A system comprising a pressurized container including a hollow portion and an outer portion, the pressurized container being airtight to maintain a pressure level in an environment in the hollow portion, a controllable pressure system coupled to the pressurized container to generate the environment, a transport system including two transport conduits coupled to two liquid volumes stored within the pressurized container, a pressure regulation system connected to the pressurized container, the pressure regulation system including a pressure conduit extending from the outer portion through a pressure interface and into the hollow portion, the pressure regulation system exerting and maintaining the pressure level within the pressurized container to enable compression of liquid volume in the environment, a temperature system to maintain temperature of the transport system, a temperature control system providing a temperature control signal to the temperature system, and a control system controlling the pressure regulation system.

An example system includes an incompressible, airtight pressurized container operable to maintain a pressure level in an internal pressurized environment, a transport system including at least two liquid transport conduits, and a mixing component, the two liquid conduits each being releasably coupled to a pressurized container interface coupled to the pressurized container and a dispensing interface, each liquid transport conduit including a controllable valve to enable or disable a flow of the liquid volume, the pressurized container interface capable of maintaining the pressure level, the mixing component being coupled to the at least two liquid transport conduits and the dispensing interface, a pressure regulation system connected to the pressurized container, the pressure regulation system operable to exert and maintain the pressure level within the pressurized container to enable compression of the first compressible liquid volume, and a control system operable to control the controllable valves and the pressure regulation system.

Reservoirs for fluid mixture dispensing devices, and fluid mixture devices adapted to include such reservoirs are disclosed. One disclosed fluid mixture dispensing device includes a controller programmed to actuate a set of valves and at least one pump to dispense a fluid mixture, having a final dispense volume, from the fluid mixture dispensing device. The fluid mixture dispensing device also includes a reservoir with a chamber with at least one inlet for receiving a liquid ingredient, a bottom of the chamber, which is continuously sloped towards a lowest point of the chamber, and a spout at the lowest point of the chamber. The chamber is shaped so that when the fluid mixture is in the chamber the fluid mixture flows laminarly out of the spout.

Reservoirs for fluid mixture dispensing devices, and fluid mixture devices adapted to include such reservoirs are disclosed. One disclosed fluid mixture dispensing device includes a controller programmed to actuate a set of valves and at least one pump to dispense a fluid mixture, having a final dispense volume, from the fluid mixture dispensing device. The fluid mixture dispensing device also includes a reservoir with a chamber with at least one inlet for receiving a liquid ingredient, a bottom of the chamber, which is continuously sloped towards a lowest point of the chamber, and a spout at the lowest point of the chamber. The chamber is shaped so that when the fluid mixture is in the chamber the fluid mixture flows laminarly out of the spout.

A beverage dispense head assembly is made of a liquor port assembly, a mixer port assembly, a diffuser and a mixing bowl. The liquor port assembly has liquor ports that dispense liquid at an inward angle and outside the mixing bowl. The mixer port assembly has a first mixer port that dispenses liquid into the diffuser, and a second mixer port that dispenses liquid directly into the cavity of the mixing bowl. The diffuser has a cavity that dispenses liquid onto a shoulder extending from the diffuser wall, and a flange with ports to allow liquid to escape from the diffuser and into the cavity of the mixing bowl. The mixing bowl has a second opening at a second end thereof providing an exit to the mixing bowl for the liquids therein.

A liquid dispensing system comprises a container enclosing a chamber. A flexible bag in the chamber contains a first liquid. First and second conduits are contained in the chamber. The first conduit connects the chamber to an outlet port in the container where the second conduit connects the bag to the first conduit. A supply source introduces a pressurized second liquid into the chamber. The first conduit serves to direct an existing flow of the second liquid from the chamber to the outlet port, with the pressurized second liquid serving to collapse the bag and expel the first liquid contained therein via the second conduit to the first conduit for mixture with the exiting flow of the second liquid. The second conduit lacks flow restrictions, such as metering orifices or the like.

An embodiment system and method for dispensing multiple dairy products includes a dispenser which houses two or more dairy product bases with different formulations, which may be combined with or without water to create a multitude of homogenous dairy beverages. The two or more dairy product bases may be mixed together first and then separately mixed with water, mixed together simultaneously with water, or mixed together without adding water. They may be mixed together with or without additional flavoring, ingredients, mineral or nutritional additives. The dispenser comprises a pump with a quick-release mechanism to allow for quick and clean maintenance of the system.

A machine for mixing and dispensing beverages includes a single manifold, a bottle restraining unit and a randomizing beverage activator. The manifold is connectable to a plurality of separate, pre-filled beverage holders of already prepared beverages and provides pre-defined portions of selected beverages to a dispensing outlet. The bottle restraining unit restrains the pre-filled bottles, which are either plastic bottles or glass bottles. The activator dispenses at least two beverages from the set of the beverage holders by randomizing an attribute of a drink. The attribute is chosen from an amount of the beverages and the beverage holders.

A cleaning device for cleaning a dispensing nozzle assembly of a beverage dispenser is disclosed. The dispensing nozzle assembly may include a macro-ingredient/diluent outlet and a number of micro-ingredient outlets surrounding the macro-ingredient/diluent outlet. The cleaning device may include a handle, a head end rotatably attached to the handle, a guidance protrusion extending from the head end, a first set of bristles extending from the head end and surrounding the guidance protrusion, and a second set of bristles extending from the head end adjacent to the first set of bristles.

A fluid integrating system (10) includes an integrating manifold (30) having two or more input fluid inlets (132) disposed at oblique angles relative to a center axis of the integrating manifold (30). The two or more input fluid inlets (132) intersect in the integrating manifold (30) to define an integrating chamber (112). The fluid integrating system also includes a pressure sensor (110) fluidly connected to the integrating chamber (112) that is operable to send a pressure signal indicative of the pressure of the fluid in the integrating chamber (112). A integrating controller (22) is operatively coupled to the two or more valves (60) and to the pressure sensor (110) and is operable to selectively control the flow of input fluids into the integrating chamber (112) by actuating the two or more valves (60) based on the pressure signal received from the pressure sensor (110).