The invention relates to the technical field of shoe lights; in particular, to a shoe light device capable of flashing in different modes and a driving method thereof. A motion sensor, an integrated chip and a light-emitting device are integrated on a shoe, and the motion sensor and the light-emitting device are electrically connected to the integrated chip. The integrated chip is configured to control the light-emitting device to emit light in a preset constant-sequence output mode when the duration of reception of pulse signals generated by the motion sensor reaches a preset threshold, so that trigger control over the light-emitting device is realized. The shoe light device capable of flashing in different modes has the advantages of high integrity of elements, simple structure, simple production process, and various integrated cyclic output modes for flashing of the light-emitting device.

An article of footwear customization kit, system, and method include an outsole platform, configured to overlap, at least in part, an outsole of the article of footwear. A lighting unit is configured to be attached to the article of footwear and to be operatively coupled to the outsole platform, the lighting unit comprising a light emitting device configured to be visible exterior to the article of footwear. An adjustable heel unit is configured to be operatively coupled to the outsole platform and the lighting unit, the adjustable heel unit configured to be attached adjacent a heel portion of the article of footwear. The adjustable heel unit comprises a power source configured to provide power to the light emitting device when the adjustable heel unit is operatively coupled to the lighting unit. The adjustable heel unit is configured to be movable relative to the article of footwear.

A footwear accessory apparatus and system disposed on and within shoes to facilitate movement of one or more accessories around a pre-established track via an electric motor is described. The track is equipped with an internal chain drive disposed in communication with the motor via at least one gear. Accessories are preferably mounted to the chain via at least one magnet which protrudes through a top of the track via a groove. A remote control is preferably configured to enable the user to command the movement of the accessories around the track of each shoe independently. The remote is equipped with a speaker to facilitate the playback of audio and sound effects pertinent to the movement of the accessory. Accessories may be also equipped with internal batteries to facilitate the illumination of interior lights and/or headlights of the accessory.

The invention relates to the technical field of shoe lights, in particular to a shoe light device capable of flashing in different modes and a driving method thereof. A motion sensor, an integrated chip and a light-emitting device are integrated on a shoe, and the motion sensor and the light-emitting device are electrically connected to the integrated chip; and the integrated chip is configured to control the light-emitting device to emit light in a preset constant-sequence output mode when the duration of reception of pulse signals generated by the motion sensor reaches a preset threshold, so that trigger control over the light-emitting device is realized. The shoe light device capable of flashing in different modes has the advantages of high integrity of elements, simple structure, simple production process, and various integrated cyclic output modes for flashing of the light-emitting device.

The invention relates to the technical field of shoe lights; in particular, to a shoe light device capable of flashing in different modes and a driving method thereof. A motion sensor, an integrated chip and a light-emitting device are integrated on a shoe, and the motion sensor and the light-emitting device are electrically connected to the integrated chip. The integrated chip is configured to control the light-emitting device to emit light in a preset constant-sequence output mode when the duration of reception of pulse signals generated by the motion sensor reaches a preset threshold, so that trigger control over the light-emitting device is realized. The shoe light device capable of flashing in different modes has the advantages of high integrity of elements, simple structure, simple production process, and various integrated cyclic output modes for flashing of the light-emitting device.

A sole sensor system is provided. The sole sensor system that includes a sensor or sensors within insoles for use with footwear, wherein the sensors wirelessly send sensor data to a user computing device that communicates with a server to process the sensor data to determine pressure points of the user's feet during various activities of the user.

A tensioning system for articles of footwear (100) and articles of apparel is disclosed. The tensioning system includes a tensioning member that is tightened or loosened using a motorized tensioning device for winding and unwinding the tensioning member on a spool. The motorized tensioning device includes a torque transmitting system that allows for incremental tightening, incremental loosening and full loosening of the tensioning member.

A wearable article, a system, and methods include a structural material configured to enable the wearable article to the worn on a body, a piezoelectric generator, positioned with respect to the structural material in a configuration to be flexed to output a voltage, a data translator, coupled to the piezoelectric generator, configured to output electronic data based on the voltage, and an electronic data storage, coupled to the data translator, configured to store the electronic data from the data translator.

An article of apparel, a system, and methods include a structural material configured to enable the article of footwear to the worn on a body. A wireless transmission circuit is included and a piezo-electric generator is positioned with respect to the structural material in a configuration to be flexed to induce a voltage signal output. A voltage sensor is configured to sense the voltage profile and output a sensor signal indicative of the voltage profile. An electronic data storage, coupled to the voltage sensor, is configured to store voltage profile information based on the sensor data. A comparator, coupled to the electronic data storage, is configured to identify a change in the voltage profile information over time. The wireless transmission circuit is configured to transmit data indicative of a physical status of the article of footwear based on the change in the voltage profile information over tune.

An article of footwear, motorized lacing system, and method includes a motor, a transmission, operatively coupled to the motor, a power source, operatively coupled to the motor, a lace spool, operatively coupled to the motor via the transmission, configured to spool and unspool the lace based on operation of the motor, a printed circuit board, and a housing. The housing contains the motor, the transmission, the power source, the lace spool and the printed circuit board, the printed circuit board positioned between an interior surface of the housing and at least one of the power source and the motor, wherein the interior surface includes a post that extends through a hole formed in the printed circuit board. A flexing of the interior surface causes force on the housing to be at least partially imparted on the at least one of the power source, the transmission, and the motor.