Provided is an insole to suppress, in a foot sole, an excessive outward displacement of the center of body gravity. An insole to be used as a shoe insole includes three areas divided from a top surface of the insole. The three areas include a forefoot area, a midfoot area, and a hindfoot area. In an outer section, all three areas are provided with an outer forefoot protrusion, an outer midfoot protrusion, and an outer hindfoot protrusion that protrude upwards from the top surface of the insole or downwards from a bottom surface of the insole. The protrusions are formed to have respective heights of protrusion distinctive from one another within a range of 0.2 mm or higher and 15 mm or lower.

Presented are footwear sole structures with foot-cushioning insoles movably mounted onto impact-attenuating midsoles, methods for making/using such sole structures, and footwear fabricated with such sole structures. A multilayered sole structure assembly includes an insole movably mounted on a midsole. The midsole is formed with a first compressible material and includes opposing upper and lower midsole surfaces, multiple protrusions projecting from the upper midsole surface, and multiple pockets recessed into the upper midsole surface and interleaved with the midsole protrusions. The insole, which is formed with a second compressible material distinct from the first compressible material, includes opposing upper and lower insole surfaces, multiple protrusions projecting from the lower insole surface and interleaved with the midsole protrusions, and multiple pockets recessed into the lower insole surface and interleaved with the insole protrusions. Each midsole protrusion nests within a respective insole pocket, while each insole protrusion nests within a respective midsole pocket.

A footwear assembly, such as a cycling show, includes a plantar shell, a dorsal shell, and a closure mechanism. The plantar shell that at least partially defines an interior area sized to receive a wearer’s foot and is shaped to conform to a bottom surface contour of the wearer’s foot. The dorsal shell shaped to conform to an upper surface contour of the wearer’s foot and includes a region positioned to apply a compressive force to a portion of the wearer’s foot. The closure mechanism configured to couple the dorsal shell to the plantar shell to apply the compressive force to the portion of the wearer’s foot to at least partially prevent movement of the wearer’s foot relative to the plantar shell.

A method for connecting at least two structural parts of an orthopedic component, wherein the structural parts are retained in an orienting device while oriented in relation to each other, and an intermediate space thus being formed between the structural parts. The orienting device and the structural parts together form a cavity, which has a flow connection to at least one feed connection, via which an adhesive for adhesively bonding the structural parts is introduced into the cavity.

The present invention is footwear having a convex shaped outsole with opposing wedge shaped configurations in the bottom of the front sole section and the back sole section which provide rotation of the front sole section and the back sole section in opposite directions when weight is applied. The present invention is also footwear convex shaped in the longitudinal direction with a split sole having opposing wedge shaped configurations in the bottom of the front sole section and the back sole section that provide rotation of the front sole section and the back sole section in opposite directions when weight is applied. The invention further includes footwear having at least one pair of wedges on the outsole which provide footwear having improved arch support. The invention is also footwear with a flexible, elastic, member between the front sole section and the back sole section of the sole.

An active suspension orthotic support system is disclosed. The suspension orthotic support system comprises at least one variable resistance beam extending from a heel section to a mid-arch section of the footwear, wherein rotation of the variable resistance beam from a first position to a second position causes a resistance provided by the variable resistance beam to vary between a minimum resistance to a maximum resistance.

An article of footwear includes an upper having a fastening mechanism, a sole, and a frame having an exterior surface and an interior surface. The sole includes a midsole structure and an outsole structure. The interior surface of the frame is adjacent portions of the midsole structure, the outsole structure, and the upper. The frame further has a lattice-work structure formed by a plurality of apertures extending through the interior and exterior surfaces of the frame such that at least some of the portions of the midsole structure, the outsole structure, and the upper adjacent the interior surface of the frame are exposed through the plurality of apertures. The fastening mechanism includes a fastening member extending through at least one aperture of the plurality of apertures of the frame.

A sole structure for an article of footwear includes a first midsole body and a second midsole body. The first midsole body defines a ground-facing surface and a foot-facing surface opposite the ground-facing surface and includes a first midsole material, which has a first hardness. The second midsole body extends through the first midsole body. As such, the second midsole body extends beyond the ground-facing surface of the first midsole body. The second midsole body includes a second midsole material, which has a second hardness, and the first hardness is greater than the second hardness.

A component for a shoe, intended to be interposed between a foot and the ground, is delimited by an upper surface which, in use, is turned towards the foot. The upper surface comprises a load-bearing region in which at least one recess is made, the recess being configured to receive at least one metatarsal head of the foot, so that in the load-bearing region a plurality of metatarsal support levels is defined, the metatarsal support levels being placed at different heights from one another and being intended to support the metatarsal heads of the foot. The plurality of metatarsal support levels comprises, in the more simplified embodiment, two different metatarsal support levels. In a more complex embodiment, three different metatarsal support levels are provided. In a more complete embodiment, five different metatarsal support levels are provided.

A component for a shoe, intended to be interposed between a foot and the ground, is delimited by an upper surface which, in use, is turned towards the foot. The upper surface comprises a load-bearing region in which at least one recess is made, the recess being configured to receive at least one metatarsal head of the foot, so that in the load-bearing region a plurality of metatarsal support levels is defined, the metatarsal support levels being placed at different heights from one another and being intended to support the metatarsal heads of the foot. The plurality of metatarsal support levels comprises, in the more simplified embodiment, two different metatarsal support levels. In a more complex embodiment, three different metatarsal support levels are provided. In a more complete embodiment, five different metatarsal support levels are provided.