Lighted footwear having a sole member; an illumination system positioned in the sole; and, an upper member providing an illumination path for receiving the light from the illumination system to illuminate at least a first portion of the upper.

A magnetic coil system for the treatment of foot pain which has an electrical pulse generator sequentially connected to three separate magnetic coils that have been placed around that patient's foot. The magnetic coil system consisting of one bottom coil, one coil on top of the foot and a third coil that is situated around the back of the foot and the bottom of the ankle. The three coils being separately and sequentially activated by the electrical pulse generator. The treatment of plantar fasciitis being accomplished by the activation of a series of intense magnetic pulsations using only the bottom coil.

An article of footwear comprises a sole structure, and an upper including a front section and a rear section. The front section is fixed to a forefoot region of the sole structure and partially defines a foot-receiving cavity. The rear section is operatively secured to the sole structure at least partially rearward of the front section, and includes medial and lateral wings. A medial set of magnets includes at least one front medial magnet secured to a medial side of the front section and at least one rear medial magnet secured to the medial wing. A lateral set of magnets includes at least one front lateral magnet secured to a lateral side of the front section and at least one rear lateral magnet secured to the lateral wing. The rear section is movable relative to the front section between an access position and a use position.

A method of manufacturing a multicolor shoe material includes the following steps. Step S1: blank molds are provided, and a mold chamber of each of the blank molds is injected by one of the foamed materials in different colors to form unfoamed semi-finished products in different colors. Step S2: the semi-finished products are put into a foaming mold, when the foaming mold is preheated and completely closed, a ratio of a total volume of the semi-finished products to a volume of the mold chamber of the foaming mold is ranged between 0.96 and 1.04. Thus, the semi-finished products could be evenly foamed. After foaming, adjacent two of the semi-finished products could be connected by heat fusion to obtain the multicolor shoe material. Additionally, a semi-finished product and a multicolor shoe material are provided in the present invention.

An article of footwear with a ball contacting surface is disclosed. The ball contacting surface includes a raised peak member at the top and gripping members along a medial side. The ball contacting surface enhances the ability of a wearer to kick a ball with a low trajectory and to control the ball.

A shoe insert liner or no-show sock configured to detachably adhere to an interior cavity of a shoe is provided. In one embodiment, the shoe insert liner includes a liner having an exterior surface and an adhesive bonded to at least a portion of the exterior surface of the liner. The liner includes a longitudinal portion, opposing first and second lateral portions extending in a first direction from opposite sides of the longitudinal portion, and opposing front and rear portions extending in the first direction from opposite ends of the longitudinal portion. Together, the longitudinal, lateral, front, and rear portions of the liner define an interior cavity and an opening configured to receive a user's foot.

An article of footwear includes a knitted upper component and a thermoplastic polyurethane yarn stitched into a region of the knitted upper component. The thermoplastic polyurethane yarn is fused with the knitted component at the region of the knitted upper component. The article of footwear may include at least one of an outer sole and a midsole connected to the upper, with at least one of the outer sole and the midsole formed of knitwear.

An article of footwear includes a knitted upper component and a thermoplastic polyurethane yarn stitched into a region of the knitted upper component. The thermoplastic polyurethane yarn is fused with the knitted component at the region of the knitted upper component. The article of footwear may include at least one of an outer sole and a midsole connected to the upper, with at least one of the outer sole and the midsole formed of knitwear.

An insole and/or outsole for a shoe such as an athletic shoe or cleat that includes a multilayer channeled assembly designed at preventing the transfer of heat from extremely hot ground surfaces, most notably synthetic turf, to the foot. In one embodiment, the insole includes a channeled layer of solid material with a very low thermal conductivity, preferably silicon or cork, as the base material beneath a layer of heat resistant felt preferably made of oxidized polyacrylonitrile fibers. The channeling in the base layer allows for air pockets to be created within the insole itself that makes the heat resistant felt more resistant to (i.e., more efficient at preventing) the transfer of heat. In another embodiment, the outsole for a shoe such as an athletic shoe or cleat includes a base layer of channeled solid material with low thermal conductivity, preferably silicon, cork, or polystyrene, below a layer of heat resistant felt preferably made of oxidized polyacrylonitrile fibers. This assembly is encased within a solid plastic mold that extends up to the base of the upper of the shoe or cleat and allows for little or no pressure to be put on the assembly itself. The studs for the cleats are preferably molded out of the plastic encasing itself.

An insole and/or outsole for a shoe such as an athletic shoe or cleat that includes a multilayer channeled assembly designed at preventing the transfer of heat from extremely hot ground surfaces, most notably synthetic turf, to the foot. In one embodiment, the insole includes a channeled layer of solid material with a very low thermal conductivity, preferably silicon or cork, as the base material beneath a layer of heat resistant felt preferably made of oxidized polyacrylonitrile fibers. The channeling in the base layer allows for air pockets to be created within the insole itself that makes the heat resistant felt more resistant to (i.e., more efficient at preventing) the transfer of heat. In another embodiment, the outsole for a shoe such as an athletic shoe or cleat includes a base layer of channeled solid material with low thermal conductivity, preferably silicon, cork, or polystyrene, below a layer of heat resistant felt preferably made of oxidized polyacrylonitrile fibers. This assembly is encased within a solid plastic mold that extends up to the base of the upper of the shoe or cleat and allows for little or no pressure to be put on the assembly itself. The studs for the cleats are preferably molded out of the plastic encasing itself.