and transversely expandable shock absorber within a bore.

A shock absorbing device having at least one canted spring disposed between two members is described. When the members move toward each other, the one or more canted coil springs are canted and compressed. The shock absorbing device takes advantage of the unique force-displacement curve of canted springs and reduces bounce back.

A shielding cup is provided for use with a self-fusing member or collapsible heat-concentrating accessory. The shielding cup is attached to a shoe heel as a temporary fix for a worn heel tip. The cup can be attached to the heel by a self-fusing member that binds to itself. The cup can also be attached by using a heat source and collapsible heat-concentrating accessory to concentrate heat on the heat-shrink version of the shielding cup. The cup can also be press fit on to the heel tip without the use of a self-fusing member or collapsible heat-concentrating accessory. Embodiments of the cup that can be press fit on to the heel tip include a rigid portion adjacent the base of the cup that engages the heel tip and a flexible portion extending away from the base of the cup. The flexible portion can be achieved by tapering the sidewalls of the cup along a longitudinal axis of the cup. Some embodiments of the cup that can be press fit on to the heel tip include a widened base having an outer periphery that is larger than an inner periphery.

A footwear sole obtained by molding a single polymeric material, the footwear sole includes a lower surface to contact the ground, and an upper surface to support an insole and, on the upper surface, at least one elastically deformable cushioning element. The cushioning element includes an elongated element cantileverly protruding from the upper surface, and a plurality of tabs extending from the upper surface that are arranged around the elongated element, thereby defining a dome. In an undeformed configuration of the cushioning element the tabs are upright, and there is a gap between the tabs and the elongated element, and in a deformed configuration of the cushioning element the tabs are each bent towards the elongated element and in abutment against it. The switching from the undeformed to the deformed causes the area of the bearing surface provided to the insole by each cushioning element to gradually increase.