A fluid mixture dispensing system using a membrane to seal multiple reservoirs is disclosed. The multiple reservoirs each contain a respective ingredient. The reservoirs are coupled to respective orifices in a plate. The respective ingredients are dispensable via the respective orifices. The membrane seals the respective orifices. The ingredients are dispensed into one or more channels formed between the membrane and the plate. In specific embodiments, the membrane is an integral part of a cartridge which contains the multiple reservoirs. In specific embodiments, the cartridge includes an inlet and an outlet. A solvent flows from the inlet to the outlet through the one or more channels, and the ingredients are dispensed into the solvent in the one or more channels.

A fluid mixture dispensing system using a membrane to seal multiple reservoirs is disclosed. The multiple reservoirs each contain a respective ingredient. The reservoirs are coupled to respective orifices in a plate. The respective ingredients are dispensable via the respective orifices. The membrane seals the respective orifices. The ingredients are dispensed into one or more channels formed between the membrane and the plate. In specific embodiments, the membrane is an integral part of a cartridge which contains the multiple reservoirs. In specific embodiments, the cartridge includes an inlet and an outlet. A solvent flows from the inlet to the outlet through the one or more channels, and the ingredients are dispensed into the solvent in the one or more channels.

Fluid mixture dispensing systems, devices and methods are disclosed. A device includes a set of pressurized ingredient reservoirs, a mixing area configured to receive at least one ingredient from the set of pressurized ingredient reservoirs, a pressure source, an accumulator chamber, a set of valves, and a controller. The controller is programmed to operate the set of valves to pressurize the accumulator chamber using the pressure source. The controller is further programmed to operate the set of valves to set a pressure in at least one of the set of pressurized ingredient reservoirs using the accumulator chamber.

Systems and methods have demonstrated the capability of rapidly cooling the contents of pods containing the ingredients for food and drinks.

Systems and methods have demonstrated the capability of rapidly cooling the contents of pods containing the ingredients for food and drinks.

Systems and methods have demonstrated the capability of rapidly cooling the contents of pods containing the ingredients for food and drinks.

Systems and methods have demonstrated the capability of rapidly cooling the contents of pods containing the ingredients for food and drinks.

A Clean in Place assembly for a food processor includes a self-cleaning valve assembly, wherein the self-cleaning valve assembly is in fluid communication with a food flow path in the food processor. The self-cleaning valve assembly includes a valve receiving chamber and valve configured to selectively fluidly connect a food flow path inlet port to a food flow path outlet port; fluidly connect the food flow path inlet port to a multivalent port; and fluidly connect a treating solution to a dead space between the valve and the valve receiving cavity. Food product can be selectively drained or retained in food flow path, wherein the self-cleaning valve can be continuously or intermittently exposed to a treating solution for treating non-food flow path portions of the self-cleaning valve assembly.

A Clean in Place assembly for a food processor includes a self-cleaning valve assembly, wherein the self-cleaning valve assembly is in fluid communication with a food flow path in the food processor. The self-cleaning valve assembly includes a valve receiving chamber and valve configured to selectively fluidly connect a food flow path inlet port to a food flow path outlet port; fluidly connect the food flow path inlet port to a multivalent port; and fluidly connect a treating solution to a dead space between the valve and the valve receiving cavity. Food product can be selectively drained or retained in food flow path, wherein the self-cleaning valve can be continuously or intermittently exposed to a treating solution for treating non-food flow path portions of the self-cleaning valve assembly.

An interface assembly for a frozen dessert machine is disclosed that includes a freezer door having opposed front and rear sides and including at least one recessed mounting pocket formed in the rear side thereof, the at least one recessed mounting pocket including a cornice covering an upper portion thereof, and at least one elongated baffle having opposed proximal and distal end portions, the proximal end portion of the at least one baffle including a retention flange that is dimensioned and configured for detachable reception within the at least one mounting pocket of the freezer door behind the cornice.