A slipper for drying between the toes of the user. The slipper includes a fan and warming element to dry the foot. The fan blows through air channels in the foot bed to dry between the toes. Separators and contours on the slipper separate the toes of the user to allow air to blow on the skin between the toes, drying the skin. The slipper includes a power switch to active the slipper. The slipper includes a power supply.

A slipper for drying between the toes of the user. The slipper includes a fan and warming element to dry the foot. The fan blows through air channels in the foot bed to dry between the toes. Separators and contours on the slipper separate the toes of the user to allow air to blow on the skin between the toes, drying the skin. The slipper includes a power switch to active the slipper. The slipper includes a power supply.

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 and method of manufacturing includes a midsole, an upper, secured with respect to the midsole, forming an opening to admit a foot of a wearer, the opening being adjustable between a first segment of the upper and a second segment of the upper to secure the article of footwear to the foot of the wearer, and a slidable securing device. The slidable securing device is coupled between the first segment and the second segment of the upper, configured to slide along a length of track and secure the first and second segments together. A motorized lacing system engages with a lace to increase and decrease tension on the lace. The lace is secured to the slidable securing device, and when tension is placed on the lace, the lace causes the slidable securing device to slide along the track and secure the first and second segments together.

A footwear and a method of walking are disclosed. The footwear includes a thermoelectric generator for generating electrical power and an electrical device. The thermoelectric generator generates electrical power via a thermoelectric generator while the footwear is being worn based on a temperature difference across the thermoelectric generator when the footwear is being worn. The electrical power is used to operate the electrical device.

A footwear and a method of walking are disclosed. The footwear includes a thermoelectric generator for generating electrical power and an electrical device. The thermoelectric generator generates electrical power via a thermoelectric generator while the footwear is being worn based on a temperature difference across the thermoelectric generator when the footwear is being worn. The electrical power is used to operate the electrical device.

The present invention relates to a functional shoe configured to generate power when a user wearing the shoe walks, so that a battery there inside can be charged, and to supply the charged electricity to internal and external devices so as to be used for the purpose of user safety and device charging, and enable use of a location tracking function using a GPS device. A self-generating smart shoe according to the present invention comprises: an outsole constituting the lower portion of the shoe while having a plurality of receiving portions formed therein; a self-generation unit which, while being installed at the heel of the outsole, generates power by using a pressure generated when the user wearing the shoe walks and the restoring force due to the pressure; and a battery which, while being installed in the outsole, is charged when the self-generation unit generates power.

The present invention relates to a functional shoe configured to generate power when a user wearing the shoe walks, so that a battery there inside can be charged, and to supply the charged electricity to internal and external devices so as to be used for the purpose of user safety and device charging, and enable use of a location tracking function using a GPS device. A self-generating smart shoe according to the present invention comprises: an outsole constituting the lower portion of the shoe while having a plurality of receiving portions formed therein; a self-generation unit which, while being installed at the heel of the outsole, generates power by using a pressure generated when the user wearing the shoe walks and the restoring force due to the pressure; and a battery which, while being installed in the outsole, is charged when the self-generation unit generates power.

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 overtime. 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 time.

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 piezoelectric 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 time.