Embodiments of the present invention provide a cover that wraps over footwear and is secured in place with a set of attachment tabs wrapped under the arch area of the footwear and secured to each other. Another attachment tab wraps over the arch area and is secured to a corresponding attachment point on the outer surface of the cover. Depending on the material used, once the cover is secured in place, it may provide insulation and abrasion resistance.

A foot presence sensor system for an active article of footwear can include a sensor housing configured to be disposed at or in an insole of the article, and a controller circuit, disposed within the sensor housing, configured to trigger one or more automated functions of the footwear based on a foot presence indication. In an example, the sensor system includes a capacitive sensor configured to sense changes in a capacitance signal in response to proximity of a body. A dielectric member can be provided between the capacitive sensor and the body to enhance an output signal from the sensor.

Assembly methods related to an automated footwear platform including a lacing engine drive apparatus are discussed. In an example, an assembly method can include operations such as inserting a mid-sole plate, attaching a laced upper portion, and inserting a lacing engine. The inserting a mid-sole plate operation can include inserting the mid-sole plate into a mid-sole of the footwear platform. The attaching a laced upper portion operation can include attaching a laced upper portion to the mid-sole and positioning a lace loop in the mid-sole plate. Finally, the inserting a lacing engine operation can include inserting a lacing engine into a cavity in the mid-sole plate, wherein the lacing engine includes a lace spool exposed along a superior surface to receive the lace loop.

Systems and apparatus related to automated tightening of a footwear platform including a footwear lacing apparatus are discussed. In an example, a footwear lacing apparatus can include a housing structure, a spool, and a drive mechanism. The housing structure can include a top section and a bottom section. The spool can include a superior surface, a lace spool under the superior surface and a spool shaft with a keyed connection pin. The spool can also be integrated into the top section of the housing structure. The drive mechanism can couple with the spool via the keyed connection pin on the spool shaft. The drive mechanism can be adapted to rotate the spool to tighten or loosen a lace cable integrated into the footwear.

An article of footwear can include provisions for facilitating the installation of various components such as a lighting apparatus. During manufacture of the article of footwear, the upper and/or sole structure can include a chamber designed to receive the lighting apparatus. The lighting apparatus can be installed in the chamber after manufacture of the article of footwear. In some cases, the lighting apparatus can include provisions for facilitating the installation of the lighting apparatus in the chamber, including a removable handle portion that can help guide the lighting apparatus within the chamber.

A garment that shields a wearer from electromagnetic radiation may generally have a length of fabric forming the garment. The wearable garment may be virtually any garment such as a brassiere, camisole, shirt, pants, leggings, head wear, footwear, and the like. The garment is preferably made of at least a first fabric and a second fabric, where the first fabric is a non-metallized fabric and the second fabric being a metallized fabric. The metallized fabric, in some embodiments, is a metal plated fabric having one or more electrically conductive metals disposed thereon. The metallized fabric is used to form at least one pocket of the garment. Electronics and other devices can be placed and stored in the metallized pocket thereby shielding the wearer from electromagnetic radiation emitted by the electronic or similarly situated device.

An article of footwear can include provisions for facilitating the installation of various components. During manufacture of the article of footwear, the upper and/or sole structure can include one or more specialized compartments designed to receive the components. The components can be installed in compartments after manufacture of the article of footwear. In some cases, the components can be used to perform different functions in a motorized tensioning system.

A boot storage attachment system includes a boot; a storage attachment, having a body forming an inner cavity; and a strap attached to the body and having a closure; the strap and closure are to secure the storage attachment to a side of the boot with the body being secured within an interior of the boot or on an exterior of the boot.

A foot presence sensor system for an active article of footwear can include a sensor housing configured to be disposed at or in an insole of the article, and a controller circuit, disposed within the sensor housing, configured to trigger one or more automated functions of the footwear based on a foot presence indication. In an example, the sensor system includes a capacitive sensor, and the sensor is configured to sense changes in a foot proximity to the sensor in footwear. A baseline or reference condition for the capacitive sensor can be updated to accommodate different use conditions.

Describes are support elements for a sole of a shoe, in particular a sports shoe, a sole and a shoe with such a support element, as well as a method for the manufacture of a support element. As examples, the support element includes a first partial member formed of a first material, and a second partial member formed of a second material. The first partial member is mechanically joined to the second partial member in a connection region, wherein the connection region is configured to allow the first partial member to rotate or slide relative to the second partial member. The first partial member, the second partial member, and the connection region can be co-molded and joined together in a single fabricating step.