A beverage dispensing assembly for preparing and dispensing a beverage the assembly comprising: —source of pressurized base liquid having CO.sub.2, N.sub.2 or N.sub.2O dissolved therein and having a gas pressure of at least 0.5 bar overpressure at 2° C.; —a beverage unit with a liquid flow path having a liquid inlet at one end in fluid communication with the base liquid in the source of base liquid by means of a valve and a beverage outlet at an opposite end; an ingredient container receiving means having an ingredient container installed therein such that when correctly installed, the content of the ingredient container is in fluid communication with the liquid flow path for mixing the content of the ingredient container with a base liquid in the liquid flow path; —a gas pressure regulation unit having a pressure chamber provided in the liquid flow path downstream of the fluid communication between the liquid flow path and the content of the ingredient container; a gas ingredient inlet in fluid communication with the pressure chamber through a valve.

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 dispensing system is configured to facilitate communication between a point-of-sale terminal and a beverage dispenser for receiving and fulfilling beverage orders. The dispensing system comprises a translation server that maps beverage orders between the point-of-sale entry data and beverage dispenser recipe data. An automatic portion control (APC) assembly comprises a mass sensor that is configured to determine a mass of a cup resting thereon. Using the mass of the cup, the dispenser makes a cup size prediction and performs portion control dispensing operations. Based on the cup size prediction, a user interface is modified to allow for quicker interactions. The APC assembly is positioned beneath a nozzle of the beverage dispenser and comprises a removable platform assembly magnetically coupled to a mass sensor assembly. The mass sensor assembly comprises a load cell or other mass sensor.

A platform for onsite creation of consumable liquids is provided. The platform includes a liquid generating machine, a set of cubes, compatible bottles, and a user interface device. The liquid generating machine may include a water storage module, a cube module, a liquid making module and a bottle filling and cleaning module. The platform decentralizes the production of consumable liquids, such as drinking waters, enhances the consumer's experience, significantly increases consumers' choices, all while simplifying the consumption process (buying the water, carrying it, getting rid of/recycling the plastic bottle, etc.). The platform includes customizable liquid generating recipes associated with the cubes that may be provided through a network or local database and a security feature that allows the authorization of users to generate and access controlled liquids.

A beverage dispensing device and methods for dispensing beverages are provided. In one embodiment, the beverage dispensing device includes a housing, a carbonation assembly, a carriage assembly, and one or more flavorant containers. The beverage dispensing device can also include a controller with a UI to allow a user to customize aspects of a beverage. These customizable aspects can include fluid volume, carbonation level, flavorant type, and/or flavorant amount. Based on the customized aspects of the beverage, the beverage dispensing device can dispense an amount of carbonated or uncarbonated water, and can dispense a type and amount of flavorant. Illustrative embodiments of flavorant containers are also provided.

A carbonation machine may include a carbonation head, a holder that is configured to hold a gas canister, the holder comprising a connector with a socket configured to enable linear insertion of a valve of the canister into the socket, the socket including a seal with at least one lateral opening to enable fluidic flow between one or more laterally oriented ports of the valve and a conduit of the holder while preventing leakage of gas from the fluidic flow, and a holding mechanism configured to hold a lateral projection from the canister after insertion of the valve into the socket such that the valve remains in the socket, and an activation mechanism configured to operate the valve to release the gas from the canister when inserted into the socket so as to enable the gas to flow via the conduit to the carbonation head

Provided herein are methods and systems for a networked soda reconstruction appliance, adapted for home or office use, that includes intelligent sub-systems for handling various beverage components, which can be mixed under intelligent control, including local control and control by a remote host system, winch may help manage the appliance itself as well as the replenishment supply chains involved in delivering appropriate beverage components to the appliance.

An on demand functional beverage dispenser is provided that outputs an enhanced flavored mixture by combining a liquid with a flavored product and a functional product including a dietary supplement.

A method for operating a water dispenser, the water dispenser having a water supply, a carbon dioxide supply, an outlet for pouring water into a container placed below the outlet, a controller and a user interface, the method including the following steps, which are executed in response to an activation of the water dispenser via the user interface: determining a nominal value of a water volume (V) that is to be filled into the container determining a nominal value of a waiting period (WP) by means of the controller determining nominal values of a first partial volume (V1) and a second partial volume (V2) by means of the controller (V1+V2=V), in particular by determining a volume ratio (R) with R=V1/V for dividing the water volume (V) into the partial volumes (V1, V2) pouring the first partial volume (V1) through the outlet waiting through the waiting period (WP) pouring the second partial volume (V2) through the outlet.

The present application provides a beverage dispensing system. The beverage dispensing system may include a cooler and a beverage dispenser positioned within the cooler. The beverage dispenser may include a nozzle, a flow of water, an internal carbonation system in communication with the flow of water and the nozzle, and a number of internal ingredient containers in communication with the nozzle such that the beverage dispenser produces a beverage at the nozzle within the cooler.