An article of footwear includes an upper and a sole structure with a sole member. The sole member can be manufactured using a system that modifies the heel cushioning of the sole member over a series of footwear purchases. The modifications can be configured to correspond to a customer's evaluation of the heel cushioning previously purchased. The sole member can include a set of apertures that are formed along various surfaces of the sole member to adjust the cushioning characteristics of the sole member.

A sole structure can include provisions for improving the cushioning characteristics and stability of an article of footwear. The sole structure may include multiple layers with specialized structural properties designed to integrate regions of stiffness with cushioning layers. In some cases, the sole structure can include at least two independent stability layers that differ in stiffness.

The disclosed method provides a way to manufacture a style of an article of footwear in bulk, while providing customization for heel stability for individual customers. Moreover, the disclosed method provides a way to customize articles of footwear for a customer on an ongoing basis, such that the heel stability of the articles of footwear is refined until a tailored fit is achieved for the same customer. Generally, the method may include providing a user/customer with an article of footwear, getting evaluation information about the stability of the article of footwear from a survey (e.g., asking the user to rate the stability of the article of footwear in a smartphone app), modifying the next article of footwear provided to the user/customer according to the evaluation information, and iterating through this process to give the user an article optimized for stability.

An article of footwear includes an upper and a sole structure with a sole member. The sole member can be manufactured using a system that modifies the forefoot cushioning of the sole member over a series of footwear purchases. The modifications can be configured to correspond to a customer's evaluation of the forefoot cushioning previously purchased. The sole member can include a set of apertures or incisions that are formed along various surfaces of the sole member to adjust the cushioning characteristics of the sole member.

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

A shoe may comprise an upper (5) and a comfort sole (9) attached to an outsole (7), the comfort sole having a radius of curvature at any point of a line from a heel (C) to a toe (D) and interfacing with outsole (7), wherein the lowest point of comfort sole (9) and outsole (7), called the center of mass or balance point of the sole or natural balance point of the shoe, when placed on a substantially horizontal reference plane (H) defines a transition zone (Z1) of the roll of the foot having the highest radius of the comfort sole and the outsole, and in that the center of mass is behind point (B) of the metatarsals.

A shoe support structure comprising a hard rubber-like material and a gel material. The rubber-like material is constructed so that it has a change in thickness beginning at the arch, where it slopes down, leveling out at a thickness of about 1¼ inches. This change in thickness creates a frontal recess, leaving a bead of rubber at the outer edge. This cavity holds a thick cushion of about 1¾ inches of highly viscous gel material held in place by the rubber lip and adhered to the elastic material. This creates a cushion when the foot applies weight. The front of the sole and the back of the heel are equal in height, giving the entire surface equal height planes for balance. The two materials are one rubber like, one gel like and slope toward each other at the arch in identical angles.

A sole structure for an article of footwear includes an impact-attenuation support member. The impact-attenuation support member includes a first impact-attenuation element and a second-impact-attenuation element. The first and second impact-attenuation elements include one or more portions that are interlinked and that are movable with respect to one another in at least one direction.

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 sole for a running shoe having a soft-elastic midsole includes an underside coming at least partially into contact with the ground during running. The midsole includes a plurality of channels extending in the transverse direction (Q) arranged in a lateral area (LB) of the midsole in a horizontal plane. At least a portion of the channels is arranged in the forefoot area (VFB) and/or at least a portion of the channels is arranged in the midfoot area (MFB) and/or at least a portion of the channels is arranged in the heel area (FB) of the midsole. The channels are each delimited in the longitudinal direction (L) by a front wall and a rear wall and have an elongated shape in cross-section along the running direction. The channels are deformable vertically and/or horizontally in the longitudinal direction (L) until their closure under the action of forces occurring during running acting vertically and/or in the longitudinal direction (L).