A system and method for dispensing a beverage includes the detection of a presence of a cup underneath a nozzle, and in response to the detected presence of the cup, a target fill height is calculated. The controller operates to begin a dispense of a beverage into the cup. A beverage fill height determined and compared to a target fill height. When the beverage fill height exceeds the target fill height, the controller operates to stop dispensing the beverage into the cup.

A dispenser head for in-line mixing and dispensing of beverages, which may be carbonated or nitrogenated. The dispenser head comprising a pump, a dilution mechanism, an additive mechanism, and outlet nozzle and optionally a regulation system. In use, the pump can pump concentrate liquid for the liquid product from a concentrate source to the dilution mechanism; the dilution mechanism can receive diluent liquid suitable for the liquid product from a diluent source, operable to mix the diluent liquid and the concentrate liquid and provide diluted concentrate liquid; and the additive mechanism can receive additive fluid for the liquid product from an additive source, to combine the diluted concentrate liquid and the additive fluid. The regulation system comprises a pump regulator means for regulating the quantity of concentrate liquid pumped into the dilution mechanism within the dispense period; a diluent quantity regulator means for regulating the flow of diluent liquid into the dilution mechanism; and an additive quantity regulator means for regulating the flow of additive fluid into the additive mechanism. Preferably, the dispenser head is a unitary device, which may be supplied attached to a vessel containing the concentrate.

Systems and methods for developing a recipe using a network of beverage synthesis devices are disclosed. A disclosed method includes transmitting, from a network architecture, the recipe to at least two beverage synthesis devices in the network of beverage synthesis devices. The recipe is compatible with the network of beverage synthesis devices for synthesis into a beverage. The method further includes receiving, at the network architecture, information from the at least two beverage synthesis devices. The method further includes modifying, subsequent to receiving of the information and using the network architecture, the recipe to produce a modified recipe. The method further includes transmitting, from the network architecture, the modified recipe to the network of beverage synthesis devices. The modified recipe is compatible with the network of beverage synthesis devices for synthesis into a modified beverage.

A consumer operable retail beverage container filling arrangement for use in a retail environment is provided, comprising a housing, a beverage dispensing unit for dispensing a beverage, comprising a retail beverage container holder for receiving and holding a retail beverage container, wherein the beverage dispensing unit is at least partially provided in the housing, a consumer interaction module for receiving a consumer input and generating a consumer control signal based on the received consumer input, and a dispensing controller arranged for receiving the consumer control signal and controlling the beverage dispensing unit to dispense the beverage in accordance with the consumer control signal.

A beverage dispensing unit includes a dispensing valve configured to be fluidly coupled to at least one beverage source, one or more ingredient pumps configured to be fluidly coupled to one or more ingredient sources, a dispensing manifold fluidly coupled to the dispensing valve and the one or more ingredient pumps, and a controller. The controller is configured to receive a recipe from a user, wherein the recipe indicates an amount of each ingredient of one or more ingredient sources. The controller is further configured to operate the one or more ingredient pumps to inject one or more of the ingredients into the dispensing manifold according to the recipe, and open the dispensing valve to allow a volume of beverage from the beverage source to flow through the dispensing manifold. The volume of beverage mixes with the one or more ingredients in the manifold and flushes the ingredients out of the manifold.

A beverage mixing device may comprise: a plurality of bulk pre-mixed compositions disposed within a housing; a user interface; and a controller in electronic communication with the user interface, the controller configured to: determine a drink type based on a selection from the user interface, dispense a carbonated water or a non-carbonated water through the nozzle based on the drink type, and dispense a pre-mixed composition based on the drink type, the pre-mixed composition dispensed through the nozzle.

An beverage mixing device is may comprise a controller in electronic communication with a sensor, the controller configured to: determine a drink type based on receiving sensor data from the sensor, and mix a pre-mixed composition with a carbonated water or a non-carbonated water based on the drink type.

A beverage mixing device is disclosed herein. The beverage mixing device may comprise: a capsule receiver configured to receive a capsule including a pre-mixed composition, the capsule receiver including a first sensor; a carbonation vessel disposed within the housing, the carbonation vessel configured for on-demand carbonatation; and a controller in electronic communication with the first sensor, the controller configured to: determine a drink type based on receiving sensor data from the first sensor, and dispense a carbonated water or a non-carbonated water based on the drink type.

A dispenser includes a water supply flow path to guide water supplied from a water supply source toward a filter; an auxiliary flow path to branch off at the first point of the water supply flow path and then to merge into a second point located downstream of the first point; a flow switching valve installed at the first point to control a flow from the water supply flow path to the auxiliary flow path; a water ejection nozzle through which filtered is ejected; a hot water module forming a heating flow path and configured to heat the purified water into hot water; a hot water flow path configured to guide the hot water passing through the hot water module toward the water ejection nozzle; and a controller to control the flow switching valve and the hot water module.

An example method comprises receiving a control signal to open a first valve of a compressible liquid container within an airtight pressurized container, retrieving a first dispensing profile, each dispensing profile indicating at least one valve and, for each valve, a predetermined period of time for keeping a particular valve open, each of the valves controlling transport of contents a different compressible liquid container contained within the airtight pressurized container to a dispensing system, for each of the one or more valves identified in the first dispensing profile: opening the particular valve identified in the first dispensing profile for the particular predetermined period of time to transport contents over a first liquid transport conduit that is coupled to a particular releasable coupling and the particular valve, and closing the particular valve after the particular predetermined period of time to dispense an amount of contents of the particular compressible liquid container.