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.

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 self-propelling container having: a top; a bottom; a plurality of vertical walls extending between the bottom and the top; an inner bag for holding contents to be dispensed; a female coupling configured to receive and establish a friction seal with a male coupling of an external device for inserting or extracting the contents to or from the container after the friction seal is established between the female and male couplings; and at least one independent panel positioned inside the container; a compressible element associated with the at least one independent panel wherein during filling of the inner bag the compressible element is compressed, thus causing the at least one independent panel to exercise pressure onto the inner bag, and thus, helping to empty the inner bag.

Methods and devices for dispensing a cooled beverage are provided. One embodiment of methods includes the steps of mixing a diluent and a concentrate to make a diluted solution. The diluted solution is carbonated to yield a carbonated solution. The carbonated solution is cooled to below 0° C. to produce the cooled beverage, and the cooled beverage is dispensed through a nozzle. A device for dispensing a cooled beverage, where the cooled beverage comprises a diluent having a freezing point at STP includes an upstream cooler that pre-cools a supply of diluent to a temperature above the freezing point. A mixer mixes the pre-cooled diluent with a concentrate to make a diluted solution. A downstream cooler further cools the diluted solution to below the freezing point. A dispenser dispenses the downstream-cooled solution to atmosphere. The temperature of the cooled beverage is below the freezing point when dispensed.

A dispenser platform for receiving a product container, having a casing, wholly or partially encasing a control panel coupled a control module and a product container receptacle having a product container coupling assembly. The product container coupling assembly includes a first product supply conduit configured to receive a barrel of a product container. A second product supply conduit couples to a reservoir or to a supply of a second product, such as water. The product container holds a first product, such as concentrated coffee, concentrated tea, concentrated flavored drink, flavored syrup (cola) or concentrated juice. Components of the dispenser platform include a pump assembly, a heating and/or cooling assembly responsively coupled to a control panel via a control module and a filter assembly. The product container can be a BOV container or an airless dispensing container.

A beverage supplying device comprising: a touch panel for receiving an operation for selecting a main syrup constituting a main beverage, and a topping syrup added as flavoring to the main beverage; a second syrup solenoid valve for opening and closing a passage for supplying the topping syrup that is stored under pressure in a syrup tank; a second syrup pump for intermittently supplying the topping syrup while the second syrup solenoid valve is open, the second syrup pump being provided to the passage for supplying the topping syrup between the syrup tank and the second syrup solenoid valve; and a nozzle for producing the main beverage by mixing the main syrup with water or carbonated water at a prescribed ratio, and producing a beverage by mixing the topping syrup with the main beverage without diluting the topping syrup.

A beverage supply apparatus may include a touch panel for receiving an operation to select a main syrup from among different types of syrups stored in a number of syrup tank that is diluted with water or carbonated water to form a main beverage and for receiving an operation to select a topping syrup that is added to the main beverage as a flavor. The beverage supply apparatus also may include a nozzle in which the main beverage is produced by mixing water or carbonated water with the main syrup in a predetermined ratio and then the undiluted topping syrup is mixed with the main beverage to produce a beverage.

A refrigerator having a carbonated water production module integrally provided with a carbon dioxide gas cylinder having carbon dioxide gas stored therein and a carbonated water tank to mix purified water with the carbon dioxide gas to produce carbonated water. The carbonated water production module is mounted to the rear surface of the door, and thus it may be cooled by cool air in the refrigeration compartment and be easy to access, and thereby repair and replacement thereof is facilitated. The dispenser includes a carbonated water discharge channel into which carbonated water from the carbonated water tank is discharged, and a purified water discharge channel into which purified water from the water tank is discharged. Since the purified water discharge channel does not pass through the carbonated water tank, a user is allowed to selectively dispense purified water or carbonated water anytime.

A beverage dispensing device has a housing with a beverage unit with a liquid inlet and a beverage outlet. The beverage unit has a receiving means for receiving at least two ingredient containers containing a unit dose of an ingredient of the beverage to be dispensed. The beverage unit also has a liquid line in fluid communication with a base liquid source, with the contents of the ingredient containers, when correctly installed in the device, and with the beverage outlet. The liquid line is split into two side lines at a point A, downstream the liquid inlet. Both side lines join in fluid communication at a point B, downstream point A and upstream the beverage outlet, at least one of the ingredient containers in liquid communication with the liquid line at a point M1 downstream point A and upstream point B.