A smart energy-saving device for automatic blending drinks, adopted to inject beverages into at least one beverage cup that comprises a bar code, comprises: beverage barrels; manifolds; at least one ice-storing device including at least one ice outlet, at least one servomotor, a stirring rod, and at least one thruster; beverage stations; collection mechanisms including ring structures, ice inlets, water inlets, and beverage tubes; and a control module including flowmeters, water valve switches, beverage-cup-weight sensors, beverage-barrel-weight sensors, at least one ice-beverage-barrel-weight sensor, pressure sensors, bar code readers, infrared scanners; and a controller.

A beverage dispenser for dispensing either a hot or cold beverage, for example tea, from a common mixing chamber and a method for making and/or operating the same is disclosed. The dispense has a source of hot water, usually a heater, and a source of water, a refrigeration system to cool the water and one or more sources of flavor. The hot or cold water, or both can be provided to the common or same, mixing chamber and mixed assisted with a static and/or dynamic mixer and then dispensed. The last portion of the water is used to rinse for the next beverage. Flavor or syrup pump current is sensed to provide the appropriate amount of flavor concentrate to a known quantity of water to form a beverage of appropriate strength or syrup.

A smart energy-saving device for automatic blending drinks, adopted to inject beverages into at least one beverage cup that comprises a bar code, comprises: beverage barrels; manifolds; at least one ice-storing device including at least one ice outlet, at least one servomotor, a stirring rod, and at least one thruster; beverage stations; collection mechanisms including ring structures, ice inlets, water inlets, and beverage tubes; and a control module including flowmeters, water valve switches, beverage-cup-weight sensors, beverage-barrel-weight sensors, at least one ice-beverage-barrel-weight sensor, pressure sensors, bar code readers, infrared scanners; and a controller.

Method, device and nozzle for serving a carbonated beverage. In particular, the invention encompasses the dissolution of a concentrated syrup on a cold-water stream in a mixing ring and at a desired syrup/water ratio, the subsequent carbonation of the dissolution in a carbonation ring at a desired gas/liquid ratio, and the serving of the carbonated beverage through a specially designed serving nozzle that reduces foaming during the serving by means of a first membrane C for separating undissolved C02 bubbles from the liquid, by subsequently reducing the pressure of the liquid through a second membrane E, and by ejecting the beverage in a conical diverging stream.

A beverage dispenser for dispensing either a hot or cold beverage, for example tea, from a common mixing chamber and a method for making and/or operating the same is disclosed. The dispense has a source of hot water, usually a heater, and a source of water, a refrigeration system to cool the water and one or more sources of flavor. The hot or cold water, or both can be provided to the common or same, mixing chamber and mixed assisted with a static and/or dynamic mixer and then dispensed. The last portion of the water is used to rinse for the next beverage. Flavor or syrup pump current is sensed to provide the appropriate amount of flavor concentrate to a known quantity of water to form a beverage of appropriate strength or syrup.

Method, device and nozzle for serving a carbonated beverage. In particular, the invention encompasses the dissolution of a concentrated syrup on a cold-water stream in a mixing ring and at a desired syrup/water ratio, the subsequent carbonation of the dissolution in a carbonation ring at a desired gas/liquid ratio, and the serving of the carbonated beverage through a specially designed serving nozzle that reduces foaming during the serving by means of a first membrane C for separating undissolved C02 bubbles from the liquid, by subsequently reducing the pressure of the liquid through a second membrane E, and by ejecting the beverage in a conical diverging stream.