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 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 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.

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.

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.

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.

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.

A shoe accessory for a shoe is provided, the shoe having a number of eyelets configured to receive a shoelace. The shoe accessory having a shoe accessory base having a number of openings, the number of openings is configured to receive the shoelace via a threading method such that the shoe accessory base is secured on the shoe. A unique accessory attachment selected form a plurality of designs is configured to be removably attached to the shoe accessory base. The accessory attachment may be swapped such that an individual may swap a different accessory attachment based on the particular design, shape, color, logo, etc. that the individual wishes to display on the shoe.

A lace adjuster for selectively adjusting and securing a shoelace of a shoe, the shoelace including a first lace end and a second lace end, includes an adjuster body, and a lace end retainer. The lace end retainer is coupled to the adjuster body. The lace end retainer is configured to receive and retain the first lace end and/or the second lace end between the lace end retainer and a surface of the adjuster body. The first lace end and/or the second lace end of the shoelace is thus inhibited from being moved relative to the lace end retainer and the adjuster body when retained by the lace end retainer by a force generated by a contact pressure of the lace end retainer against the surface of the adjuster body. The lace end retainer can be formed from a resilient material.