A sole for an article of footwear includes a continuous dispensed component forming a first layer and a second layer. The first layer is disposed directly on top of the second layer. The continuous dispensed component forms a medial sidewall and a lateral sidewall. The first layer includes a starting point where the continuous dispensed component is first dispensed. The continuous dispensed component continuously transitions from the first layer to the second layer at the starting point.

Embodiments described herein relate to an improved footwear and methods for making and using the improved footwear, to provide improved structural support and comfort for a user. Embodiments described herein also relate to an improved footwear including a multi-layered midsole configured to provide improved support and comfort during use, while also providing antimicrobial protection to the user's foot.

The present invention relates to a fatigue-reducing safety shoe. The shoe according to the present invention is able to offer the user a high degree of protection in case of accidental events, in accordance with current regulations, together with a higher level of comfort perceived by the user due to a specific configuration of the multilayer sole capable of respecting the ergonomics of the user according to the biomechanics of the walk.

A sandal construction configured to provide high performance in athletic, sporting and other activities not typically associated with sandals. The sandal includes a sole with an integrated sole plate and an upper with a heel cradle configured to assist in maintaining close contact between the sole and the heel of the wearer's foot during use. The heel cradle may be molded with a three-dimensional shape that is anatomically correct and is inwardly angled to extend into and assist in holding the heel down against the upper surface of the sole. The sole may include a dual-density midsole with a softer upper layer and firmer lower layer. The sole plate may be embedded in the lower layer. The sole plate may include a heel cup defining a central opening. The upper surface of the midsole may include a heel recess aligned with the heel cup and the central opening.

A sole assembly for an article of footwear comprises a sole plate with a foot-facing surface with a recess disposed in the foot-facing surface. An insert plate is disposed in the recess. A length of the insert plate between anterior and posterior ends of the insert plate is less than a length of the recess. The insert plate flexes free of compressive loading by the sole plate when a forefoot portion of the sole assembly is dorsiflexed in a first portion of a flexion range, and operatively engages with the sole plate when the forefoot portion is dorsiflexed in a second portion of the flexion range that includes flex angles greater than in the first portion of the flexion range. The sole assembly is dorsiflexed, for example, when the forefoot portion is flexed in accordance with toes bending toward the top of the foot.

An article of footwear includes an outsole that has a bottom portion and a medial arch portion extending upward from the bottom portion. The medial arch portion of the outsole has a base and a plurality of protrusions extending outward from the base. The plurality of protrusions are arranged in vertical alignments. In each one of the vertical alignments, at least one protrusion of the plurality of protrusions is closer to the bottom portion and has a larger effective diameter than at least one other protrusion of the plurality of protrusions that is further from the bottom portion.

Disclosed herein are improved cross-linked resilin compositions and methods of making these improved compositions. These include new methods of cross-linking resilin compositions, use of polar nonaqueous solvents for adjusting material properties of cross-linked resilin solid compositions, and resilin foam compositions and methods of making the same.

In one embodiment, an article of footwear includes a first braided layer and a second braided layer. The first braided layer passes along an upper surface of a midsole while the second braided layer passes along a lower surface of the midsole. In another embodiment, an article of footwear includes a first braided layer and a second braided layer. The first braided layer passes along an upper surface of a plate while the second braided layer passes along a lower surface of the plate. In another embodiment, an article of footwear includes a unitary braided component that includes a first layer and a second layer.

A method of making a midsole for an article of footwear includes forming a plurality of foam layers, arranging the plurality of foam layers in a mold to form the midsole, piercing the plurality of foam layers with pins, and introducing heat with the pins to bond the plurality of layers together.

A force absorbing device for a footwear appliance includes a shoe upper and a shoe sole having a planar sole surface, such that forces between the shoe upper and planar sole surface in ground contact are absorbed by force mitigation structures disposed in the shoe sole. A footwear article includes a split-sole system that redefines a shoe sole as coplanar surfaces having a force mitigating interface for receiving sudden forces and effectively mitigating these forces by storing kinetic energy and releasing it over time. An elastic field in the force mitigation structure is defined by a resilient material adapted to deform in response to the received force. Frictional engagement between the upper and lower sole may also be augmented by surface characteristics such as dimples, voids and lubricants, in addition to interference engagement with an elastic field.