A system and method for dispensing beverage from a container, such as wine from a wine bottle. Dispensing may be automatically controlled based on a detected orientation of the container, e.g., dispensing may occur when a bottle is tilted as if to pour from the bottle and stopped when the bottle is oriented upright. Dispensing may be stopped when the container is rotated about its longitudinal axis even while in a pour orientation. A remaining amount of beverage in the container and/or an amount of pressurized gas used to drive dispensing may be detected and beverage dispensing controlled accordingly.

Non-electric fountain beverage dispensers for dispensing a variety of beverages without the use of electricity. The non-electric fountain beverage dispenser may include a gas container for storing a pressurized gas, a base liquid storage container for storing a base liquid, and a gas supply line that communicates pressurized gas from the gas container to the base liquid storage container and to a syrup storage container. Non-electric beverage dispenser further includes a mechanical dispensing valve in fluid communication with the base liquid storage container and the syrup storage container by means of a base liquid supply line and a syrup supply line, respectively, such that the mechanical dispensing valve is capable of selectively dispensing a mixture of the base liquid and the syrup. Non-electric fountain beverage dispenser further includes a non-electric cooling unit for cooling the base liquid without the use of electricity.

A refrigerator for drinks is provided. The refrigerator may include a cabinet having a storage compartment therein, and a dispenser nozzle disposed to be at least partially exposed outside the cabinet. A pump connection line being able to increase pressure in a drink container by delivering high-pressure air into the drink container and a tank connection line preventing oxidation of the drink in the drink container by delivering an unreactive gas into the drink container may be disposed in the cabinet. Accordingly, two functions of discharging a drink and preventing oxidation may be individually performed, so consumption of an unreactive gas may be reduced.

A cap for engagement with a beverage container allows an extractor needle or other conduit to pass through a portion of the cap such that beverage can be removed from the container without removing the cap. The cap may include a septum that is radially and/or axially compressed and a barrier layer arranged to engage with the container to form a seal.

Embodiments of the present disclosure are directed to extracting the liquid from a container (such as a bottle of wine) using a needle adapted to pierce the closure of a container of liquid, dispense liquid from the container, and supply an inert gas to the container to help preserve the liquid.

A liquid dispensing device includes a liquid extraction system that extracts a liquid from a container. The liquid dispensing device includes an identification system that identifies a type of the liquid. The liquid dispensing device includes a liquid preservation system that prevents degradation of the liquid. The liquid may be wine or other liquids.

The present invention is directed generally to the field carbonated beverage dispensing systems having a replaceable carbon dioxide storage cylinder. Such systems may be embodied in the form of a unitary apparatus including, but not exclusively, on-bench, under-bench or freestanding beverage cooling units. The invention may be embodied in the form of a beverage dispensing unit having a gas input connector configured to make gas tight connection to a gas container configured to hold a gas under pressure and a mass detection device. The gas input connector and mass detection device are arranged such that when a gas container is connected to the gas input connector, the mass detection device is capable of detecting a mass associated with the gas container. The unit may further have a gas container support extending from or about the mass detection device configured to maintain a gas container connected to the gas input connector in a position such that it bears on the mass detection device so as to allow the mass detection device to measure the mass of the gas container and any gas contained therein. Computer-implemented methods for monitoring the level of gas are also provided.

A system and method for dispensing beverage from a container, such as wine from a wine bottle. Dispensing may be automatically controlled based on a detected orientation of the container, e.g., dispensing may occur when a bottle is tilted as if to pour from the bottle and stopped when the bottle is oriented upright. Dispensing may be stopped when the container is rotated about its longitudinal axis even while in a pour orientation. A remaining amount of beverage in the container and/or an amount of pressurized gas used to drive dispensing may be detected and beverage dispensing controlled accordingly.

Disclosed herein are beverage dispensing apparatuses for selectable gas-infused beverage dispensing. The apparatus may have a faucet assembly, a beverage storage unit, a gas storage unit, a liquid/gas infusion unit, and an infusion valve. The faucet assembly may have a housing, a nozzle, a supply valve, and a dispensing valve, configured to control a flow of beverage through the faucet assembly. The beverage dispensing apparatus may use the infusion valve to selectively infuse a selected level of gas within a dispensed beverage.

A liquid dispensing device includes a needle. The needle is adapted to penetrate a container without tearing out a portion of the container. The portion of the container is near a point of penetration on the container. The liquid dispensing device includes a motion control system. The motion control system is configured to rotate the needle while the needle penetrates the container.