An article of footwear includes an upper, a midsole connected to the upper, and an outsole connected to the midsole. The midsole includes a lattice structure comprising a network of laths forming a plurality of cell units, the plurality of cell units arranged in a plurality of layers on the midsole. The cell units in an upper layer are stacked upon the cell units in a lower layer and separated by a set of vertices common to cell units in both the upper layer and the lower layer.

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).

A shoe includes a sole and an upper secured to the sole. The sole includes a midsole and an outsole. The midsole includes at least one foam midsole member being of foam and at least one gel midsole member being of gel. The at least one gel midsole member is located between the at least one foam midsole member and the outsole and spaces the at least one foam midsole member from the outsole such that when a wearer, wearing the shoe with the outsole in contact with a horizontal surface such as the ground, applies a downward force toward the horizontal surface and against the upper surface of the at least one foam midsole member, all of such downward force is transmitted from the midsole to the outsole via the at least one gel member.

A sole structure for an article of footwear comprises a sole plate that includes a forefoot portion with a foot-facing surface. The sole plate has at least one side wall extending upward from the foot-facing surface. The at least one side wall has a first notch in an upper periphery of the side wall in the forefoot portion. The first notch is configured to be open when the forefoot portion of the sole plate is dorsiflexed in a first portion of a flexion range and closed when the forefoot portion of the sole plate is dorsiflexed in a second portion of the flexion range greater than the first portion.

A sole for article of footwear includes a midsole component having an inner surface and an outer surface opposite the inner surface. A plurality of blind holes each extends from the outer surface toward the inner surface. The plurality of blind holes are arranged in an auxetic configuration in the outer surface. Each hole in the plurality of holes extends towards the inner surface. The plurality of blind holes is arranged in a pattern that provides a tunable performance characteristic. The patterns of blind holes vary between different regions of the midsole component to provide different types of responses in the different regions.

A shoe sole, to which an upper member is joined, the shoe sole including a bottom receiving part corresponding to a bottom of the upper member, and a rising part that is formed to rise upwardly from an upper side of the bottom receiving part so as to cover an outer surface of a side of the upper member, wherein the bottom receiving part is formed with vent grooves each recessed in a thickness direction from the upper surface of the bottom receiving part, wherein the rising part is formed with vent holes each penetrating therethrough in a thickness direction of the rising part, and wherein the vent hole is formed to have a vertically elongated shape extending from an upper end side to a lower end side of the rising part, and to be in communication with the vent groove.

A sole structure for an article of footwear includes a first plate, a fluid-filled bladder supported on the first plate, and a second plate supported on the fluid-filled bladder with the fluid-filled bladder disposed between the first plate and the second plate. The first plate ascends rearward of the fluid-filled bladder and the second plate descends rearward of the fluid-filled bladder with a posterior portion of the first plate above a posterior portion of the second plate rearward of the fluid-filled bladder. A method of manufacturing footwear sole structures includes assembling sole structures for plural ranges of footwear sizes, each of the sole structures including a fluid-filled bladder with a predetermined inflation pressure that is different for at least two of the plural ranges.

A variety of devices for protecting a user's foot from injury are disclosed. In one instance, the device is an external metatarsal protection device for a shoe or boot, having a sole with a first surface for supporting a wearer's foot and a second surface for contacting a ground area, an upper affixed to the sole, and an integral toe cap. An interior surface of the upper and the first surface of the sole define a receptacle for receiving the wearer's foot. The external protection device is incorporated along an exterior surface of the upper and is positioned to protect at least a metatarsal region of the wearer's foot. In an instance, the external protection device has injection-molded first and second layers of material, with the cushioning elements formed on a surface of the first layer and a plurality of grooves defined on a surface of the second layer.

An injection molded sole (10) has an upper ungrooved portion (2) and a lower tread portion (4). At least two, continuous, undulating S-shaped grooves (6) extend generally longitudinally of the tread portion between the toe and heel ends thereof, and a plurality of grooves extending generally transversely intersect the longitudinally extending undulating grooves. The grooves have a minimum depth of about 5 mm and define individual separated tread areas (28) which can be moved apart during flexing of the sole (10). The flexibility of the sole is such that when it is incorporated in footwear, it does not restrict rolling movements of the foot when walking so that a gait can be adopted which is akin to barefoot walking.

In a sole for a flexible shoe having a soft-elastic midsole which comes in contact with the ground at least partially during running, which has laterally open, trough-shaped elements which project downwards towards the ground and which are aligned transversely to the longitudinal direction thereof, a midsole is divided into a medial and a lateral part by a longitudinal slot extending from the heel into the ball region. The midsole can have an edge strip which bridges the trough-shaped elements in each case. The midsole is covered by an incompressible but elastically resilient plate framed by the edge strip and that the trough-shaped elements are deformable as far as closure of the lateral openings thereof in the region of the edge strip under the action of forces acting vertically and/or in the longitudinal direction which occur during running.