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 dishwasher includes: a tub; a sump configured to collect wash water sprayed into the tub; a spraying arm including: first and second channels configured to independently guide the wash water; and a plurality of spraying holes configured to spray the wash water supplied to each of the channels in preset directions; a supply pump configured to supply the wash water collected in the sump to the spraying arm, the supply pump including: an impeller; and a motor configured to drive the impeller; a flow path conversion unit configured to selectively supply the wash water to the first channel or the second channel; and a controller configured to cause the flow path conversion unit to selectively supply the wash water to the first channel or the second channel by controlling the operation of the motor based on a value of an electrical current flowing through the motor.

A dishwasher that includes: a tub; a main arm configured to rotate about a first axis and spray water; an auxiliary arm configured to rotate about a second axis and spray water in the interior space; a stationary gear unit configured to rotate based on rotation of the main arm to generate rotational force and including a plurality of gear teeth; an eccentric rotation unit engaged with one or more teeth of the plurality of gear teeth, and configured to, (i) based on rotation of the main arm, rotate to transfer rotational force of the stationary gear unit to the auxiliary arm and, (ii) based on resistance force from the auxiliary arm, control transfer of rotational force of the stationary gear unit to the auxiliary arm; and a link member configured to rotate the auxiliary arm based on rotational force of the stationary gear unit is disclosed.

Provided among other things is a sampling system for determining an amount or type of contamination a narrow, elongated passageway in a medical device, said sampling system comprising: (a) a fluid supply system that supplies to said passageway a sampling liquid for flowing through said passageway and a gas for flowing through said passageway; and (b) a receiving container that receives liquid from said passageway, wherein said sampling liquid is sterile, wherein said sampling liquid is configured to allow recovery of viable pathogens from the passageway, and wherein said sampling liquid comprises an amount and selection of surfactant effective to enhance the dislodgement of Enterococcus faecalis and Pseudomonas aeruginosa bacteria from the narrow passageways.

The invention proposes a cleaning device (110) for cleaning articles (116) to be cleaned. The cleaning device (110) comprises at least one cleaning chamber (114) and at least one application device (120) for applying at least one cleaning fluid to the articles (116) to be cleaned in the cleaning chamber (114). The cleaning device (110) further comprises at least one controller (157) which is designed to actuate the cleaning device (110) for carrying out at least two operating modes. The controller (157) is further designed to detect at least one utilization variable. The utilization variable characterizes a current utilization of the cleaning device (110). The controller (157) is further designed to assign at least one weighting to the at least one utilization variables. The controller (157) further has at least one counting device (170) which is designed to cumulate utilization times of the cleaning device (110) which are weighted with the weighting and to generate at least one item of use information about a use of the cleaning device (110) therefrom.

Provided among other things is a sampling system for determining an amount or type of contamination a narrow, elongated passageway in a medical device, said sampling system comprising: (a) a fluid supply system that supplies to said passageway a sampling liquid for flowing through said passageway and a gas for flowing through said passageway; and (b) a receiving container that receives liquid from said passageway, wherein said sampling liquid is sterile, wherein said sampling liquid is configured to allow recovery of viable pathogens from the passageway, and wherein said sampling liquid comprises an amount and selection of surfactant effective to enhance the dislodgement of Enterococcus faecalis and Pseudomonas aeruginosa bacteria from the narrow passageways.

A conveyor warewasher includes at least one washing zone, at least one rinsing zone, a conveyor and a camera system arranged above or below the conveyor and configured to capture at least one image of a portion of the conveyor, preferably continuously or at predefined or definable times and/or events. The camera system includes at least one camera and a transparent surface element arranged in a region of the field of view of the camera, in the form of a transparent glass or plastic panel, wherein the at least one camera is at least partly or in some areas separated from the portion of the conveyor optically covered by the camera system, via the transparent surface element. A heating device is associated with the transparent surface element for heating, in particular continuously or as needed, at least one portion of the transparent surface element.

A dishwasher including a washing tub having a bottom plate having an opening, a nozzle having a spraying hole configured to spray water, the nozzle passing through the opening, and a sealing member configured to seal the opening. The bottom plate includes a base portion on which the nozzle is installed, and a protruding portion extending downward from the base portion to form the opening, the nozzle includes a support portion on the base portion, and a nozzle side portion facing the protruding portion. A part of the support portion contacts the base portion and another part of the support portion is spaced apart from the base portion according to an inclination of the base portion, where the sealing member is disposed between the protruding portion and the nozzle side portion. The spraying trajectory of the water can thus be kept constant despite the inclination deviation of the base portion.

A sensor device for detecting the presence of an electrically conductive substance in a space region, and applications thereof. The sensor device includes a detecting circuit, including at least first and second foils or sheets of an electrically conductive material; and a control circuit coupled with said detecting circuit and having an output connected with one of the foils for applying a first electric radiofrequency signal thereto and an input connected to other one of the foils for receiving a second radiofrequency signal induced in said other foil. The control circuit generates an information signal indicative of the strength of the second signal, which varies as a function of the presence of a body or a substance on or at said other foil.

An appliance, as provided herein, can include a direct current load and a current sensing circuit that can be coupled to the direct current load. The current sensing circuit can be configured to collect electrical data corresponding to the direct current load. The appliance can include one or more processors that can be coupled to the current sensing circuit. The one or more processors can be configured to identify at least one attribute of the direct current load based, at least in part, on the electrical data and activate at least one operation of the direct current load or the appliance based, at least in part, on identification of the at least one attribute of the direct current load.