The present application provides a beverage dispenser for dispensing a beverage in a contactless fashion. The beverage dispenser may include a number of adjacent dispensing valves with each of the dispensing valves including a nozzle and a contactless dispensing valve system. The contactless dispensing valve system includes one or more proximity sensors positioned under the nozzle of each of the adjacent dispensing valves.

A dispenser for the delivery of beverages having at least a contactless acquisition element arranged according to well-defined positions so as not to be reached by any splashes during the delivery of the beverage.

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.

The refillable drinking vessel is a fluid containment structure. The refillable drinking vessel forms a fluidic connection with a pressurized fluid source the refillable drinking vessel: a) opens a fluidic connection with the pressurized fluid source; and, b) received fluid from the pressurized fluid source until a previously determined volume of fluid is contained in the refillable drinking vessel. The refillable drinking vessel incorporates a bottle, a bottle fitting structure, a base plate, and a fluid control structure. The base plate forms a fluidic connection between the bottle fitting structure and the pressurized fluid source. The bottle fitting structure forms a fluidic connection between the bottle and the base plate. The fluid control structure automatically controls the flow of fluid from the pressurized fluid source through the base plate and the bottle fitting structure into the bottle.

Provided is a water purifier. The water purifier includes a water purifier body provided with a filter, purifying raw water supplied from the outside, and supplying purified water, a water discharge module of which at least a portion is coupled to protrude to the front of the water purifier body so that at least a portion thereof rotates or is elevated with respect to the water purifier body and which is provided with a water discharge nozzle, which supplies the purified water supplied from the water purifier body to a user, in a lower end thereof, a driving unit providing power providing power required for the rotation and elevation of the water discharge module, a detection unit installed in the water purifier body or the water discharge module to recognize a position and size of a container placed around the water purifier body, and a control unit receiving position information and size information of the container from the detection unit to control the driving unit so that the water discharge nozzle moves above 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 refrigerated consumable-liquid dispenser. A consumable-liquid container is carried in a covered refrigerated housing that includes a heat exchanger for maintaining consumable-liquid at a predetermined temperature which may be pre-selected depending on the type of consumable-liquid being carried. A dispensing tube provides a conduit for the consumable-liquid. To dispense the consumable-liquid, a pressure differential is produced in response to the user command, whereby the pressure on the liquid in the container is greater than the pressure at a dispensing port. User command may be achieved without physical contact with the consumable-liquid dispenser, for sanitary and health related considerations.

The refillable drinking container for use with a water-dispensing system. The refillable drinking container for use with a water-dispensing system stores a fluid that is consumed as a beverage. The refillable drinking container for use with a water-dispensing system measures the stored fluid. The refillable drinking container for use with a water-dispensing system refills the fluid when the volume of the stored fluid falls below a previously determined level. The refillable drinking container for use with a water-dispensing system heats the stored fluid at a previously determined temperature.

A dispensing system includes one or more digital image capture devices for capturing images in a dispenser well and a digital image analyzer operatively coupled to the digital image capture device(s) for analyzing the images for use in regulating a dispensing operation. The digital image analyzer evaluates digital images captured by the digital image capture device(s) to determine various characteristics of a container placed in the dispensing well, such as the height and position of the container.

Food product dispensing machines and methods for dispensing food product into a cup. The food product dispensing machine includes a cup holder having a target element, a sensor that senses the target element, and a controller. The cup holder is configured to hold a cup such that the cup prevents the sensor from sensing at least a portion of the target element. The controller determines whether a cup is present in the cup holder and/or a size of the cup based on a remaining portion of the target element that is sensed by the sensor when the cup is held by the cup holder. Drive mechanisms are configured to move the first and second cup holders along first and second radial paths, respectively, with respect to the common dispensing position. An indicator is configured to indicate a remaining number of cup dispenses to the user.