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.

A beverage dispensing head includes a housing having a front, a rear, and a base that extends between the front and the rear. A mixing nozzle is configured to dispense a flow of beverage via the base. A valve is configured to control the flow of beverage via the mixing nozzle, and a switch is movable into and between a closed position in which the valve opens the flow of beverage via the mixing nozzle and an open position in which the valve closes the flow of beverage via the mixing nozzle. A lighting module disposed in the housing is configured to illuminate the front of the housing and the base of the housing when the switch is moved into the closed position.

Provided is a water carbonation unit including: at least one water feed and at least one pressurised carbon-dioxide feed; a merging duct extending between a first, closed end and a second end, the at least one water feed and at least one carbon-dioxide feed opening into said duct at said first end; said second end opening into a mixing chamber linked to a carbonated water outlet; the carbonated water outlet configured to restrict outflow of carbonated water from the chamber to thereby maintain pressure within the chamber while carbonated water flows out of the carbonated water outlet.

A dispensing system including: a pressure vessel with an inlet and an outlet; a first CF Valve coupled to the inlet; a second CF Valve coupled to the outlet; a bag with elements in the bag coupled to the outlet and located inside the pressure vessel; a pressure source coupled to the first CF Valve; and a toggle which opens and seals the outlet area based on a position of the toggle where the first CF Valve pressurizes the pressure vessel via the pressure source to transport elements in the bag to the second CF Valve via the outlet and the second CF Valve dispenses the elements to a dispensing area.

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 first lifting cover having a lifting gear extending in an up-down direction, a second lifting cover movably accommodated inside the first lifting cover, a lifting motor coupled to the second lifting cover and configured to interwork with the lifting motor, a water ejection nozzle installed at a lower end of the second lifting cover and configured to eject water, and a light source disposed inside the second lifting cover and configured to output light to a lower side or a side surface of the second lifting cover.

A detection device for detecting that a source is sold-out for a beverage dispenser, the beverage dispenser dispensing from the source via a valve controlled by a solenoid. A circuit board is configured to be positioned on the valve proximal to the solenoid. A detector is coupled to the circuit board, where the solenoid creates a magnetic field when dispensing from the valve, and where the detector detects the magnetic field created by the solenoid and consequently produces an electrical output. A control system is coupled to the circuit board in communication with the detector. The control system is configured to access threshold data and to compare the electrical output of the detector to the threshold data. The control system indicates that the source is sold-out based upon the comparison of the electrical output to the threshold data.

Beverage dispensers, systems, and methods are provided for producing a beverage flavored mixture/solution based on instructions from a mobile device (also referred to as an electronic device) and without requiring a user to touch the beverage dispenser (e.g., reducing the spread of germs through touching shared surfaces). The beverage dispensers, systems, and methods described may also be advantageous in allowing for monitoring of use of a beverage dispenser, billing users, and tracking liquid intake. The beverage dispensers, systems, and methods may enable a greater tracking and control compared to conventional beverage dispensers.

An example system includes an incompressible, airtight pressurized container operable to maintain a pressure level in an internal pressurized environment, a transport system including at least two liquid transport conduits, and a mixing component, the two liquid conduits each being releasably coupled to a pressurized container interface coupled to the pressurized container and a dispensing interface, each liquid transport conduit including a controllable valve to enable or disable a flow of the liquid volume, the pressurized container interface capable of maintaining the pressure level, the mixing component being coupled to the at least two liquid transport conduits and the dispensing interface, a pressure regulation system connected to the pressurized container, the pressure regulation system operable to exert and maintain the pressure level within the pressurized container to enable compression of the first compressible liquid volume, and a control system operable to control the controllable valves and the pressure regulation system.

A system for transporting beverage includes a container, an output port, a first length of tubing, a first gas source, and a valve. The container has a volume of beverage disposed therein. The first length of tubing has a first end and a second end. The first end of the first length of tubing is fluidly coupled to the container. The second end of the first length of tubing is fluidly coupled to the output port. The first gas source is fluidly coupled to the container via a second length of tubing. The second gas source is fluidly coupled to the first length of tubing. The valve has at least a first port and a second port. The first port of the valve is fluidly coupled to the first length of tubing. The second port is fluidly coupled to a clearing fluid source.

A beverage dispensing system is provided. The beverage dispensing system can include a nozzle module connected to a beverage dispenser housing. The nozzle module can be vertically and/or horizontally spaced from a beverage dispenser valve and nozzle.