The present disclosure discloses a telescopic shoe drying device comprises a body, and a heater connected to the body. The body comprises a base and a heat supply pipe, the heat supply pipe is disposed on the base, hot air generated by the heater is transported out of the heat supply pipe, the heat supply pipe comprises an inner pipe, an outer pipe, and a locking mechanism. When the at least two locking bases are in the extended position, the locking mechanism is in a locked state and locks the outer pipe and the inner pipe. When the at least two locking bases are in the retracted position, the locking mechanism is in an unlocked state and the outer pipe and the inner pipe are configured to relatively move up and down.

A shoes care device includes an inner cabinet configured to accommodate shoes inside; a outlet configured to suck air inside the inner cabinet; a nozzle duct having one end hinge-coupled to the inner cabinet so as to protrude into the inner cabinet, and which forms a passage for air; a nozzle hinge-coupled to the other end of the nozzle duct so that the shoes can be inserted into the inner cabinet, and configured to inject air into the shoes; a nozzle connector, of which one end is hinge-coupled to the inner cabinet and of which the other end is hinge-coupled to the nozzle; a connection path from the suction to the nozzle; a blowing part in the connection path and configured to ventilate air from the outlet to the nozzle; and a dehumidifying part in the connection path and capable of dehumidifying the ventilated air.

A shoes care device includes an inner cabinet configured to accommodate shoes inside; a outlet configured to suck air inside the inner cabinet; a nozzle duct having one end hinge-coupled to the inner cabinet so as to protrude into the inner cabinet, and which forms a passage for air; a nozzle hinge-coupled to the other end of the nozzle duct so that the shoes can be inserted into the inner cabinet, and configured to inject air into the shoes; a nozzle connector, of which one end is hinge-coupled to the inner cabinet and of which the other end is hinge-coupled to the nozzle; a connection path from the suction to the nozzle; a blowing part in the connection path and configured to ventilate air from the outlet to the nozzle; and a dehumidifying part in the connection path and capable of dehumidifying the ventilated air.

An orientable seating device includes a seat, the orientation of which can be controlled to dynamically affect a desired of yaw, pitch and roll. The seating device can be used to reorient and/or to simulate motion for a seated person for use with video games, virtual reality headsets or goggles, land, water, air or space vehicle simulation, or wireless airborne drones, for example. The device includes a seat mounted on a carriage, which is received in a carriage pedestal. Within the pedestal, a drive wheel positioned under the carriage supports and rotates the carriage by driving an outer sphere-shaped surface of the carriage. The drive wheel can be reoriented around a vertical axis such that any combination of pitch and roll can be achieved by rotating the wheel against the sphere-shaped surface. Yaw can be controlled by a rotatable platform upon which the carriage pedestal can be mounted.

An orientable seating device includes a seat, the orientation of which can be controlled to dynamically affect a desired of yaw, pitch and roll. The seating device can be used to reorient and/or to simulate motion for a seated person for use with video games, virtual reality headsets or goggles, land, water, air or space vehicle simulation, or wireless airborne drones, for example. The device includes a seat mounted on a carriage, which is received in a carriage pedestal. Within the pedestal, a drive wheel positioned under the carriage supports and rotates the carriage by driving an outer sphere-shaped surface of the carriage. The drive wheel can be reoriented around a vertical axis such that any combination of pitch and roll can be achieved by rotating the wheel against the sphere-shaped surface. Yaw can be controlled by a rotatable platform upon which the carriage pedestal can be mounted.

A draining system comprising a single or multi-layer tray designed to store and dry wet objects like winter boots, rain boots or dishes that are placed on the tray. This system provides effective utilization of space to store wet objects. Water from the wet objects placed on the tray goes into waste collection bin which can easily be removed without disrupting the tray set-up to dispense waste water without creating a mess.

A draining system comprising a single or multi-layer tray designed to store and dry wet objects like winter boots, rain boots or dishes that are placed on the tray. This system provides effective utilization of space to store wet objects. Water from the wet objects placed on the tray goes into waste collection bin which can easily be removed without disrupting the tray set-up to dispense waste water without creating a mess.

A drying rack easily attachable to, as well as readily removable from, the interior, stationary rear wall of a tumble-type, clothes dryer, for drying boots or similar objects in minutes and without their being tossed about. Supporting such objects placed on the drying rack's wire frame shelf and the shelf itself in such a way that it extends generally horizontally away from the rear wall is a pair of hinged, opposable side rails, each having an elongated arm that ends in a hook. By utilizing the flexibility afforded by the hinged connections between the side rails and the shelf, one can quickly suspend the drying rack from the rear wall by simply hooking the elongated arms onto a pair of air flow duct-covering grids commonly found there or, alternately, onto a 0.25 inch hole or pair of holes drilled into the rear wall in place of the grid(s).

A shoe care apparatus includes an inner cabinet, a suction port, a discharge port, a connection flow path, a blower and a moisture absorbent block. The moisture absorbent block includes an inner mesh, an outer mesh and a moisture absorbent. A first flow path, which is a portion of the connection flow path, is provided inside the inner mesh, and a second flow path, which is a portion of the connection flow path, is provided outside the outer mesh. Air inside the inner cabinet flows into the connection flow path through the suction port, flows to the second flow path from the first flow path while passing through the moisture absorbent block, is dehumidified by means of the moisture absorbent block, and then is circulated inside of the shoe care apparatus while being discharged into the inner cabinet again through the discharge port.

A shoe care apparatus includes an inner cabinet, a suction port, a discharge port, a connection flow path, a blower and a moisture absorbent block. The moisture absorbent block includes an inner mesh, an outer mesh and a moisture absorbent. A first flow path, which is a portion of the connection flow path, is provided inside the inner mesh, and a second flow path, which is a portion of the connection flow path, is provided outside the outer mesh. Air inside the inner cabinet flows into the connection flow path through the suction port, flows to the second flow path from the first flow path while passing through the moisture absorbent block, is dehumidified by means of the moisture absorbent block, and then is circulated inside of the shoe care apparatus while being discharged into the inner cabinet again through the discharge port.