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, an inlet, an outlet, a connection passage, a heater, a blower, and a desiccant block. The air inside the inner cabinet flows into the connection passage through the inlet, and is discharged back into the inner cabinet through the outlet after being dehumidified by the desiccant block while circulating inside the shoe care apparatus. The heater is located in the inner space of the desiccant block to recycle the desiccant of the desiccant block.

A shoes care device includes an inner cabinet and a module housing. A blowing part, a heating part, and a dehumidifying part are jointly accommodated in a module chamber inside a module housing, and the module housing is detachably coupled to a lower side of the inner cabinet. A shoes care device having a structure in which condensed water generated while passing through the blowing part, the heating part, and/or the dehumidifying part can be prevented from being leaked, and it is advantageous for leakage management, and the module housing and a component accommodated therein are easily managed and replaced.

A footwear care apparatus including: a heat pump; a cabinet comprising a care room formed therein; and a machine room divided from the care room, and configured to accommodate the heat pump; a plate configured to divide an inside of the care room and configured to support footwear to be placed on; a supply duct connecting the machine room to the care room to guide air passed through the heat pump to the care room; a supply port formed on a sidewall of the care room to discharge the air passed through the supply duct to the care room; and a supporter holder comprising a holder opening configured to communicate with the supply port; and a supporter detachably mountable to the supporter holder. The supporter forms an internal passage, to guide the air discharging from the supply port is introduced into the care room.

A shoe treatment apparatus can include a heating element for heating air, where one or more fans can move air across the heating element and deliver the heated air into a treatment zone within the apparatus. An inner shoe compartment can receive one or more shoes for treatment. The inner shoe compartment can include a plurality of through holes to permit the heated air to pass there through to enter the interior of the inner shoe compartment. Viewing of the shoe can be provided through viewing windows on the side of the apparatus as well as through a window in a door of the apparatus Temperature and time controls may be provided so the user can adjust the treatment to occur at an appropriate temperature for an appropriate time. The treatment can effectively remove wrinkles and creases from shoes.

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).

Provided is a shoe cleaner which can be used by a user without exposing the user to high concentrations of ozone, and moreover is compact, is easy to use, and has low power consumption. The shoe cleaner is equipped with a case body and a sheet-like ozone generating body. The ozone generating body is formed from a flexible substrate and a flexible polymer resin electrode sheet. The electrode sheet is formed from a dielectric and electrodes covered by the dielectric. The case body houses a boost circuit for boosting the voltage of a battery and supplying the voltage to the electrode sheet.

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 forced air apparatus has an air blower, an air conduit and a diffusion body. The air blower has an air intake, an air outlet and a blower motor. The air conduit has a first end and a second end. The first end is connectable to the air outlet of the air blower. The diffusion body has an air conduit connection and at least one air outlet. The air conduit connection allows for removable connection of the second end of the air conduit to the diffusion body such that air flows from the air blower to the diffusion body. The at least one air outlet allows air to flow out of the diffusion body

Sports equipment racks of the present disclosure may include an enclosure having odor mitigating features. Sports equipment racks may include a drip pan for retaining liquid that may drip from associated wet sports equipment hanging on the rack. Sports equipment racks may include forced ventilation configured to draw air external from an associated enclosure.