A device for use in a shoe includes a first foot, a second foot, a third foot, a fourth foot, a first flexible leg, a second flexible leg, a third flexible leg, and a fourth flexible leg. The first flexible leg extends from the first foot and is curved. The second flexible leg extends from the second foot and is curved. The third flexible leg extends from the third foot and is curved. The fourth flexible leg extends from the fourth foot and is curved. The first flexible leg, second flexible leg, third flexible leg, and fourth flexible leg are joined together with each other at a common area. The first flexible leg, second flexible leg, third flexible leg, and fourth flexible leg are configured to store energy when a force is applied to the common area, and to return energy when the force is removed from the common area.

An article of footwear includes an upper and a sole coupled to the upper. The sole includes one or more elongate shape memory components that define a cavity and form a midsole.

An article of footwear is provided and includes an upper and a sole secured to the upper and including a stabilizing member extending outwardly from the upper, where the stabilizing member includes a groove that separates the stabilizing member into a medial balancing member and a lateral balancing member so that the medial balancing member and the lateral balancing member move independently of each other to provide balance and stability on different terrains. The medial balancing member and a lateral balancing member also include a slot and a plate inserted into each slot.

A sole structure for an article of footwear with an upper and a top portion attached to the upper. The sole structure can include an outsole with a front portion, a middle portion, and a rear portion. The front portion and the middle portion of the outsole can be attached to the top portion. A front spacing can be defined between the front portion of the outsole and the top portion, and a rear spacing can be defined between the rear portion of the outsole and the top portion. Further, the sole structure can include at least one of a spike, a tooth, or a barb extending from a bottom surface of the outsole.

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.

An article of footwear is provided and includes an upper and a sole attached to the upper, where the sole has a medial side and a lateral side, and a through-hole extending between the medial side and the lateral side. A support member is positioned in the through-hole of the sole, where the support member includes an upper support and a lower support and where the upper support is spaced from the lower support.

The present disclosure relates to an article of footwear with a sole structure having at least one adjustability pod configured to adjust at least one of a length and a width of the sole structure.

An article of footwear is provided having an elevated plate structure incorporated in the sole structure and optionally including a fluid-filled chamber. The elevated plate structure can include an upper plate and a plurality of legs extending downward toward the outsole. End portions of the legs can engage an upper region of the outsole. The elevated plate structure can form a cage region that can optionally include a fluid-filled chamber substantially disposed therein. The elevated plate structure can further include a lower plate disposed at an upper region of the outsole, which can form a lower portion of the cage region. Portions of the legs can be integrated with impact-attenuating members in the heel region in various configurations and can provide features for the impact-attenuating members, such as support, impact-attenuation and adjustable impact-attenuation features.

A running shoe comprises an upper and a midsole attached to the upper, the midsole having a front portion corresponding to a forefoot and a rear portion corresponding to a heel. The front portion of the midsole may define a toe spring of at least 40 mm and a plurality of flex grooves, the plurality of flex grooves including one or more horizontal flex grooves and one or more longitudinal flex grooves, the horizontal flex groove(s) extending in a lateral to medial direction of the running shoe and allowing the front portion of the midsole to lie flat in response to application of less than 15 pounds of force against the toe spring, the longitudinal flex groove(s) extending in a front to back direction of the running shoe. The rear portion of the midsole may have a flat bottom that is narrower than the upper.

A separated prosthetic foot with a transverse arch belongs to the technical field of manufacturing of artificial limbs. The characteristics of the transverse arch of the human foot are combined into the previous transverse-straight carbon fiber foot design to improve the stiffness of the prosthetic foot and reduce the weight of the prosthetic foot. A forefoot part employs a separated curved plate design, and two simple curved plates with different curvatures are used for simulating a complex curved surface of the transverse arch of the human, such that the manufacturing cost is reduced, and the various parts of the sole are non-uniform in stiffness distribution: the outer side of the foot is a single-layer forefoot plate with a smaller curvature and minor stiffness; and the inner side of the foot is a double-layer stacked forefoot plate, and the lower layer plate has a large radius in curvature and stiffness.