A beverage dispenser includes a gas infusion device configured to infuse a gas into a base liquid to form a gas-infused liquid, a mixing chamber configured to mix the gas-infused liquid and a concentrate to thereby form a reconstituted beverage, a first flow control configured to decrease pressure of the gas-infused liquid prior to mixing with the concentrate, and a second flow control configured to decrease pressure of the concentrate prior to mixing with the gas-infused liquid. A restrictor device downstream from the mixing chamber and configured to apply backpressure on the concentrate and the gas-infused liquid, and a dispensing valve is configured to dispense the reconstituted beverage.

Drinks dispensing system (10) comprising a first syrup pump (20) being controllable to deliver a predetermined dose of syrup from a first syrup container (22) to a dispensing valve assembly (16), a second syrup pump (20) being controllable to deliver a predetermined dose of syrup from a second syrup container (22) to the dispensing valve assembly (16), a control system (200) configured to control the operation of the first and second syrup pumps (20) by setting a first electrical power parameter of electrical power to be supplied to drive the first syrup pump (20) independently of a second electrical power parameter of electrical power to be supplied to drive the second syrup pump (20); and a water delivery system (14) configured to deliver water to the dispensing valve assembly (16), wherein the dispensing valve assembly (16) is operable to mix and dispense syrup and water.

A beverage dispenser includes a gas infusion device configured to infuse a gas into a base liquid to form a gas-infused liquid, a mixing chamber configured to mix the gas-infused liquid and a concentrate to thereby form a reconstituted beverage, a first flow control configured to decrease pressure of the gas-infused liquid prior to mixing with the concentrate, and a second flow control configured to decrease pressure of the concentrate prior to mixing with the gas-infused liquid. A restrictor device downstream from the mixing chamber and configured to apply backpressure on the concentrate and the gas-infused liquid, and a dispensing valve is configured to dispense the reconstituted beverage.

A cock (10) that receives and discharges the carbonated water from a nozzle (70) includes: a first flow path (4S); and a second flow path (46). A flow path transverse Closs-section has an annular shape. The second flow path has an outer diameter larger than that of the first flow path and having a flow path cross-sectional area smaller than that of the first flow path; and a shaft (50) which forms the inner circumferential surface of the second flow path. the shaft having a ring-shaped groove (52) formed over the outer circumference of the shaft in a part of the second flow path that is connected to the first flow path, wherein a longitudinal center axis line (C1) of the first flow path is nonparallel to and does not intersect with a longitudinal center axis line (C2) of the second flow path.

The present application provides a beverage dispenser capable of dispensing one or more limited time offering beverages. The beverage dispenser may include a dispensing valve, a limited time offering ingredient source, and a limited time offering circuit extending between the dispensing valve and the limited time offering ingredient source. The limited time offering circuit may include a stainless steel line extending between the dispensing valve and the limited time offering ingredient source.

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.

A carbonation system for a beverage appliance or machine that can include a liquid chamber and a carbonation chamber separated from the liquid chamber by a wall of the carbonation chamber is disclosed herein. In some implementations, the liquid chamber is defined by a liquid tank (e.g., a water tank), and the carbonation chamber is defined by a carbonation tank. The carbonation system can move liquid (e.g., water) from the liquid chamber to the carbonation chamber and introduce carbonating gas (e.g., carbon dioxide) into the carbonation chamber to create a carbonated liquid (e.g., a carbon dioxide water dissolution, such as carbonated water, sparkling water, or seltzer).

A carbonated drink dispensing system includes a carbonation tank, a CO.sub.2 cylinder configured to deliver CO.sub.2 to the carbonation tank at a pressure of between 50 psi and 60 psi, a low-pressure pump configured to pump water into the carbonation tank, and a level sensor configured to determine when the water in the carbonation tank has reached a pre-determined level. The low-pressure pump is configured to stop pumping water when the level sensor determines that the water in the carbonation tank has reached the pre-determined level. The low-pressure pump starts pumping water again after a time delay.

The disclosure concerns a system including a modular dispensing system comprising a first module comprising a cold engine assembly, and a second module comprising a hot engine assembly. The system comprises a carbonator configured to dissolve carbon dioxide in water to form carbonated water. The cold engine assembly comprises a cold bath. A cold liquid mixer is configured to mix a concentrate and the carbonated water to form a cold ready-to-drink liquid. The hot engine assembly comprises a hot tank. A hot liquid mixer is configured to mix the hot water from the hot tank and a powder to form a hot ready-to-drink liquid. In an aspect, the cold engine assembly and the hot engine assembly form a single dispensing unit.

Drinks dispensing system (10) comprising a first syrup pump (20) being controllable to deliver a predetermined dose of syrup from a first syrup container (22) to a dispensing valve assembly (16), a second syrup pump (20) being controllable to deliver a predetermined dose of syrup from a second syrup container (22) to the dispensing valve assembly (16), a control system (200) configured to control the operation of the first and second syrup pumps (20) by setting a first electrical power parameter of electrical power to be supplied to drive the first syrup pump (20) independently of a second electrical power parameter of electrical power to be supplied to drive the second syrup pump (20); and a water delivery system (14) configured to deliver water to the dispensing valve assembly (16), wherein the dispensing valve assembly (16) is operable to mix and dispense syrup and water.