A system and method for dispensing a beverage includes the detection of a presence of a cup underneath a nozzle, and in response to the detected presence of the cup, a target fill height is calculated. The controller operates to begin a dispense of a beverage into the cup. A beverage fill height determined and compared to a target fill height. When the beverage fill height exceeds the target fill height, the controller operates to stop dispensing the beverage into the cup.

A liquid dispensing system can intelligently dispense liquid from a liquid source to a receptacle via a spout. A controller may be connected to a sensor in a housing of the liquid dispensing system with the housing supporting a liquid dispensing spout connected to a liquid source. The controller can generate, and execute, a liquid dispensing strategy that alters an angle of the liquid dispensing spout with respect to a liquid receptacle to optimize liquid flow into the receptacle.

A water ejecting apparatus includes a case and a water ejection unit connected to one side of the case. The water ejection unit includes a fixed cover, a lifting cover, a lifting motor, a water ejection nozzle, a touch bar, a detection sensor, and a controller. The fixed cover is connected to the case. The lifting cover is movably received in the fixed cover and coupled to the lifting motor. The water ejection nozzle is installed at a lower end of the lifting cover and configured to eject water. The touch bar is at least partially received in the lifting cover and moves when in contact with a container placed below the water ejection nozzle. The detection sensor detects movement of the touch bar. The controller changes operation of the lifting motor when the detection sensor detects movement of the touch bar.

A contactless autofill dispenser includes a housing and a dispense area for receiving a cup. The dispenser includes a supply of consumable product disposed within the housing. The dispenser includes an outlet connected to the supply and extending from the housing into the dispense area for dispensing the consumable product into the cup. The dispenser includes a controller disposed within the housing and connected to the supply, wherein the controller is configured to control dispensing of the consumable product from the outlet. The dispenser includes a time of flight sensor attached to or with a direct line of sight into the dispense area and connected to the controller.

An appliance, such as a refrigerator appliance, and controller configured to perform operations of a method for measuring contents in a container are provided. The operations include receiving, from a sensor, one or more signals indicative of a height of contents in a container, and determining a contents volume in the container based at least on the height of contents in the container.

A beverage dispenser for dispensing a beverage into a vessel, the beverage dispenser including a vessel-receiving region in which the vessel is locatable for receiving beverage; and a sensor arrangement for providing signals based on which a distance between one or more wall portions of the vessel, when located in the vessel-receiving region, and the sensor arrangement can be determined, wherein a volume of beverage to be dispensed into the vessel can be determined based on the determined distance between one or more wall portions of the vessel and the sensor arrangement.

A liquid dispensing system can intelligently dispense liquid from a liquid source to a receptacle via a spout. A controller may be connected to a sensor in a housing of the liquid dispensing system with the housing supporting a liquid dispensing spout connected to a liquid source. The controller can generate, and execute, a liquid dispensing strategy that alters an angle of the liquid dispensing spout with respect to a liquid receptacle to optimize liquid flow into the receptacle.

A system and method for dispensing a beverage includes the detection of a presence of a cup underneath a nozzle, and in response to the detected presence of the cup, a target fill height is calculated. The controller operates to begin a dispense of a beverage into the cup. A beverage fill height determined and compared to a target fill height. When the beverage fill height exceeds the target fill height, the controller operates to stop dispensing the beverage into the cup.

A dispenser and methods for dispensing a material into a receptacle comprises a dispenser outlet for dispensing material into the receptacle; a support for receiving a receptacle; at least one lateral sensor positioned to laterally sense a receptacle received on the support; an upper sensor positioned to sense a receptacle received on the support from above; and a controller operatively connected to the lateral and upper sensors. The controller is configured to sense the presence of a receptacle received on the support, calculate the volume of the receptacle and/or the volume of material within the receptacle from data received from the lateral and upper sensors, and control the volume of material dispensed from the dispenser outlet into the receptacle based upon the calculated volume of the receptacle and/or the volume of material within the receptacle.

Disclosed herein are system, method, and computer program product embodiments for using imaging data to manage the dispensement of fluid to a receptacle. Imaging data captured by a camera configured with a fluid dispenser may be used to control receptacle autofill operations for the fluid dispenser. An embodiment operates by receiving first imaging data that indicates a receptacle. Classification information that indicates empty and full states for the receptacle may be determined, for example, by a predictive model. The embodiment may cause fluid to start pouring into the receptacle based on an image of the first imaging data and the classification information indicating that the receptacle is in the empty state. The embodiment may receive second imaging data and cause the fluid to stop pouring into the receptacle based on an image of the second imaging data and the classification information indicating that the receptacle is in the full state.