An apparatus for removing moisture as liquid from moisture-laden air in an appliance is provided. The apparatus includes a body that defines a channel extending from a first position to a second position and a serpentine flow path between the first position and the second position that operates to redirect the moisture-laden air to remove the liquid from the moisture-laden air. The body includes an opening at the serpentine flow path that is closed when the apparatus is secured to the wall of the appliance. In operation, the body cooperates with the wall to cause the moisture-laden air entering the channel at the first position through an inlet opening in the wall to pass into the serpentine flow path to remove the liquid from the moisture-laden air before the liquid exits the channel at the second position through an outlet opening in the wall.

Disclosed is a control method of a dishwasher (100) including a tub (2) for receiving objects to be washed, a plurality of spray arms (711, 713, 715) for spraying wash water to the objects, and a steam nozzle (42) for spraying steam to the objects, the control method including a main washing cycle of washing the objects, a rinsing cycle of rinsing the washed objects using wash water, and a drying cycle of drying the objects after the rinsing is completed, wherein the drying cycle includes spraying steam, received from a steam source, to the objects to increase a temperature of the objects (a steam spraying step) and resupplying water to the steam source in order to prevent the steam source from being heated after the steam spraying step (a cooling step).

A device for the dehumidification of air in a processing space of a dishwasher is connected in an air-conducting manner to the processing space of the electric appliance. The device includes carbon-based fibres, which are designed as a fibre unit. The fibre unit is arranged between the processing space or an air duct connected thereto and at least one dehumidification chamber of the device. The carbon-based fibres absorb moisture from the air of the processing space, which they then release again in the dehumidification chamber. During this process, the carbon-based fibres are moved backwards and forwards between the processing space or air duct and the dehumidification chamber, preferably by slow rotation on a support.

A drying storage unit is disclosed to enable a user to properly dry a high-use item in a convenient location. The dry storage unit comprising at a cabinet-style storage and the cabinet style storage compartment comprises a top side, a left side, a right side, a bottom side, at least one door open outwardly that is hingedly attached to left side and right side, an inner compartment and a plurality of able shelving brackets disposed along the right, left, and rear walls of the inner compartment. The dry storage unit further comprises more than one adjustable drying rack and a plurality of pole racks.

A dishwasher appliance that includes a drying system is provided. In one exemplary aspect, the drying system includes an inlet duct having an inlet fan and a heating element disposed therein. The inlet fan is operable to draw ambient air into the inlet duct and move the air through the inlet duct into a tub of the dishwasher. The heating element heats the air passing through the inlet duct. The heated air facilitates drying of the articles within the wash chamber of the tub. The heated and pressurized air within the tub is forced into a vent duct positioned within a door of the dishwasher. An ambient fan draws ambient air into the vent duct to mix with the relatively hot and damp air forced out of the wash chamber by the inlet fan, e.g., to lower the dew point of the air exiting the dishwasher.

A dishwashing appliance includes a tub defining a wash chamber. An inlet is defined in the tub and provides air flow into the wash chamber. A fan selectively urges air through the inlet in at least two different directions, including a first direction and a second direction. A diverter disk is proximate the inlet downstream of the fan and upstream of the wash chamber. The diverter disk defines an axial direction. The diverter disk is movable along the axial direction between a first position and a second position. The fan urges the diverter disk to move from the second position to the first position when the fan urges air through the inlet in the first direction, and the fan urges the diverter disk to move from the first position to the second position when the fan urges air through the inlet in the second direction.

A household dishwasher includes a dishwasher cavity defining a treatment chamber, a loading unit accommodated in the treatment chamber for holding items to be washed, a washing apparatus configured to apply washing liquid to the treatment chamber, and a fan wheel mounted in the treatment chamber above the loading unit for rotation in a blow-off operating phase such that the fan wheel draws in air from the treatment chamber, accelerates and moves the air forward and downward as an air flow in the treatment chamber. The air flow strikes a blow-off region at a top of the loading unit and blowing off washing liquid from atop the items being washed.

A method of controlling a dishwasher includes washing an object accommodated inside a tub by spraying water and detergent onto the object, rinsing the object by spraying water onto the object, drying the object by removing moisture adhered to the object, detecting an amount of a rinsing agent, comparing the detected amount of the rinsing agent to a predetermined amount, based on the comparison, determining whether the detected amount of the rinsing agent is less than the predetermined amount, and increasing at least one of a temperature of water to be supplied in the rinsing or a drying time in the drying based on determining that the detected amount of the rinsing agent is less than the predetermined amount.

An open loop drying system includes an intake conduit and an exhaust conduit. The intake conduit and the exhaust conduit are each in fluid communication with an ambient environment. The open loop drying system also includes a heat pipe heat exchanger. The heat pipe heat exchanger includes a condenser section in operative communication with the intake conduit upstream of a wet chamber and an evaporator section in operative communication with the exhaust conduit downstream of the wet chamber. The open loop drying system may be provided in a dishwashing appliance.

An apparatus for removing moisture as liquid from moisture-laden air in an appliance is provided. The apparatus includes a body that defines a channel extending from a first position to a second position and a serpentine flow path between the first position and the second position that operates to redirect the moisture-laden air to remove the liquid from the moisture-laden air. The body includes an opening at the serpentine flow path that is closed when the apparatus is secured to the wall of the appliance. In operation, the body cooperates with the wall to cause the moisture-laden air entering the channel at the first position through an inlet opening in the wall to pass into the serpentine flow path to remove the liquid from the moisture-laden air before the liquid exits the channel at the second position through an outlet opening in the wall.