A shoe is disclosed that includes an upper having a closure mechanism that is arranged for lacing the shoe by at least one tensioning element, a rotatably arranged tensioning roller disposed within the closure mechanism, the tensioning roller being driven by an electric motor, and a closing button in communication with a control system for generating a closing signal that is configured to actuate the electric motor to lace the shoe. The closure mechanism is configured to tighten the shoe with a first level of lacing power when a first closing signal is generated and tighten the shoe with a second level of lacing power when a second closing signal is generated.

Various embodiments of a rotary closure with a latching system that latches together the components of the rotary closure in snap-fit engagement are disclosed.

A reel based closure device includes a housing, a spool positioned within the interior region of the housing, a knob that is operably coupled with the spool and with the housing, and a rotation control component that is operably coupled with the knob. The knob is rotatable in a tightening direction to cause the spool to rotate within the housing and thereby wind the tension member about the spool. The knob is also rotatable in a loosening direction to cause the spool to rotate in an opposite direction within the housing and thereby unwind the tension member from about the spool. The rotation control component is configured to prevent accidental loosening of the tension member by inhibiting rotation of the knob in the loosening direction until a sufficient rotational force is exerted on the knob in the loosening direction.

A fastening device including a case unit, a knob and an engaging unit is provided. The case unit includes a wall forming a receiving space and a plurality of mounting teeth. The knob covers on the case unit. The engaging unit is within the receiving space. The engaging unit corresponds to the mounting teeth and is selectively coupled to the knob. The knob is switched between a first position and a second position. When the knob is in the first position to couple to the engaging unit, the engaging unit is linked up with the knob and the engaging unit is engaged with the mounting teeth to prohibit the knob from rotating in a first direction, and when the knob is in the second position to disengage from the engaging unit, the engaging unit does not prohibit the knob from rotating in the first direction.

An article of footwear may include a motorized tensioning system. The tensioning system may include a tensile member and a motorized tightening device configured to apply tension in the tensile member to adjust the size of an internal void defined by the article of footwear. The tensioning system may further include a power source configured to supply power to the motorized tightening device. The tensile member, the motorized tightening device, and the power source may be configured to be removably attached to the article of footwear.

An article of footwear with an automatic lacing system is disclosed. The automatic lacing system provides a set of straps that can be automatically opened and closed to switch between a loosened and tightened position of the upper. The article further includes an automatic ankle cinching system that is configured to automatically adjust an ankle portion of the upper.

A tensioning system for an article of footwear includes a motor, a reel member in communication with the motor, and a lace, the reel member comprising a shaft including a central axis running from a first end to a second end and at least three flanges disposed along the shaft. A center flange of the at least three flanges includes an aperture extending through the center flange from a first face to a second face of the center flange, the aperture aligned with the central axis. A portion of the lace extends through the aperture in the center flange to interconnect the lace with the reel member and the lace is configured to be wound around portions of the shaft disposed on opposite sides of the center flange when the tensioning system is in a tightened condition.

In a fastening structure, a third guide member located on the medial side and a third guide member located on the lateral side overlap each other in a foot length direction of footwear as viewed in the foot length direction. A tightening member is guided such that intermediate portions of the tightening member, which are located on the medial and lateral sides, extend in a direction including a component of the foot length direction without crossing each other in a foot width direction of the footwear.

A fastening device includes a case, a spool disposed within the case, an engaging unit disposed above the spool, and a knob covering the upper case body. The case includes an upper case body including at least one protecting wing extending upward, and a base detachably coupled to the upper case body. At least a portion of the at least one protecting wing is higher than a lower edge of the knob.

Presented are intelligent electronic footwear and apparel with controller-automated features, methods for making/operating such footwear and apparel, and control systems for executing automated features of such footwear and apparel. A method for operating an intelligent electronic shoe (IES) includes receiving, e.g., via a controller through a wireless communications device from a GPS satellite service, location data of a user. The controller also receives, e.g., from a backend server-class computer or other remote computing node, location data for a target object or site, such as a virtual shoe hidden at a virtual spot. The controller retrieves or predicts path plan data including a derived route for traversing from the user's location to the target's location within a geographic area. The controller then transmits command signals to a navigation alert system mounted to the IES's shoe structure to output visual, audio, and/or tactile cues that guide the user along the derived route.