A contactless interface for a beverage dispenser including a sensor and circuitry. The sensor has a field of view and is configured to sense an object located in a detection zone of the sensor. The detection zone is an area within the field of view and at a distance less than a maximum detection distance from the sensor. The circuitry is configured to output a detection signal while the object is sensed within the detection zone. The detection signal is an electrical signal.

A bottle filling station may include a liquid dispenser configured to dispense liquid. A pan can be configured to collect at least a portion of the dispensed liquid with a liquid flow circuit providing liquid to the liquid dispenser. A filter can be disposed in the liquid flow circuit configured to filter the liquid in the liquid circuit and a non-filtering bypass can provide liquid to the liquid dispenser bypassing the filter.

Embodiments provide an automated fluid dispenser that comprises a housing, a pump subsystem, a dispenser subsystem, and a receptacle sensor. The housing defines an enclosure that covers one or more subsystems and provides an interface for attachment to a fluid reservoir. The receptacle sensor is configured to detect a fluid receptacle within a detected distance and transmit an activation signal to the pump subsystem to pump a volume of fluid. The volume of fluid is dispensed via the dispenser subsystem to a fluid receptacle. In embodiments, the volume of fluid is proportional to a detection distance or a detection time. In embodiments, the automated fluid dispenser is configured with a display device to provide one or more graphical user interface elements.

A refrigerator comprises a body comprising a storage compartment, the storage compartment comprising a first storage compartment, and a second storage compartment, and a partition wall to separate the storage compartment into the first storage compartment and the second storage compartment, a first control valve configured to control a flow of water received from an external water supply source, an ice maker configured to generate ice using the water discharged from the first control valve, a second control valve configured control a flow of the water discharged from the first control valve, a dispenser comprising an operating lever configured to supply the water received from the second valve, and an automatic water supply device configured to supply the water received from the second valve to a water container and configured to control the water container to be filled with a predetermined amount of water.

A liquid filling and dispensing system includes a filling assembly having: a base subassembly configured to receive a liquid from a processing assembly; and a connection subassembly configured to releasably connect a container with the base subassembly by an applied force that is perpendicular to a longitudinal axis of the container.

The bottle filling system incorporates a bottle, a fill base structure, and a control structure. The bottle, the fill base structure, and the control structure are fluidically interconnected. The fill base structure and the control structure are electrically interconnected. The control structure controls the flow of a fluid from a pressurized fluid source into the fill base structure. The fill base structure transports the fluid received from the control structure to the bottle. The control structure detects the presence of the bottle relative to the fill base structure. The control structure measures the amount of fluid in the bottle. The control structure automatically replenishes the amount of fluid contained in the bottle.

A vehicular water processing and filling system includes a vehicular processing assembly configured to obtain and transport water; a vehicular filling assembly configured to receive water from the processing assembly; and a controller configured to: identify a presence of a container operatively adjacent to the filling assembly; determine whether an RFID tag on the container is valid; and if the RFID tag is valid, activate a flow of water from the filling assembly and into the container; wherein the processing assembly, the filling assembly, and the controller are configured to be disposed in one of a first compartmental area and a second compartmental area of a vehicle.

A water vending apparatus is disclosed. The water vending system includes a water vapor distillation apparatus and a dispensing device. The dispensing device is in fluid communication with the fluid vapor distillation apparatus and the product water from the fluid vapor distillation apparatus is dispensed by the dispensing device.

Examples disclosed herein relate to conduits, devices, systems and methods, which may include a hollow element including an inner surface and an outer surface which allows for a passage of one or more of one or more fluid elements and one or more gaseous elements, a constraining element with one or more openings and one or more non-open elements, one or more blocking elements configured to stop the passage of the at least one of the one or more fluid elements and the one or more gaseous elements when the one or more blocking elements are in a first position relative to the one or more openings, and a movement device configured to move the one or more blocking elements to a second position relative to the one or more openings which allows for the passage of the one or more fluid elements and the one gaseous elements through the one or more openings in the constraining element.

A container-filling system includes a product-dispenser system and a control system. The product-dispenser system includes a conveyor defining a predetermined path, a container loader, and a container filler. The predetermined path has a sensing station, a loading station, and a filling station. The control system determines if a container is present at the sensing station. The cup loader provides a container at the loading station. The cup filler dispenses a product into the container at the filling station.