The apparatus includes a reservoir (2), a liquid source (1), a carbon dioxide source (12), a non-return valve (8), a carbonating vessel (7) to receive liquid from the reservoir (2) via the non-return valve (8), a gas inlet (15) to receive carbon dioxide from the carbon dioxide source (12), and a dip tube (16) to withdraw carbonated liquid from the carbonating vessel. A pressure relief valve (20) vents gas from the carbonating vessel (7), and a dispense valve (18) controls the supply of carbonated liquid from the dip tube (16) to a dispense outlet (17). A charge control valve (14) controls the supply of carbon dioxide to the carbonating vessel (7). The apparatus has the following modes of operation-charge: the dispense valve (18) is held closed while the charge control valve (14) is opened to admit a charge of carbon dioxide into the carbonating vessel (7); dispense/refill: the dispense valve (18) is opened to dispense carbonated liquid while liquid flows into the carbonating vessel from the reservoir (2) via the non-return valve (8). The carbonated beverage can

NZ, OM, PA, PE, PG, PH, PL, PT, QA, RO, RS, RU, RW, SA, SC, SD, SE, SG, SK, SL, ST, SV, SY, TH, TJ, TM, TN, TR, TT, TZ, UA, UG, US, UZ, VC, VN, WS, ZA, ZM, ZW.

Examples disclosed herein relate to a dispensing device including a syrup unit which transmits via one or more orifices one or more syrups and water to a dispensing block, a syrup source coupled to the syrup unit which provides the one or more syrups to the syrup unit, a water source which provides water to the syrup unit, and a cf valve coupled to a first orifice upstream of a solenoid valve where the cf valve provides a first range of pressures to the solenoid valve and where the first orifice is coupled to the dispensing block.

Exemplary embodiments include an apparatus that can be connected to a valve on a keg, such as a Sankey-D valve, and can be used to add gas into the keg to mix the contents, which may be including alcoholic spirts and a non-alcoholic drink mix. The apparatus has an upper structure which is coupled to a lower portion configured to mate with a keg valve. The filling apparatus may be designed to depress the ball valve and ring valve portions of the keg valve to allow for both the addition of gas and venting of gas from the keg simultaneously.

The invention relates to a method for preparing a beverage and to a beverage preparation device (1), such as a beverage dispenser, for simpler and more efficient sanitization of water. The beverage preparation device (1) comprises: a buffer tank (2) having a tank body for storing an amount of water, a recirculation line (20) configured to allow water circulating out of and back into the buffer tank (2) to form a recirculation path together with the buffer tank (2), a UV lamp (40) arranged for irradiating UV light at a position along the recirculation path to sanitize the water, a cooling unit (3) for cooling the water within the buffer tank (2), a discharge line (23) for discharging the water from the buffer tank (2) via a discharge outlet (24), and a pump (26) for selectively circulating water along the recirculation path or the discharge line (23) towards the discharge outlet.

Disclosed is a beverage dispensing system for dispensing a non-mixed fluid along with a post-mix fluid. The post-mix fluid is formed by mixing a base beverage with at least one beverage additive. For example, the beverage dispensing system may dispense a post-mix fluid (e.g. cola) and a non-mixed fluid (e.g. spirits) separately. In some embodiments, the post-mix fluid may be dispensed simultaneously with the non-mixed fluid from separate fluid outlet ports. In other embodiments, the post-mix fluid may be dispensed from a first fluid outlet port and, subsequently, the non-mixed fluid may be dispensed from a second fluid outlet port.

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.

Examples disclosed herein relate to a dispensing device including a product unit with a pressure which transmits one or more products to an infuser, a water source with one or more CFValves that transmits water to the infuser, a gas source which transmits one or more gases to the infuser, and a dispensing area which dispenses a mixture generated via the infuser from a product unit input, a water source input, and a gas source input.

A beverage-making apparatus includes a container including a container body that includes heat-insulating material and has an opening that provides access to an interior of the container body. The container further includes: a container cover configured to open and close the opening of the container body, and at least three channels connected to the container and that are communicative with the interior of the container body. The at least three channels include at least one first channel and a second channel that are communicative with a beverage ingredient pack mounted in the interior of the container body, the beverage ingredient pack configured to hold first beverage-making ingredients. The container further includes a third channel that is communicative with a space formed in the interior of the container body between a wall of the container body and the beverage ingredient pack mounted in the interior the container body.

A beverage-making apparatus includes a fermentation tank assembly including a fermentation tank having an opening formed therein and a fermentation tank cover configured to open and close the opening. The beverage-making apparatus also includes a refrigeration cycle apparatus including a compressor, a condenser, an expansion device, and an evaporator. The refrigeration cycle apparatus is configured to circulate a refrigerant therethrough and to control a temperature of the fermentation tank as the evaporator is disposed at the fermentation tank. The beverage-making apparatus further includes a heat insulating wall surrounding both the fermentation tank and the evaporator.

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.