Intelligent concentrate mixing and delivery devices, systems, and methods are described. An intelligent concentrate mixing and delivery device includes at least one ingredient storage device (e.g., an ingredient cartridge) configured to store one or more ingredients and at least one micro-ingredient pump configured to pump the one or more ingredients into a mixing chamber. The mixing chamber reconstructs at least one finished concentrate from the one or more ingredients. The intelligent concentrate mixing and delivery device further includes at least one pump configured to pump the finished concentrate into a beverage dispensing system.

A dosing pump for dosing metered amounts of liquid product, includes an inlet adapted to be fluidly connected to a storage container, an output adapted to be connected to a beverage dispensing machine for receiving metered amounts of liquid product, and a dosing chamber arranged for transferring a liquid from the inlet to the output. The dosing chamber is at least partly filled with a liquid different from the liquid product. The different liquid can be a cleaning fluid, or be food compliant. The dosing pump can be included in an exchangeable supply pack filled with the liquid product for connecting to a beverage dispensing machine, and the output can be adapted to be brought into fluid connection with a beverage dispensing machine. When associated with a beverage dispensing machine, the dosing pump can be operated to allow the different fluid to be pumped through the beverage dispensing machine prior to a first dosing cycle of liquid product.

A flexible container (80) includes a reservoir part (82) that reserves a liquid and a discharge passage part (81) that communicates with the reservoir part (82) to take out the liquid. A discharge pump includes a plurality of roller parts (50) that press the discharge passage part (81) and an endless transfer mechanism unit (60) that has the plurality of roller parts (50) attached at a predetermined interval and causes the roller parts (50) to go around. The endless transfer mechanism unit (60) has an arrangement including a straight-line portion in which the roller parts (50) linearly move, in a path of the go-around movement. An attachment interval of the plurality of roller parts (50) is set to such an interval that before a certain roller part (50) going around reaches a position where the certain roller part (50) does not press the discharge passage part (81), a subsequent roller part (50) is able to reach a position where the subsequent roller part (50) presses the discharge passage part (81). Each of the roller parts (50) linearly moves sequentially in a discharge direction of the liquid with respect to the discharge passage part (81) while pressing the discharge passage part (81).

A connector assembly controllably couples a plurality of containers in a box. Each container has a fitment having a channel. The connector assembly includes a valve assembly and an actuator. The valve assembly is movable between an unengaged position and an engaged position. The valve assembly includes a plurality of fitment receptacles. Each fitment receptacle is associated with a respective fitment. A liquid flow channel of the valve assembly couples the fitment receptacles to the outlet. The actuator is movable between an unlocked position and a locked position. The valve assembly is configured to move from the unengaged position to the engaged movement in response to movement of the actuator from the unlocked to locked positions. The fitments are inserted into the respective fitment receptacles in response to movement of the valve assembly from the unengaged position to the engaged position.

The present application provides a beverage dispensing system. The beverage dispensing system may include a diluent line in communication with a diluent, a flow meter and a variable flow control module positioned on the diluent line, a number of syrup lines in communication with a number of syrups, and a fixed flow control module positioned on the syrup lines. The variable flow control module controls the flow rate of the diluent through the diluent line based upon the flow rate of one of the syrups through one of the syrup lines.

A beverage server including: a main body having a space, the main body having a top end opened; an inner lid disposed on an upper part of the main body; and an outer lid put on the top end of the main body with the inner lid covered, the outer lid being configured to make the space hermetic, wherein the inner lid has a plurality of liquid pumping pipes to be inserted into the space, and a beverage discharge pipe communicating with the liquid pumping pipes, the beverage discharge pipe being configured to discharge a beverage from the space to outside the main body, the outer lid has a pump configured to feed air to the hermetic space, and a manipulation member configured to switch between discharging a beverage and discharging no beverage, and the pump is operated by switching the manipulation member to discharging a beverage.

A container is provided to contain a liquid to be used in a liquid dispenser that is space-saving and enables checking of the amount of remaining liquid, a refilling operation, and maintenance to be readily performed. A stock solution container in which a concentrated stock solution is to be contained and that is to be used in a beverage dispenser to eject a beverage constituted by the concentrated stock solution and a diluent includes: a containing portion having a bag shape and is to contain the concentrated stock solution; and an ejecting portion for ejecting the concentrated stock solution to the outside, the ejecting portion being provided to protrude from the containing portion. An ejection port is provided at a leading end of the ejecting portion, and the concentrated stock solution is ejected from the ejection port as the containing portion deforms based on an external force.

Kegs of beer may be connected in parallel alongside one or more valves that connect to a flushing fluid supply. When a beer is selected, the associated beer valve opens so that beer can be dispensed. After a pour is completed, the system automatically flushes the beverage tubing line clean by opening a flushing fluid valve, allowing flushing fluid to cleanse the line. This flushing of the line enables the system to dispense a beer from a recently flushed line for each pour, and/or dispense many different beers because leftovers of a beer from an earlier pour do not contaminate the line for later pours. The system is also configured to measure the time poured based on information from a sensor in a dispenser (e.g., a tap handle). The time poured and a measured flow rate are used to calculate the total price to charge a customer for the beer.

Systems and methods, including a system for metering, mixing, and dispensing liquids, such as alcoholic and non-alcoholic liquids and solutions, are provided. In one instance, the system includes a controller operatively coupled to a first pump and a second pump. The first pump and the second pump are coupled to a first liquid source and a second liquid source, respectively. The controller controls flow rates at each of the first pump and the second pump. The system includes a valve coupled to a source supply of a third liquid, including pressurized carbonated water. The system includes a fluid connector coupled to the first pump, the second pump, the valve, and a dispenser. The connector receives the first liquid, the second liquid, and the third liquid, such that a fourth liquid, including a combination of the first liquid, the second liquid, and the third liquid, is dispensable from the dispenser.

A dispenser for preparing beverages are provided. In one embodiment, the dispensing system includes a housing, a carbonation assembly disposed within the housing, and a drawer slidably mounted to the housing. The carbonation assembly is configured to selectively carbonate a fluid. The drawer is configured to seat at least one additive container. The dispensing system is configured to selectively dispense an additive contained within an additive container in the drawer from a first outlet, and is configured to dispense a fluid from a second outlet separate from the first outlet.