Methods and apparatuses are disclosed that, in some aspects, provide for a cost-reduced touch sensitive user interface including a static printed display. The methods and systems may include providing illumination to guide a user through interaction with a touch sensitive user interface. The methods and systems may include a configurable printed display. Further aspects are disclosed providing use of a cost-reduced touch user interface in a beverage dispensing apparatus.

The present invention relates to a water purifier control method and module, and a water purifier system using same, which can provide customized services for each of multiple users. The water purifier system according to the present invention can provide user-customized services according to a container (for example, a cup) that a user intends to use, and can provide specific-user-dedicated customized services even though the water purifier system can be used by the multiple users.

A beverage dispensing system is configured to facilitate communication between a point-of-sale terminal and a beverage dispenser for receiving and fulfilling beverage orders. The dispensing system comprises a translation server that maps beverage orders between the point-of-sale entry data and beverage dispenser recipe data. An automatic portion control (APC) assembly comprises a mass sensor that is configured to determine a mass of a cup resting thereon. Using the mass of the cup, the dispenser makes a cup size prediction and performs portion control dispensing operations. Based on the cup size prediction, a user interface is modified to allow for quicker interactions. The APC assembly is positioned beneath a nozzle of the beverage dispenser and comprises a removable platform assembly magnetically coupled to a mass sensor assembly. The mass sensor assembly comprises a load cell or other mass sensor.

A method for automatically filling a container with water and/or ice from a dispenser in a refrigerator door or within a refrigerator cavity includes the steps of: placing a container adjacent the dispenser; determining a volume of the container by using a camera associated with the dispenser, capturing a picture of the containing, visually estimating a volume of the container via a microprocessor associated with the camera or a cloud-based application associated with the camera, and converting the estimated container volume to an estimated weight based on densities of water and/or ice; filling the container with water and/or ice from the dispenser based on the estimated weight; and terminating filling of the container based on the estimated weight. And the refrigerator carrying out the method.

A beverage-dispensing appliance may include a cabinet, a liquid line, a liquid level sensor, and a signal shield. The cabinet may define a mutually-orthogonal vertical direction, lateral direction, and transverse direction. The cabinet may define a dispenser recess. The liquid line may be mounted to the cabinet and define a liquid outlet above the dispenser recess. The liquid level sensor may be mounted to the cabinet and directed at the dispenser recess. The signal shield may be movably mounted to the cabinet. The signal shield may be movable between a blocking position and a permissive position. The blocking position may laterally bound at least a portion of the dispenser recess. The permissive position may be transversely spaced apart from the dispenser recess to permit lateral access thereto.

A beverage-dispensing appliance may include a cabinet, a liquid line, a liquid level sensor, and a signal shield. The cabinet may define a mutually-orthogonal vertical direction, lateral direction, and transverse direction. The cabinet may define a dispenser recess. The liquid line may be mounted to the cabinet and define a liquid outlet above the dispenser recess. The liquid level sensor may be mounted to the cabinet and directed at the dispenser recess. The signal shield may be movably mounted to the cabinet. The signal shield may be movable between a blocking position and a permissive position. The blocking position may laterally bound at least a portion of the dispenser recess. The permissive position may be transversely spaced apart from the dispenser recess to permit lateral access thereto.

Provided is an apparatus for filling containers with a positioning surface on which a container to be filled can be arranged, with a filling device which is suitable and intended for filling the container via its container opening. According to embodiments of the invention, the apparatus has a contour detection device which is suitable and intended for determining a contour of the container to be filled, as well as a determination device which, taking into account the contour of the container, detects an internal volume of the container.

A method for operating a water dispenser, the water dispenser having a water supply, a carbon dioxide supply, an outlet for pouring water into a container placed below the outlet, a controller and a user interface, the method including the following steps, which are executed in response to an activation of the water dispenser via the user interface: determining a nominal value of a water volume (V) that is to be filled into the container determining a nominal value of a waiting period (WP) by means of the controller determining nominal values of a first partial volume (V1) and a second partial volume (V2) by means of the controller (V1+V2=V), in particular by determining a volume ratio (R) with R=V1/V for dividing the water volume (V) into the partial volumes (V1, V2) pouring the first partial volume (V1) through the outlet waiting through the waiting period (WP) pouring the second partial volume (V2) through the outlet.

Provided is an apparatus for filling containers with a positioning surface on which a container to be filled can be arranged, with a filling device which is suitable and intended for filling the container via its container opening. According to embodiments of the invention, the apparatus has a contour detection device which is suitable and intended for determining a contour of the container to be filled, as well as a determination device which, taking into account the contour of the container, detects an internal volume of the container.

Disclosed are a water purifier and a control method thereof for controlling a main body by executing an artificial intelligence (AI) algorithm or a machine learning algorithm in a 5G environment established for the Internet of things. The control method of the water purifier according to the present disclosure includes a photographing step, a scanning step, a recognizing step, a calculating step, a determining step, and a water discharging step. When the water discharging step is initiated, the distance sensor generates real-time height information on the water surface, and may stop discharging water before a real-time height exceeds the highest point height.