The present application relates to a steam generator (40) for a steaming device (10) comprising a chamber (42) having a base (46) and a liquid receiving space (47) above the base (46), a heater (50) for heating water in the liquid receiving space (47), a steam outlet (49), and a foaming restriction barrier (70) disposed between the steam outlet (49) and the base (46). The foaming restriction barrier (70) comprises a first barrier section (71) spaced from the liquid receiving space (47) between the steam outlet (49) and the liquid receiving space (47). The first barrier section (71) is configured to prevent foam from passing into the steam outlet (49). The foaming restriction barrier (70) also comprises a second barrier section (72) spaced from the first barrier section (71) between the first barrier section (71) and the liquid receiving space (47). The second barrier section (72) is configured to prevent foam from passing from the liquid receiving space (47) into an intermediate space (85) between the first and second barrier sections (71, 72). The second barrier section (72) is configured so that all the steam generated from heating water in the liquid receiving space (47) below the second barrier section (72) passes through the second barrier section (72) into the intermediate space (85) and, from the intermediate space (85) through the first barrier section (71), before passing through the steam outlet (49).

A method of controlling a washing machine includes washing laundry received in the drum by water mixed with detergent, performing a spin dry operation, and performing a rinse operation. The spin dry operation includes rotating the drum at a spin dry speed to allow the laundry to rotate along with the drum without falling from a highest point of the drum, and draining water from the tub while rotating the drum at the spin dry speed. The rinse operation includes decelerating the drum from the spin dry speed to a laundry adherence speed lower than the spin dry speed, supplying a first water supply to the drum, draining the first water supply from the tub, and supplying a second water supply to the drum.

An electrolysis electrode and a preparation method therefor, an electrolysis apparatus, and a clothing treatment device. The electrolysis electrode includes a substrate, a transition layer, and an electrode catalytic material layer, and the transition layer is attached to the surface of the substrate, the electrode catalytic material layer is attached to the surface of the transition layer, and the thickness of the transition layer satisfies that: electrons can pass through the transition layer. The transition layer of the electrolysis electrode is relatively thin, so that electrons can pass through the transition layer due to a quantum tunneling effect, and thus the electrocatalytic performance of the electrolysis electrode is basically not affected. Furthermore, the transition layer plays the role of transition connection, and can greatly improve the phenomenon of cracks in the electrode catalytic material layer.

An electrolysis electrode and a preparation method therefor, an electrolysis apparatus, and a clothing treatment device. The electrolysis electrode includes a substrate, a transition layer, and an electrode catalytic material layer, and the transition layer is attached to the surface of the substrate, the electrode catalytic material layer is attached to the surface of the transition layer, and the thickness of the transition layer satisfies that: electrons can pass through the transition layer. The transition layer of the electrolysis electrode is relatively thin, so that electrons can pass through the transition layer due to a quantum tunneling effect, and thus the electrocatalytic performance of the electrolysis electrode is basically not affected. Furthermore, the transition layer plays the role of transition connection, and can greatly improve the phenomenon of cracks in the electrode catalytic material layer.

A washing machine appliance includes a wash basket that is rotatably mounted within a wash tub and that defines a wash chamber for receiving a load of clothes. A camera assembly is mounted within the wash tub for taking images of the load of clothes during and/or after a wash or rinse cycle. A controller is operably coupled to the camera for obtaining and analyzing the images using a neural network image recognition process (such as an R-CNN process) to determine a whether the level of suds or bubbles exceeds a suds threshold. If there are too many suds in the wash tub, the controller may implement corrective action, e.g., by decreasing a water temperature, adding more water, or reducing the amount of detergent that is auto-dispensed in a subsequent wash cycle.

A washing machine appliance includes a wash basket that is rotatably mounted within a wash tub and that defines a wash chamber for receiving a load of clothes. A camera assembly is mounted within the wash tub for taking images of the load of clothes during and/or after a wash or rinse cycle. A controller is operably coupled to the camera for obtaining and analyzing the images using a neural network image recognition process (such as an R-CNN process) to determine a whether the level of suds or bubbles exceeds a suds threshold. If there are too many suds in the wash tub, the controller may implement corrective action, e.g., by decreasing a water temperature, adding more water, or reducing the amount of detergent that is auto-dispensed in a subsequent wash cycle.

A laundry appliance includes a drum rotatably mounted within a cabinet and defining a chamber configured for receiving a load of clothes, a door pivotally mounted to the cabinet for providing selective access to the chamber, and a user interface for controlling operation of the laundry appliance. A controller is configured to initiate a self-clean cycle and to automatically commence a drying cycle at the conclusion of the self-clean cycle. The drying cycle is based on operation data associated with the drying cycle, such as a predetermined period of time to complete drying or based on a predetermined final humidity of air exhausted from the chamber during the drying cycle.

A laundry appliance includes a drum rotatably mounted within a cabinet and defining a chamber configured for receiving a load of clothes, a door pivotally mounted to the cabinet for providing selective access to the chamber, and a user interface for controlling operation of the laundry appliance. A controller is configured to initiate a self-clean cycle and to automatically commence a drying cycle at the conclusion of the self-clean cycle. The drying cycle is based on operation data associated with the drying cycle, such as a predetermined period of time to complete drying or based on a predetermined final humidity of air exhausted from the chamber during the drying cycle.

A method for preventing an oversuds condition in a washing machine appliance includes a tub and a basket rotatably mounted within the tub. The basket defines a chamber for receipt of articles for washing. The method includes obtaining, via a controller, one or more detergent parameters from one or more previous wash cycles of the washing machine appliance. Further, the method includes analyzing, via the controller, the one or more detergent parameters to predict an amount of suds that will be generated in a future wash cycle of the washing machine appliance. Moreover, the method includes automatically adjusting, via the controller, at least one operating parameter for the future wash cycle based on the predicted amount of suds to prevent the amount of suds from exceeding a suds threshold.

A laundry appliance includes a cabinet defining a front opening in a front panel. The front opening is defined by a lip having a curved edge. The lip defines a plurality of apertures spaced-apart around the front opening. A tub is disposed within the cabinet. The tub defines an access opening aligned with the front opening. A drum is disposed within the tub. A bellows assembly extends between the cabinet and the tub. The bellows assembly includes a projection coupled to the curved edge of the cabinet. A deflector has a rim and a chute wherein the chute extends toward the drum. The rim is configured to snap-fit over the projection of the bellows assembly. The rim includes a plurality of hooks where each hook is configured to extend through an aperture and interlock with the cabinet.