A footwear lacing apparatus can comprise a housing structure, a spool and a drive mechanism. The housing structure can comprise a first inlet, a second inlet, and a lacing channel extending between the first and second inlets. The lacing channel can comprise a spool receptacle located between the first and second inlets, a first relief area located between the spool receptacle and the first inlet, and a second relief area located between the spool receptacle and the second inlet. The first and second relief areas can be linearly tapered between the spool receptacle and the first and second inlets, respectively. The spool can be disposed in the spool receptacle of the lacing channel. The drive mechanism can be coupled with the spool and adapted to rotate the spool to wind or unwind a lace cable extending through the lacing channel and through the spool.

A footwear lacing apparatus can comprise a housing structure, a modular spool and a drive mechanism. The housing structure can comprising a first inlet, a second inlet, and a lacing channel extending between the first and second inlets. The modular spool can be disposed in the lacing channel and can comprise a lower plate including a shaft extending from the lower plate, and an upper plate including a drum portion. The upper plate can be releasably connected to the lower plate at a connection interface. The drive mechanism can couple with the modular spool and can be adapted to rotate the modular spool to wind or unwind a lace cable extending through the lacing channel and between the upper and lower plates of the modular spool.

A footwear lacing apparatus can comprise a housing structure, a spool and a drive mechanism. The housing structure can comprise a first inlet, a second inlet, and a lacing channel extending between the first and second inlets. The lacing channel can comprise a spool receptacle located between the first and second inlets, a first relief area located between the spool receptacle and the first inlet, and a second relief area located between the spool receptacle and the second inlet. The first and second relief areas can be linearly tapered between the spool receptacle and the first and second inlets, respectively. The spool can be disposed in the spool receptacle of the lacing channel. The drive mechanism can be coupled with the spool and adapted to rotate the spool to wind or unwind a lace cable extending through the lacing channel and through the spool.

A spool includes a shaft, a trunk portion, and an upper lid portion. The shaft is rotatable about a central axis. The trunk portion includes a lower portion to which the shaft is connected and a radially outer surface around which a string material is wound. The upper lid portion is on an upper surface of the trunk portion. The trunk portion includes a groove portion, a first base portion, and a second base portion. The groove portion is recessed axially downward, extends in a radial direction, and is provided with the string material. The first base portion and the second base portion are side by side in a radial direction with the groove portion therebetween. The first base portion includes a first protruding portion protruding toward the second base portion. The second base portion includes a second protruding portion protruding toward the first base portion.

A footwear lacing apparatus can comprise a housing structure, a spool and a drive mechanism. The housing structure can comprise a first inlet, a second inlet, and a lacing channel extending between the first and second inlets. The lacing channel can comprise a spool receptacle located between the first and second inlets, a first relief area located between the spool receptacle and the first inlet, and a second relief area located between the spool receptacle and the second inlet. The first and second relief areas can be linearly tapered between the spool receptacle and the first and second inlets, respectively. The spool can be disposed in the spool receptacle of the lacing channel. The drive mechanism can be coupled with the spool and adapted to rotate the spool to wind or unwind a lace cable extending through the lacing channel and through the spool.

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.

The subject matter of the invention is a manual multispool cabinet for winding a number of filaments (40, 40a) onto a respective removable transport spool (14, 14a) having a driven main winding shaft (10, 10a) per transport spool (14, 14a), wherein the main winding shaft (10, 10a) is formed for an exactly fitting reception of the transport spool (14, 14a, 214), and wherein the main winding shaft (10, 10a) drives the transport spool (14, 14a). Providing such a manual multispool cabinet that has such an increased filament speed is achieved in that, in addition to the transport spool (14, 14a), a buffer spool (12, 12a) is held on the main winding shaft (10, 10a).

A footwear lacing apparatus can comprise a housing structure, a modular spool and a drive mechanism. The housing structure can comprising a first inlet, a second inlet, and a lacing channel extending between the first and second inlets. The modular spool can be disposed in the lacing channel and can comprise a lower plate including a shaft extending from the lower plate, and an upper plate including a drum portion. The upper plate can be releasabley connected to the lower plate at a connection interface. The drive mechanism can couple with the modular spool and can be adapted to rotate the modular spool to wind or unwind a lace cable extending through the lacing channel and between the upper and lower plates of the modular spool.

A footwear acing apparatus can comprise a housing structure, a spool and a drive mechanism. The housing structure can comprise a first inlet, a second inlet, and a lacing channel extending between the first and second inlets. The lacing channel can comprise a spool receptacle located between the first and second inlets, a first relief area located between the spool receptacle and the first inlet, and a second relief area located between the spool receptacle and the second inlet. The first and second relief areas can be linearly tapered between the spool receptacle and the first and second inlets, respectively. The spool can be disposed in the spool receptacle of the lacing channel. The drive mechanism can be coupled with the spool and adapted to rotate the spool to wind or unwind a lace cable extending through the lacing channel and through the spool.

There is proposed a cable reel, comprising mirrored first and second side portions forming an outwardly open cable receiving annular chamber therebetween for holding a cable. The cable reel includes a tapered neck wherein the cable is configured to pass though the tapered neck during winding up and dispensing of the cable, whereby jamming of the cable within the annular chamber is inhibited. The cable reel further includes a passageway for receiving a first plug attached to a first end of the cable therethrough, at least two apertures for utilisation by a user to facilitate rotation of the cable, and a plurality of plug holding members for retaining a second plug attached at a second end of the cable.