A laundry treating appliance includes a cabinet defining an interior. A drum is located within the interior and defines a treating chamber. The laundry treating appliance includes a recirculation circuit including a recirculation pump having an inlet and an outlet. The laundry treating appliance further includes a bulk treating chemistry dispenser. A method for rinsing or cleaning the bulk treating chemistry dispenser can be included.

A method for operating a dryer appliance includes, after drying articles within the dryer appliance, receiving data corresponding to an activation signal for an extended tumble from a remote user device, tracking a number of cycles for which the extended tumble is not a default setting for the dryer appliance, and automatically adjusting the extended tumble to the default setting for the dryer appliance or transmitting data corresponding to an extended tumble alert based on the tracked number of cycles.

The invention is related to a washing machine (1) comprising: a washing tub (5) comprising a rotatable drum (6) adapted for receiving the laundry (7) to be washed; a logic unit (12) adapted to control the electric and/or electronic components of the washing machine (1) so as to make the latter to perform a washing cycle comprising one or more phases; a user interface (13) adapted for setting a washing program to which corresponds a washing cycle to be performed, and for presenting user information; a weighing device adapted to detect the weight of the laundry (7) loaded into the rotatable drum (6). The logic unit (12) is configured for displaying via the user interface (13), during the loading of the laundry (7) into the rotatable drum (6), information related to the duration and/or the number of repetition of one or more phases of the washing cycle corresponding to a set washing program and adapted to the weight of the loaded laundry (7) detected by the weighing device.

Disclosed are a control method for a squeezing washing machine and the squeezing washing machine. The method includes: controlling a washing and spinning tub (6) to perform a water absorption wash; controlling the washing and spinning tub (6) to perform a squeezing wash, where the squeezing wash means that the washing and spinning tub (6) rotates at a second rotation speed for a second time period; and repeatedly and alternately controlling the washing and spinning tub (6) to perform the water absorption wash and the squeezing wash based on the preset number of cycles to complete the wash or the rinse. The method is conducive to reduction of wear of the clothes during the wash or the rinse and improves washing efficiency.

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 monitor the number of wash cycles that have occurred in the laundry appliance since the last self-clean cycle. Once the laundry appliance reaches a predetermined number of wash cycles without an intervening self-clean cycle, an automatic self-clean cycle is initiated upon the next selection of a drying cycle by the user, wherein the drying cycle provides an indication that the chamber is empty of article of laundry and that the user has no further immediate washing needs. In these circumstances, the controller is configured to reconfigure the selected drying cycle into a combination cycle including a self-clean cycle which is automatically followed by the desired drying cycle.

A washing machine appliance includes a wash tub positioned within a cabinet, a water supply configured to selectively dispense wash fluid into the wash tub, and a conductivity sensor for measuring an electrical conductivity of the wash fluid collected in the wash tub. A controller is configured to receive a request to perform a self-clean cycle, supply a predetermined amount of wash fluid into the wash tub using the water supply, measure an initial conductivity of the wash fluid in the wash tub using the conductivity sensor, measure a final conductivity of the wash fluid in the wash tub a predetermined amount of time after measuring the initial conductivity using the conductivity sensor, determine that the self-clean cycle is needed based at least in part on the initial conductivity and the final conductivity, and perform the self-clean cycle.

A water bearing appliance, control method, and system are provided. Operating data from appliances are transmitted to a receiver over a network such as the Internet. Maintenance, cleaning, and repairs are initiated based on the operating data, and can be triggered remotely and automatically. A machine learning model(s) is trained according to operating conditions of various appliances and respective outcomes, such as maintenance, repairs, damages, life expectancy, and/or the like, to learn correlations therebetween. A digital twin appliance data object is generated for an appliance and applied to the machine learning model(s) to provide a predictive maintenance data object. Cleaning regimens, maintenance, repairs, and/or the like are configured to particular operating circumstances of an appliance.