Improved soles and insoles for shoes, in particular sports shoes, are described. In an aspect, a sole for a shoe, in particular a sports shoe, with at least a first and a second surface region is provided. The first surface region comprises expanded thermoplastic polyurethane (“TPU”). The second surface region is free from expanded TPU.

An insole comprising a shell component and a chassis component. The shell component comprises support bars that define framing apertures and the chassis component comprises undercut channels that define raised pod sections.

The present invention relates to a shoe including an upper, the upper including an instep cover that covers the instep of a foot. The instep cover includes an instep cover body and a tongue. Two or more protrusions that are configured to extend in use from the instep cover body toward the foot are located at least in a region between the MP joint and the talus in a side portion of the instep cover body. The protrusions are made of embroidery. The protrusions have a height of 0.5 mm or more, a width of 2 mm or more, and a length of 2 mm or more. A distance between each pair of the adjacent protrusions is 2 mm or more in part of the region. The shoe of the present invention includes the upper that improves the heat dissipation properties without impairing the contact between the foot and the shoe.

A non-removable insole, that is an integral part of a shoe or other footwear article, includes at least: a top layer, a middle layer, and a bottom layer. The middle layer of the insole has apertures or cavities, that define several discrete storage chambers within the insole. Each storage chamber stores a mixture of two or more particulate materials. The mixture includes one or more materials selected from Group A, which includes natural sand, synthetic sand, artificial sand, kinetic sand, silica, quartz. The mixture further includes one or more materials selected from Group B, which includes: powdered aluminum, powdered titanium, powdered zinc, powdered magnesia, powdered silver, powdered anti-bacterial agent, powdered metal, powdered talcum, grained cork, grained coal, grained wood.

A sensor system is adapted for use with an article of footwear and includes an insert member including a first layer and a second layer, a port connected to the insert and configured for communication with an electronic module, a plurality of force and/or pressure sensors on the insert member, and a plurality of leads connecting the sensors to the port.

A footwear includes an upper and a sole. The upper includes a membrane and at least one outer layer. The membrane is attached to the outer layer and the membrane is attached to an insole. The membrane is attached to the insole by stitching a lower end of the membrane to the circumference of the insole. The minimum length of stitches of the stitching is at least 1.0 mm. The membrane is a waterproof breathable membrane. The insole is attached to the sole.

A footwear includes an upper and a sole. The upper includes a membrane and at least one outer layer. The membrane is attached to the outer layer and the membrane is attached to an insole. The membrane is attached to the insole by stitching a lower end of the membrane to the circumference of the insole. The minimum length of stitches of the stitching is at least 1.0 mm. The membrane is a waterproof breathable membrane. The insole is attached to the sole.

The present disclosure describes molded footwear including a sole integrally connected to an upper. For example, a sole structure may include an insole and a strobel board. The insole may include a spacing structure that rests on a top surface of the strobel board to form a cavity between the insole and the strobel board. Further, the upper and/or strobel board may include perforations at least partially aligned with the cavity. Accordingly, the sole structure may be connected to the upper via injection molding material into the cavity formed between the insole, the strobel board, and the upper. The molding material may flow through the specifically located perforations in the shoe's upper and/or the shoe's strobel board such that the material bonds internally within the cavity, internally within the perforations, and externally to the shoe's upper and strobel board but within the mold cavity.

A human shoe sole has foot supporting upper surface including a first region for supporting the first, second, third, fourth and optionally fifth metatarsal heads of the foot of the wearer when the human shoe sole is worn; a second region for supporting the wearer's heel when the shoe sole is worn; and a section bridging the first section and the second section. The shoe sole includes a cuboid pad immediately forward the second section configured to underlie essentially the central interior region of the cuboid bone of the wearer, The cuboid pad includes an obliquely running groove or notch on a superior surface of the cuboid pad arranged to align with the location of the peroneus longus tendon of the wearer.

A novel tracking system is disclosed. In one embodiment, a long-range tracking device is incorporated into a removable footwear insole and a short-range tracking device is incorporated into another removable footwear insole. The long-range tracking device includes a location determining device, a wireless communication device, and a power source. In a more particular embodiment, the location determining device is a GPS receiver, and the communication device is a cellular modem.