A dishwasher includes a shiftable rack provided with multiple, distinct washing fluid spray arms connected to a common, rack supported manifold. When the rack is shifted to a retracted position within a tub of the dishwasher, the manifold mates with a coupling of a fluid distribution system including a multi-tube feed arrangement configured to selectively distribute washing fluid from a pump assembly to the multiple spray arms.

A dishwasher is provided including a washing chamber with a sump and a hydraulic arrangement. The hydraulic arrangement may include the sump, a circulation pump, one or more spray arrangements, and a washing liquid storage tank. The circulation pump may include an inlet and a first outlet, the inlet being connected to the sump and the first outlet being connected to the one or more spray arrangements, wherein the circulation pump may be arranged to pump washing liquid from the sump to the one or more spray arrangements via the first outlet. The circulation pump may include a second outlet connected to the washing liquid storage tank wherein the circulation pump may be further arranged to pump washing liquid from the sump to the washing liquid storage tank via the second outlet.

A liquid filtering system for a dishwasher, having a housing defining a filter chamber and configured to be fluidly coupled to a recirculation flow path of the dishwasher, a filter located within the filter chamber and having a first end axially spaced from a second end and defining a filter there between that has a first surface and a second surface, the filter being positioned within the recirculation flow path to filter soils from liquid flowing through the recirculation flow path as the liquid passes through the filter and a flow diverter to aid in cleaning the filter.

Disclosed a dishwasher, wherein dishes placed on a conveyor are washed, rinsed, and dried while being sequentially conveyed to a washing chamber, a rinsing chamber, and a drying chamber, the dishwasher including: a heat exchanger allowing hot air to be supplied to the drying chamber by heat exchange; a wash water tank in which water supplied to the washing chamber or the rinsing chamber is stored; and a spray device spraying water supplied from the wash water tank onto the dishes placed on the conveyor, whereby it is possible to save energy by providing a single heat exchanger to preheat wash water and rinse water and supply hot air to the drying chamber, and to improve circulation of wash water by a filtering device applied to a structure for reusing wash water, thereby improving sanitation of dishwashing.

A dishwashing appliance includes a tub, a fluid circulation system, and a heating assembly positioned outside of the tub. The heating assembly includes a housing and a tubular heating element disposed within the housing. The tubular heating element includes an inner surface and an outer surface. The inner surface of the tubular heating element defines a first passage in fluid communication with the fluid circulation system. The outer surface of the tubular heating element is spaced apart from an inner surface of the housing such that a second passage is defined between the outer surface of the tubular heating element and the inner surface of the housing. The second passage is in fluid communication with the tub. A resistive heating material is disposed on the outer surface of the tubular heating element. The resistive heating material is configured to provide thermal energy to the first passage and the second passage.

A dish washer and a control method are disclosed. The dish washer includes a sump and at least one nozzle configured to inject water. The dish washer also includes a distributor configured to receive water of the sump and distribute the water to the at least one nozzle. The dish washer also includes a reservoir configured to receive and store the water of the sump. The dish washer also includes a circulation path configured to connect the sump and the distributor. The dish washer also includes an inflow path configured to branch off from the circulation path to supply the water of the sump to the reservoir. The dish washer also includes a first valve configured to open or close the inflow path and a second valve configured to open or close the outflow path, and the outflow path is configured to flow the water out of the reservoir.

A dishwasher includes a filtration system that can be configured in a chopping or filtration only arrangement. A check valve cover attached to an accumulator is inserted into a main intake of a sump and divides the main intake into a fluid recirculation chamber in communication with a recirculation intake port, and a separate fluid draining chamber in communication with a drain port. When a drain pump is actuated, fluid is pulled from the accumulator through the drain port until pressure within the fluid draining chamber drops below the pressure of the sump and a check valve in the check valve cover is forced open, allowing fluid to be channeled out of the fluid recirculation chamber into the fluid draining chamber. Optionally, a fine filter system can replace the convertible filtration system, whereby the main intake is in fluid communication with both the recirculation intake port and the drain port.

A filter assembly for filtering a wash fluid to be circulated by a circulation pump in a dishwasher appliance includes a discharge blade defining lateral, transverse and vertical directions. The discharge blade includes a blade hub and a pair of opposing blades, and each of the opposing blades extend outward from the blade hub to a blade tip along the lateral direction. Further, each opposing blade may include a leading edge, a trailing edge, a top surface, and a bottom surface. The trailing edge of at least one opposing blade may be spaced apart from the leading edge along both the transverse and vertical directions, and may define a curve extending between the blade hub and blade tip along the lateral direction. Still further, the top surface of the at least one opposing blade may define a slope between the leading edge and the trailing edge along the transverse direction.

A turbidity sensor assembly for a dishwasher appliance is provided. The turbidity sensor assembly measures the turbidity of wash fluid in a manner similar to conventional turbidity sensors, but also includes an integral water level indicator. The water level indicator is an opaque buoyant ball that rises and falls with the water level to provide a water level indication that can be used to shut off the drain pump when the sump is empty. More specifically, when the water level drops below a predetermined level, the opaque ball blocks the transmission of light between the emitter and receiver of the turbidity sensor, thus indicating that the sump is almost empty. As a result, the pump operating during a drain cycle need only operate long enough to drain the sump, and this may be achieved without an additional measuring device or complicated control system.

A clutch assembly includes a drive shaft extending along an axial direction, and an output component, the output component defining a central opening in which the drive shaft is inserted. The clutch assembly further includes a clutch selectively coupling the output component to the drive shaft. The clutch includes a cavity defined in the output component and in communication with the central opening. The clutch further includes a bearing disposed within the cavity, the bearing movable within the cavity between a first position and a second position. The bearing is spaced from the drive shaft in the first position. The bearing contacts an inner surface of the output component defining the cavity and contacts the drive shaft to transfer rotational motion from the drive shaft to the output component in the second position.