A compressed gas delivery adapter for use with a conventional self contained gas-powered beverage dispensing device is operative to couple the beverage dispensing device to an external source of compressed gas. The compressed gas delivery adapter is structured at one end to attach to a conventional self contained gas-powered beverage dispensing device, while mating with and sealing against an annular seal of the beverage dispensing device which typically engages an annular tip of a standard cylindrical 6.5 gram cartridge of compressed gas. At the other end, the compressed gas delivery adapter is configured to receive a hose that is connected to a larger, external compressed gas supply. In this regard, the compressed gas delivery adapter facilitates the delivery of compressed gas from an external gas supply, which may be of any size, to the conventional self contained gas-powered beverage dispensing device.

Ingredient dispensing systems and methods in a fluid mixture system using a monitored chamber pressure are disclosed. One system includes a chamber, an inlet to the chamber, a set of ingredient reservoirs, in the chamber, storing a respective set of ingredients and sealed by a respective set of valve, a pressure source, and a controller. The system is programmed to set a pressure of the chamber using the pressure source and the inlet to the chamber. The system is also programmed to dispense, using the pressure, at least two ingredients from the respective set of ingredients by actuating at least two valves from the respective set of valves.

The present invention proves a hydrogen injection apparatus that is good in terms of work efficiency and sanitation at the time of maintenance and that is capable of generating hydrogen water the hydrogen content of which is flexibly adjustable. The hydrogen injection apparatus according to the present invention includes a reference vessel, on the bottom of which a particle having a material for reacting with water to generate hydrogen formed on the surface thereof is placed, the reference vessel being configured to store water for reaction with hydrogen, a communication means for fluidly connecting the interior of the upper side of the reference vessel to the storage water for drinking in the state in which the reference vessel is sealed, and an auxiliary means for increasing injection of hydrogen into the storage water for drinking from the reference vessel through the communication means.

A dispense head is removably joined to a bottle, such as a wine bottle, by having a hollow cylinder extend into the bottle and on one end sealed to a neck of the bottle with gasket means for sealing the bottle in a gas tight manner and supporting the bottle, allowing the bottle to hang from the dispense head. In one embodiment a set of annular gaskets of different diameters may be provided for bottles of different neck sizes.

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.

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 receptacle for storing, pressurizing, and dispensing packaged beverages. The receptacle includes an airtight chamber with a removable lid, wherein the joint between the lid and the chamber is also airtight. A gas valve allows for the inflow and outflow of gas, and a tap port and tap stem allow the beverage to be dispensed without breaking the seal of the chamber. A pressure relief valve allows for more rapid depressurization. The chamber can be used at high and low pressures, such as a partial vacuum, to prevent oxidation of a number of open beverages, such as beers, wines, and sodas. A pressure gauge port coupled with an optional pressure gauge allows a user to verify the appropriate pressure for the type of beverage being preserved. The gas valve may be disposed on a base of the receptacle, as may the pressure relief and/or the pressure gauge port.

A fluid pressurization and dispensing system, including a coupler releasably attached to a vessel via an attachment means for securing a vacuum seal between the coupler and the vessel for maintaining pressure within the vessel, refreshing the gas composition within the vessel, and dispensing of a fluid contents externally from within the vessel without disturbing the vacuum seal. The coupler has a rigid single body unit having a tap head, a shank, and a cap which are contiguous thereof the coupler including a plurality of channels each integrally machined within an interior portion of the coupler. The system regulates a flow of gas from a pressurized gas cartridge via a gas pressure regulator, enables venting excess gas via a gas pressure relief valve, enables measurement of gas pressure within the vessel via a gas pressure gauge. Another embodiment of the system includes a coupler including a bi-level tap head.

A beverage infusion apparatus includes: beverage infusion apparatus comprising: (a) an infusion module for infusing a nitrogen containing gas into a beverage to form a gas infused beverage, wherein: (i) the infusion module comprises a gas draw venturi device for drawing the nitrogen containing gas into the beverage as a result of flow of the beverage through the gas draw venturi device to form the gas infused beverage; (b) a dispensing valve for dispensing the gas infused beverage and constructed to move between an open position and a closed position, wherein: (i) the open position permits dispensing of the gas infused beverage from the beverage infusion apparatus; (ii) the closed position prevents dispensing of the gas infused beverage from the beverage infusion apparatus; and (iii) the dispensing valve is constructed to move between the open position and the closed position by a user of the beverage infusion apparatus; and (c) a pump constructed to move the beverage, under pressure, from a beverage reservoir, through the dispensing valve to the dispensing valve. A method of forming a gas infused beverage at a location of purchase of the gas infused beverage is provided.

A pressurized beverage dispenser having a beverage container and a cap. The cap includes a cap body, a compressed-gas cartridge, an external straw, a discharge chamber, a metering valve, a diaphragm, and an actuator. The discharge chamber within the cap body is in fluid communication with an internal passageway of the external straw. The metering valve allows a flow of beverage from the beverage container to the discharge chamber when the metering valve is open and substantially precludes the flow of beverage when the metering valve is closed. The diaphragm opens the metering valve when the diaphragm is activated and closes the metering valve when the diaphragm is deactivated. The diaphragm also activates when a user sucks on the outlet end of the external straw to create suction within the discharge chamber. The actuator on the cap body activates the diaphragm when the user manually engages the actuator.