Disclosed herein is an apparatus for dispensing a mixture of at least two liquid components. The apparatus may comprise an A liquid component source fluidly connected with an A liquid component pump driven by a first motor; and a B liquid component source fluidly connected with a B liquid component pump driven by the first motor. Each of the A liquid component pump and the B liquid component pump may comprise at least two chambers. The A liquid component pump and the B liquid component pump may be fluidly connected with a dispenser unit. There may be one or more A liquid temperature regulators between the A liquid component pump and the dispenser unit. Similarly, there may be one or more B liquid temperature regulators between the B liquid component pump and the dispenser unit.

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 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.

The technology described herein generally relates to particular form of folded package. The package packages loose particles into a conical container and secures the filling with a folded distal end. More specifically, loose plant matter, such as crumbled dried leaves, are supplied as filling and the package may further be provided with a fluid core.

The technology described herein generally relates to particular form of folded package. The package packages loose particles into a conical container and secures the filling with a folded distal end. More specifically, loose plant matter, such as crumbled dried leaves, are supplied as filling and the package may further be provided with a fluid core.

A system and method to supply nitrogen gas is provided. Ambient air is compressed and stored in a storage receiver and then nitrogen is separated from the compressed air in a nitrogen membrane separation unit. The separated nitrogen is stored in a nitrogen storage tank under pressure and released through a pressure control valve. The system is confined to a small footprint and is useful as a nitrogen source where conventional compressed nitrogen tanks are a safety or space issue. Systems to prepare nitrogen infused beverages are also provided.

A system and method to supply nitrogen gas is provided. Ambient air is compressed and stored in a storage receiver and then nitrogen is separated from the compressed air in a nitrogen membrane separation unit. The separated nitrogen is stored in a nitrogen storage tank under pressure and released through a pressure control valve. The system is confined to a small footprint and is useful as a nitrogen source where conventional compressed nitrogen tanks are a safety or space issue. Systems to prepare nitrogen infused beverages are also provided.

An additive dispensing system for a refrigerator that includes a reservoir configured to contain an additive and an additive outlet in fluid communication with the reservoir. The additive dispensing system is configured to be connected to a refrigerator and is operable to selectively dispense an amount of additive to water dispensed from the refrigerator. The additive dispensing system may be connected to a water filtration system of the refrigerator such that the additive dispensing system may dispense the amount of additive into filtered water dispensed from the refrigerator.

An additive dispensing system for a refrigerator that includes a reservoir configured to contain an additive and an additive outlet in fluid communication with the reservoir. The additive dispensing system is configured to be connected to a refrigerator and is operable to selectively dispense an amount of additive to water dispensed from the refrigerator. The additive dispensing system may be connected to a water filtration system of the refrigerator such that the additive dispensing system may dispense the amount of additive into filtered water dispensed from the refrigerator.

The embodiment relates to beverage dispensing, and more particularly to the dispensing of a beverage, from a beverage container into a vessel, providing a portion of the beverage as foam atop the dispensed beverage. To avoid the reduction of absorbed carbon dioxide in a carbonated beverage, increased atmospheric pressure is employed to move the beverage from the container through the apparatus and into the vessel. An oscillating means provides a sonic wave through a conduit and the liquid therein; the sonic wave initiates the reaction between the carbon dioxide and the ingredients in a carbonated beverage to cause the liquid to foam prior to dispensing into the vessel.