The present invention provides methods and systems for a portable modular drying device that includes a distributing manifold for receiving a blower device that distributes air through the device, and at least one drying manifold having a first end, a second end, and at least one opening between the first end and the second end for distributing the drying air selectively secured to the distributing manifold. The device further includes at least one drying hose or glove tube selectively secured to the at least one opening of the at least one drying manifold.

Portable assemblies and methods for drying apparel, for example, footwear or gloves, are provided. The assemblies include a housing; projections or pegs pivotally mounted to or inserted into the housing, the projections each having an inlet, an outlet, an internal passage communicating the inlet to the outlet, and the projections can be oriented in a position adapted to receive the apparel; and a source of air having an outlet in fluid communication with the inlets of the projections. The assemblies may include a handle or strap for transporting the assemblies. The air may be provided by a fan or blower, and may be heated. The projections can be pivotally mounted in different directions and extend and retract into the housing. The retracted projection may be flush with the surface of the housing when not in use.

A shoes care device includes a first management device, a second management device, a steam generator, and a controller. Each of the first management device and the second management device may be configured to include an inner cabinet, a connection path, a blowing part, and a dehumidifying part. A supply degree of steam, a dehumidification degree by a dehumidifying part, and a flow degree of air circulated in a connection path can be different between the first management device and the second management device, and as a result, the shoes can be managed under different conditions in the first management device and the second management device.

A shoe management device may have a housing having a body to define an inner space and a cover to open or close the body to allow access to the inner space. Agitators may be provided at a bottom of the body, which may be configured to hold shoes, and the agitators may remove foreign matter from the shoes. An upper portion of the body may have an air generator configured to blow air toward the shoes to remove foreign matter. In addition, moisture and germs inside the shoe may be removed by hot air, ultraviolet light, and plasma ions provided by a care assembly provided inside of the body and configured to be at least partially inserted into the shoes.

A method of retail engagement includes receiving a worn article from a user in a retail establishment, where the worn article includes dirt or debris on an outer surface of the article. The method then includes robotically cleaning the worn article to at least partially remove the dirt or debris on the outer surface. The cleaning comprises contacting the shoe with a rotating brush, and at least one of the worn article or the rotating brush is robotically manipulated to cause the contacting. Finally, the outer surface of the article may be adorned with one or more adornments, where the one or more adornments are selected by the user.

A shoes care device includes an inner cabinet having an accommodation space configured to accommodate shoes; a outlet formed on a bottom of the inner cabinet so as to suck air inside the inner cabinet; a connection path forming a flow path through which air in the accommodation space is discharged from the inner cabinet through the outlet and then introduced back into the accommodation space; a blowing part disposed in the connection path and configured to ventilate air; a dehumidifying part disposed in the connection path and configured to dehumidify air; and a main shelf installed to cover the bottom of the inner cabinet and having an upper surface on which the shoes can be settled.

Disclosed is a shoe care apparatus including: a cabinet; a chamber provided in the cabinet for accommodating a shoe; a machine room provided to accommodate a heat pump which heats the air supplied to the chamber and dehumidifies the air discharged from the chamber; an air supply duct which connects the chamber to the machine room; an air supply port which is provided in the sidewall of the chamber such that the air flowing along the air supply duct is supplied into the chamber through the air supply port; a support member which is provided on the sidewall of the chamber to be adjacent to the air supply port; and a shoe hanger which includes a pair of support arms that are accommodated in the chamber, that are configured to be inserted into , is detachably installed on the support member, and has a hollow inside such that the air supplied from the air supply port may flow therein, wherein the shoe hanger has a sterilization device provided in the hollow inside and the support member is provided with a power supply part which applies power to the sterilization device.

The present disclosure relates to a shoe care apparatus including: a main body, a care room provided in the main body configured to accommodate shoes, a machine room provided in the main body configured to accommodate a heat pump device including an evaporator and a condenser, a circulation flow path configured to communicate with the care room so that air discharged from the care room passes through the evaporator and the condenser and is supplied to the care room, a first blower fan disposed on the circulation flow path configured to blow air in the circulation flow path in a first direction so that the air in the circulation flow path passes through the machine room from the care room and circulates back to the care room, and a second blower fan disposed in the machine room configured to blow air in the machine room in a second direction so that the air in the machine room passes through the condenser.

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 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).