Functional shoes include a sole, a coupling member including a coupling body detachably coupled to the sole; an auxiliary lever coupled to the coupling body so as to be rotatable toward a bottom surface of the sole; and a fixing part protruding from the auxiliary lever toward the bottom surface of the sole and is detachably coupled to the sole, and at least one functional member provided integrally with the coupling body or detachably coupled to the coupling body to provide a predetermined function to the shoes. The fixing part moves between a coupling position in which the fixing part is coupled to the sole and a separation position in which the fixing part is separated from the sole, by a rotation of the auxiliary lever.

A track and field shoe can include an upper, a sole structure, and a toe plate. The upper can include a medial side portion, a lateral side portion, and a toe box portion. The sole structure can be attached to the upper and can include a spike plate. The spike plate can have an anterior portion and a posterior portion. The toe plate can be attached to an anterior portion of the toe box portion of the upper and can include a hard and smooth outwardly facing surface. One or more portions of the toe plate can be exposed from an exterior surface of the upper.

A track and field shoe can include an upper, a sole structure, and a toe plate. The upper can include a medial side portion, a lateral side portion, and a toe box portion. The sole structure can be attached to the upper and can include a spike plate. The spike plate can have an anterior portion and a posterior portion. The toe plate can be attached to an anterior portion of the toe box portion of the upper and can include a hard and smooth outwardly facing surface. One or more portions of the toe plate can be exposed from an exterior surface of the upper.

A shoe apparatus with electronic grip enhancement is disclosed. In particular, the shoe includes: an electrical energy storage device such as a capacitor or battery; a piezoelectric generator configured to generate electricity when the user takes a step in the shoe; and a sole including an electrostatic adhesive portion configured to augment the grip of the shoe.

A sole designed for attachment to an article of footwear, made of a hard polymer outsole connection plate affixed to a flexible polymer outsole that has a series of threaded imbed anchors housed therein for the attachment of various designs of interchangeable cleats. The cleats reside in detents formed on planar channels across the width of the outsole and extend above a series of tapered raised pads formed on the bottom face of the outsole.

A sole structure includes an outsole having an outsole body defining an inner body surface and an outer body surface opposite the inner body surface. The outsole has a plurality of traction elements each extending from the outsole body away from the inner body surface. Each of the traction elements includes a base coupled to the outsole body surface. Each of the traction elements includes a tip spaced apart from the outer body surface and has a pitch defined by a vector. The pitch of each of the plurality of traction elements varies as a function of a distance from the central axis to a respective traction element.

According to one embodiment, a removable tightening device is described. The tensioning mechanism is removably coupleable with an article without damaging the article so that upon removal, the coupling of the tensioning mechanism with the article is unrecognizable or not readily detectable. The tensioning mechanism is operable with a tension member to maintain a tension of the tension member and thereby maintain a tightness of the article. The tension member is guided along a path about the article, via one or more guide members, and is tensionable, via the tensioning mechanism, to tighten the article.

According to one embodiment, a removable tightening device is described. The tensioning mechanism is removably coupleable with an article without damaging the article so that upon removal, the coupling of the tensioning mechanism with the article is unrecognizable or not readily detectable. The tensioning mechanism is operable with a tension member to maintain a tension of the tension member and thereby maintain a tightness of the article. The tension member is guided along a path about the article, via one or more guide members, and is tensionable, via the tensioning mechanism, to tighten the article.

An article of footwear with self-cleaning cleats and a method of making an article of footwear. The article of footwear may include a sole plate having cleats associated with resilient members. The resilient members may be disposed on the cleats. The resilient members may prevent mud from accumulating on the cleats and/or a bottom surface of the sole plate by compressing against a surface of the ground and then springing back, preventing mud from sticking to the resilient member.

A track and field shoe can include an upper, a sole structure, and a toe plate. The upper includes a medial side portion, a lateral side portion, and a toe box portion. The sole structure is attached to the upper and includes a spike plate. The spike plate has an anterior portion, a posterior portion, and a plurality of spikes. The spikes are configured for penetrating a track surface. The toe plate is attached to an anterior portion of the toe box portion of the upper. One or more portions of the toe plate are exposed from an exterior surface of the upper. The spikes are spaced apart from the toe plate such that the spikes disengage the track surface when the toe plate contacts the track surface.