A household appliance for treating at least one item according to at least one cycle of operation includes a treating chamber for receiving the at least one item for treatment according to the at least one cycle of operation, a treating chemistry dispenser receiving a unit dose container having an electrically conductive element, a physical alteration element located proximate to the treating chemistry dispenser and operable to physically alter at least a portion of the electrically conductive element and a sensor for sensing the physical alteration.

An automatic dishwasher having a tub defining a treating chamber and a housing physically separate from the tub and defining a sump to receive liquid sprayed into the tub, the housing having an inlet fluidly connected to a liquid outlet of the tub and an outlet fluidly coupled to a sprayer located within the tub to define a recirculation path for the sprayed liquid.

An automatic dishwasher having a tub defining a treating chamber and a housing physically separate from the tub and defining a sump to receive liquid sprayed into the tub, the housing having an inlet fluidly connected to a liquid outlet of the tub and an outlet fluidly coupled to a sprayer located within the tub to define a recirculation path for the sprayed liquid.

An automatic dishwasher having a tub defining a treating chamber and a housing physically separate from the tub and defining a sump to receive liquid sprayed into the tub, the housing having an inlet fluidly connected to a liquid outlet of the tub and an outlet fluidly coupled to a sprayer located within the tub to define a recirculation path for the sprayed liquid.

Disclosed is a cup washer. The cup washer of the present disclosure includes an additive storage part and an additive supply part. The additive storage part is configured to store an additive in a storage space. The additive supply part is configured to supply the additive into the tub. The additive supply part includes an additive pump and a first additive supply pipe. The additive pump is located below the additive storage part. The first additive supply pipe connects the lower portion of the additive storage part to the inlet of the additive pump. The first additive supply pipe is configured to provide a first supply passage through which the additive of the additive storage part moves toward the inlet of the additive pump. The first additive supply pipe and the inlet are connected to each other at a predetermined angle.

A dishwasher comprises: a body; a tub; a door to open or close the tub; and input device; and an automatic detergent injection device to discharge a solid detergent toward the inside of the tub. The automatic detergent injection device comprises: a storage chamber in which a plurality of solid detergents is stored; a storage chamber sensor to sense solid detergent inside the storage chamber; an ejector to eject one of the multiple pieces of solid detergent out of the storage chamber; a seating portion; a seating portion sensor to sense the solid detergent seated on the seating portion; and at least one processor to control the ejector to eject the solid detergent from the storage chamber, and determine whether or not there is an error in discharging of the solid detergent based on the result of sensing by the storage chamber sensor and the seating portion sensor.

A dishwashing apparatus may include a sump. The sump may include a sump pan configured to couple with a wash chamber of the dishwashing apparatus. The sump may include a sump well coupled to the sump pan and configured to collect the liquid from the sump pan. The sump well may include a well inlet in communication with the sump pan. The sump pan may convey the liquid to the well inlet. A recirculation port extending through a first wall of the sump well. A drain port may extend through a second wall of the sump well. The second wall defines a bottom of the sump well. The dishwashing apparatus may include a controller. The controller may monitor electrical characteristics of a pump. The controller may provide a notification if fluid is not flowing through the pump.

A dish washer effectively identifies a viscosity of a detergent stored in a detergent supply based on the number of revolutions of a roller sensed via a roller sensor and an operating time of a pump motor, thereby simplifying a structure, improving space utilization, and reducing a manufacturing cost as a separate electrode sensor or level sensor for identifying the viscosity of the detergent is eliminated.

A dishwashing apparatus may include a sump. The sump may include a sump pan configured to couple with a wash chamber of the dishwashing apparatus. The sump may include a sump well coupled to the sump pan and configured to collect the liquid from the sump pan. The sump well may include a well inlet in communication with the sump pan. The sump pan may convey the liquid to the well inlet. A recirculation port extending through a first wall of the sump well. A drain port may extend through a second wall of the sump well. The second wall defines a bottom of the sump well. The dishwashing apparatus may include a controller. The controller may monitor electrical characteristics of a pump. The controller may provide a notification if fluid is not flowing through the pump.

A dishwasher including a tub; a door to open and close the tub; an input device to receive a selection of a washing course; and an automatic detergent dispenser including a storage compartment in which a plurality of solid detergents are stackable, an ejector to discharge a solid detergent outside of the storage compartment, a seating member on which a solid detergent discharged from the storage compartment is seatable, a detector to detect whether a solid detergent is seated on the seating member, and a processor configured to control the ejector to operate so that, when a plurality of solid detergents are loaded in the storage compartment, one solid detergent among the plurality of solid detergents is discharged outside of the storage compartment to be seated on the seating member, and determine whether a solid detergent is seated on the seating member based on a detection result of the detector.