A post-mix beverage dispenser utilizing a liquid concentrate in a self-pressurized container is provided. The beverage dispenser includes a connector and flow control valve to regulate the pressure of the liquid concentrate in the system. The liquid concentrate and diluent are mixed at the nozzle of the post-mix beverage dispense.

Dispensing assembly (10) comprising a container (1), containing a pressurized beverage, connected to or provided with a dispense assembly, wherein the dispense assembly comprises an outlet channel (12) closable by a valve body (16) and a chamber (14) between the container (1) and the valve body (16), which chamber (14) is at least partly closed by a movable and/or deformable wall part (28) connected to the valve body (16) or a valve seat, such that pressurized beverage from the container filling the chamber forces the wall part (28), into a position biasing the valve body (16) or the valve seat in a position closing the outlet channel (12) and by pushing the wall part the valve body (16) or the valve seat can be forced into a position opening the outlet channel (12), wherein preferably at least during use there is an open connection between said chamber (14) and a beverage compartment of the container (1).

The present disclosure relates to an integrated liner-based system having an overpack and a liner provided within the overpack, the liner comprising a mouth and a liner wall forming an interior cavity of the liner and having a thickness such that the liner is substantially self-supporting in an expanded state, but is collapsible at a pressure of less than about 20 psi. The liner and overpack may be made by blow molding the liner and the overpack at the same time using nested preforms.

A dispensing apparatus (20; 300; 400) comprises: a freezing cylinder (40); a water flowpath (526); a first controllable valve (130) along the water flowpath; a syrup flowpath (528), merging with the water flowpath and proceeding as a water/syrup flowpath (552) to the freezing cylinder; and a second controllable valve (132) along the syrup flowpath. The first controllable valve and the second controllable valve each comprise: a valve body (144; 432) having a cartridge compartment (164,166), an inlet (176) to the cartridge compartment, and an outlet (178) from the cartridge compartment; and a valve cartridge (162). The valve cartridge comprises: a cartridge body (200) mounted in the cartridge compartment; a valve element (222) carried by the cartridge body and shiftable between a first condition permitting communication between the inlet and the outlet and a second condition blocking communication between the inlet and the outlet; and a solenoid (224) carried by the cartridge body and coupled to the valve element to drive movement of the valve element.

The inventive system and method advantageously enable superior preserved storage and selective dispensation of liquids by storing wine (or other liquids) in a pressurized environment to ensure that the stored liquid does not come into contact with air, and then by selectively dispensing a portion of the stored liquid, in accordance with a desired dispensing regime, by utilizing a controlled source of pressure force to apply a sufficient pressure to the pressurized environment to expel the desired volume of the liquid in a pressurized stream directed to a dispensing/pouring interface through a conduit or equivalent delivery system. In at least several novel embodiments thereof, the system and method of the present invention are configured for use with wine-in-bag (WinB) products.

A bag-in-bag-in-bottle assembly formed by a flexible dispensing container with a dispensing fitment. The dispensing container is positioned adjacent or sandwiched between one or more flexible pressurization containers having a separate inlet/outlet path through a second fitment. The bag-in-bag assembly can then be placed in a containment vessel with the fitments mounted such that it is accessible on the vessel. A liquid can be extracted from the dispensing container by introducing a fluid into the pressurization container(s) with enough pressure to force the liquid out through the dispensing fitment. A contoured dispensing head may be coupled to the bag-in-bag-in-bottle assembly using a cam actuation arrangement for simultaneously locking the pressurization, vent and fluid extraction couplings.

A system and method for dispensing fluids is introduced. A preferred embodiment comprises a sealed tank, a bag containing fluid inside the sealed tank, an outlet for dispensing the liquid in the bag, and a pressure generating device to create pressure in the sealed tank.

The disclosure relates to a sealing unit for sealing a container wall opening. The sealing unit comprises inner and outer housings defining a gas flow passage arranged between an outer surface of the inner housing and an inner surface of the outer housing. The inner housing is movable in axial direction between a first axial position wherein the gas flow passage is closed and gas is prevented from flowing into or out of the container and a second axial position wherein the gas flow passage is open and gas is allowed to flow in a generally axial direction into or out of the container. The sealing unit also includes a biasing element arranged between the outer and inner housings and configured to urge the movable inner housing to move to the first axial position. A liquid flow passage including a liquid seal unit is defined inside the inner housing.

A collapsible bag for use in dispensing gaseous fluids, the collapsible bag including three collapsible enclosures. Two of the collapsible enclosures have respective fluid paths extending from internal to external of the outer enclosure. The configuration of the food quality of an inner enclosures and the integrity of the third outer enclosure and as well as the relative volume of one inner enclosure to the outer enclosures effects the dispensing mechanism of the pressure which allows transfer of the pressure without fluid interaction to another of the at inner collapsible enclosures and selective dispensing.

The present invention is directed to a system for fully dispensing liquid from a bulk shipping container. The system includes a bulk bin and a cassette disposed therein. The cassette includes a cassette board, a liquid bag having inlet and outlet ports and an air inflated bag that is attached to the liquid bag. The air bag includes an air inlet port formed at one end thereof and used for inflating the air bag from a source of pressurized air. The air bag further includes an obstruction region defined by a weld line that is formed on an opposite end from the air inlet port to redirect the pressurized air within the air bag when inflating the air bag reaches a level at which the pressurized air counteract the liquid pressure within the liquid bag so as to urge the liquid toward the outlet port of the liquid bag.