A beverage dispensing system for a vehicle includes a beverage dispenser and a drinking vessel. The beverage dispenser includes a nozzle having an upwardly directed nozzle tube for dispensing a beverage liquid. The drinking vessel is connectable to the nozzle tube and is fillable with the beverage liquid from a bottom side of the drinking vessel. The drinking vessel has a hollow dome which is opened on its bottom and top sides and is formed by a central section of the bottom side of the drinking vessel extending into the drinking vessel interior. The hollow dome is pushed onto the nozzle tube for the drinking vessel to be filled with the beverage liquid from its bottom side. The drinking vessel may be a cylindrical or truncated conical mug in which the central section of its bottom side is curved into the drinking vessel interior to form the hollow dome.

A beverage distribution system for preparation of espresso coffee and similar aromatic beverages, including a drinking recipient (1, 1′), for example of type glass, cup, or similar, a beverage discharge disposition (2) operatively associated with a beverage preparation device (3), whereby the beverage discharge disposition is provided so that the beverage discharge flow impinges, with a given flow pressure, a flow regulation disposition (12) on the base region (11) of the drinking recipient (1, 1′) along a direction opposite gravity, whereby the drinking recipient has first and second recipient parts (11, 12) adapted to be removably retained and that, in an assembled condition, provide fluid connection through a flow passageway (110) that develops along a single direction and to confine the beverage flow downstream of flow constrain means (16) and upstream of the entry of beverage flow in the region of the base wall (111) of the collection space.

A water purifier or other liquid dispenser may sense a height of the inlet of a container accurately through an infrared transmitter and an infrared receiver that are disposed at different positions of a water discharge module moving vertically. Additionally, in the water purifier, the water discharge module may discharge purified water at a point spaced a certain distance apart from the inlet of the container, based on infrared sensing, thereby preventing the inlet of the container from contacting the lower surface of the water discharge module.

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.

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.

The present invention discloses a beverage distribution system, in particular a system for preparing espresso coffee and similar aromatic beverages, comprising a drinking recipient (1, 1′), for example of the glass, cup or similar type, a beverage discharge disposition (2) operatively associated to a beverage pressurization device (3), whereby said beverage discharge disposition (2) is provided so that the beverage discharge flow impinges, with a given flow pressure, to a flow regulation disposition (12) in the base region (11) of said drinking recipient (1, 1′) along a direction opposite the gravity force, whereby said beverage apparatus (3) further comprises purge means (26) adapted so that provide the circulation of a purge flow through at least part of said beverage discharge disposition (2), optionally also through a drinking recipient (1, 1′) operatively engaged thereon.

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.

A beverage dispensing system for a vehicle includes a beverage dispenser and a drinking vessel. The beverage dispenser includes a nozzle having an upwardly directed nozzle tube for dispensing a beverage liquid. The drinking vessel is connectable to the nozzle tube and is fillable with the beverage liquid from a bottom side of the drinking vessel. The drinking vessel has a hollow dome which is opened on its bottom and top sides and is formed by a central section of the bottom side of the drinking vessel extending into the drinking vessel interior. The hollow dome is pushed onto the nozzle tube for the drinking vessel to be filled with the beverage liquid from its bottom side. The drinking vessel may be a cylindrical or truncated conical mug in which the central section of its bottom side is curved into the drinking vessel interior to form the hollow dome.

A water purifier or other liquid dispenser may sense a height of the inlet of a container accurately through an infrared transmitter and an infrared receiver that are disposed at different positions of a water discharge module moving vertically. Additionally, in the water purifier, the water discharge module may discharge purified water at a point spaced a certain distance apart from the inlet of the container, based on infrared sensing, thereby preventing the inlet of the container from contacting the lower surface of the water discharge module.

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.