Sports shoe including an outer sole assembly that includes a damping layer extending over substantially the entire length of the outer sole assembly, as well as an upper fixed to the outer sole assembly. The upper includes an envelope configured to surround a portion of a wearer's foot, as well as a non-extensible flexible panel fixed to the envelope in the area of a portion of the lateral junction between the upper and the outer sole. The sports shoe further includes a reinforcement that is comprised of a rigid plastic material having a hardness greater than 40 shore D, the reinforcement including a lateral wing fixed to a portion of a lateral side of the damping layer and to an outer surface of the flexible panel.

A tension-retaining system for retaining tension in a tensioning cord of a wearable article may include a retainer including an anchor and a wedge. The anchor may define a notch, and the wedge may have a tensioning cord coupling feature. The wedge may have an engagement portion that fits within the notch with the engagement portion disposed further in the notch than the tensioning cord coupling feature.

Systems and apparatus related to automated tightening of a footwear platform including a lacing engine drive apparatus are discussed. In an example, a drive apparatus to rotate a lace spool of a motorized lacing engine within a footwear platform can include a gear motor, a gear box, a worm drive, and a worm gear. The gear box can be mechanically coupled to the gear motor, and the gear box can include a drive shaft extending opposite the gear motor. The worm drive can be slidably keyed to the drive shaft to control rotation of the worm drive in response to gear motor activation. The worm gear can rotate the lace spool upon rotation of the worm drive to tighten or loosen a lace cable on the footwear platform.

Systems and apparatus related to automated tightening of a footwear platform including a lacing engine drive apparatus are discussed. In an example, a drive apparatus to rotate a lace spool of a motorized lacing engine within a footwear platform can include a gear motor, a gear box, a worm drive, and a worm gear. The gear box can be mechanically coupled to the gear motor, and the gear box can include a drive shaft extending opposite the gear motor. The worm drive can be slidably keyed to the drive shaft to control rotation of the worm drive in response to gear motor activation. The worm gear can rotate the lace spool upon rotation of the worm drive to tighten or loosen a lace cable on the footwear platform.

A closure system for a shoe includes a single shoelace which can be secured and tightened through the use of one hand. The shoe includes a button around which the shoelace is wrapped to facilitate easy removal of the shoe. In one embodiment one end of the shoelace is secured under the upper of the shoe near the toe and a second end of the shoelace is secured in a slider that is slidably mounted on the rear of the shoe to provide micro-adjustments of the tightness of the shoe. Alternatively, the shoe includes a strip of piping around the rear of the shoe and a slider in which the second end of the shoelace is secured slides along the piping when the user wants to make micro-adjustments.

A closure system for a shoe includes a single shoelace which can be secured and tightened through the use of one hand. The shoe includes a button around which the shoelace is wrapped to facilitate easy removal of the shoe. In one embodiment one end of the shoelace is secured under the upper of the shoe near the toe and a second end of the shoelace is secured in a slider that is slidably mounted on the rear of the shoe to provide micro-adjustments of the tightness of the shoe. Alternatively, the shoe includes a strip of piping around the rear of the shoe and a slider in which the second end of the shoelace is secured slides along the piping when the user wants to make micro-adjustments.

An adjustable clog with a unique strap system is described. The sole assembly for the clog has an interior sole wing situated near a heel of the sole assembly, and an exterior sole wing on an opposite side of the sole assembly from the interior sole wing, near the heel of the sole assembly, wherein the interior sole wing and the exterior sole wing consist of webbing strap and rubber that extend above the sole assembly. The clog also includes an upper, where the upper is affixed to the sole assembly. A wing hook strap is affixed to the interior sole wing on the first end of the wing hook strap and to the paracord loop on a second end of the wing hook strap, wherein the wing hook strap includes a first G-hook that hooks into one of the first plurality of hook pockets. A heel strap connected to the interior sole wing on the first end of the heel strap and the exterior sole wing on a second end of the heel strap through the mechanical ring, said heel strap includes a second G-hook that hooks into one of the second plurality of hook pockets.

An adjustable clog with a unique strap system is described. The sole assembly for the clog has an interior sole wing situated near a heel of the sole assembly, and an exterior sole wing on an opposite side of the sole assembly from the interior sole wing, near the heel of the sole assembly, wherein the interior sole wing and the exterior sole wing consist of webbing strap and rubber that extend above the sole assembly. The clog also includes an upper, where the upper is affixed to the sole assembly. A wing hook strap is affixed to the interior sole wing on the first end of the wing hook strap and to the paracord loop on a second end of the wing hook strap, wherein the wing hook strap includes a first G-hook that hooks into one of the first plurality of hook pockets. A heel strap connected to the interior sole wing on the first end of the heel strap and the exterior sole wing on a second end of the heel strap through the mechanical ring, said heel strap includes a second G-hook that hooks into one of the second plurality of hook pockets.

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.

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.