A mixed drink producing apparatus as well as to a household refrigeration apparatus with a mixed drink producing apparatus with a dispensing container, which is formed for receiving a liquid addable to a cooled mixed drink by the mixed drink producing apparatus and which is connected to a dispensing unit of the mixed drink producing apparatus for conducting the liquid from the dispensing container to the dispensing unit, wherein the mixed drink producing apparatus has a gas adding unit for adding carbonizing gas to the first liquid, and the mixed drink producing apparatus has at least one inline mixer, by which the carbonizing gas added to the liquid can be disintegrated. There is also described a method for producing a mixed drink.

A drink station is provided with an alkaline filter cartridge in fluid communication with an ambient temperature water line provide alkaline water, and with a chilled water mixed with the alkaline water at a spigot to provide chilled alkaline water. A hot water heating element is located below the spigot so hot water flows upward for dispensing from the spigot, with a vent line between the heating element and spigot helping hot water to flow from the spigot to the heating element. A refrigeration system and a carbonation system is also provided. The refrigeration system uses the ice-bank technology. A submersible agitator pump improves heat exchanged between ice-bank and water by forced convection. The agitator pump operating based on the temperature of the drinking water. A figure eight evaporator coil can provide two cylindrical ice banks and two chilled water coils to increase the chilled water capacity.

An inline gas/liquid infusion system featuring an electronic control logic and subsystem having a signal processor configured to: receive signaling containing information about a liquid pressure of an incoming liquid provided from a pump to an inline gas liquid absorption device and about a gas pressure of an incoming gas provided to the inline gas liquid absorption device; and determine corresponding signaling containing information to control the liquid pressure of the incoming liquid provided from the pump to the inline gas liquid absorption device in order to provide real time adjustable set point output levels of gas absorption in the inline gas liquid absorption device, based upon the signaling received.

A dispenser head for in-line mixing and dispensing of beverages, which may be carbonated or nitrogenated. The dispenser head comprising a pump, a dilution mechanism, an additive mechanism, and outlet nozzle and optionally a regulation system. In use, the pump can pump concentrate liquid for the liquid product from a concentrate source to the dilution mechanism; the dilution mechanism can receive diluent liquid suitable for the liquid product from a diluent source, operable to mix the diluent liquid and the concentrate liquid and provide diluted concentrate liquid; and the additive mechanism can receive additive fluid for the liquid product from an additive source, to combine the diluted concentrate liquid and the additive fluid. The regulation system comprises a pump regulator means for regulating the quantity of concentrate liquid pumped into the dilution mechanism within the dispense period; a diluent quantity regulator means for regulating the flow of diluent liquid into the dilution mechanism; and an additive quantity regulator means for regulating the flow of additive fluid into the additive mechanism. Preferably, the dispenser head is a unitary device, which may be supplied attached to a vessel containing the concentrate.

A home beverage dispensing device for dispensing servings of a beverage, having a vessel for holding a volume of liquid. This vessel may be equipped with a refrigeration unit, or may be comprised of a removable pitcher that may be put in an external refrigerator. This invention is equipped with a radio communications controller to provide for the ability to communicate over radio frequencies such as Wi-Fi and Bluetooth. A special disposable beverage cartridge or beverage pouch fits into the holder. This cartridge or pouch may have pressure rupturable seals or diaphragms and contain beverage concentrate. The mixing structure also receives the optionally chilled liquid from vessel for holding a volume of liquid, and ensures that the concentrate mixes with the liquid without contacting the walls of the mixing structure.

A device for dispensing individual servings of a cold beverage with Wi-Fi connectivity, either having a refrigeration unit to chill the beverage or a removable pitcher that may be put in a refrigerator. A special disposable beverage cartridge or beverage pouch fits into the holder. This cartridge or pouch may have pressure rupturable seals or diaphragms and contain beverage concentrate. A dispensing mechanism puts pressure on the cartridge or the pouch to break the pressure rupturable seal or diaphragm to discharge the concentrate into a mixing structure. The mixing structure also receives chilled liquid from the refrigeration unit or the pitcher, and ensures that the concentrate mixes with the liquid without contacting the walls of the mixing structure.

A device for dispensing individual servings of a cold beverage, either having a refrigeration unit to chill the beverage or a removable pitcher that may be put in a refrigerator. A special disposable beverage cartridge or beverage pouch fits into the holder. This cartridge or pouch may have pressure rupturable seals or diaphragms and contain beverage concentrate. A dispensing mechanism puts pressure on the cartridge or the pouch to break the pressure rupturable seal or diaphragm to discharge the concentrate into a mixing structure. The mixing structure also receives chilled liquid from the refrigeration unit or the pitcher, and ensures that the concentrate mixes with the liquid without contacting the walls of the mixing structure.

The present invention relates to a beverage making machine comprising a first beverage making cartridge comprising at least one of a gas source portion, the gas source portion contains a solid gas source that through sublimation emits a gas, and a gas storage tank arranged to store the gas emitted from the solid gas source. The beverage making machine further comprising a second beverage making cartridge comprising at least one of a micro ingredient, a beverage diluent receptacle for receiving a beverage diluent liquid, a dissolver dissolves portion of the gas, from the gas storage tank, into the beverage diluent liquid, and a dispenser selectively dispenses a predefined ratio of at least one of the micro ingredient and the beverage diluent liquid, to form a beverage. Exemplary embodiments include a computer control arranged to receive a beverage selection from a consumer and control the beverage making machine to form beverages.

Household appliance for dispensing drinking water enriched with a gas, with an outlet through which the enriched drinking water can be tapped, a flow-through enrichment unit upstream of the outlet for enriching the drinking water with the gas, a receptacle for a container with the gas, an inlet upstream of the flow-through enrichment unit, via which the drinking water can be fed to the flow-through enrichment unit, wherein the inlet is equipped with a first filter for filtering the drinking water and the outlet is additionally equipped with a second filter for filtering the enriched drinking water.

Carbonation apparatus is provided for carbonating a mixed input flow of pressurized and refrigerated carbon dioxide and water. A first cartridge is disposed within the carbonation chamber, defining a porous micromesh net in fluid communication with the input flow and a central cavity in fluid communication with the carbonation chamber output port. The micromesh net is configured to break up chains of water molecules passing through the net, to enhance bonding between the water and carbon dioxide molecules within the cartridge. The net also responds to the flow of water and carbon dioxide molecules impacting and passing through the net by generating a passive polarizing field that has a polarizing influence on the water molecules to further enhance bonding. Beads may be provided within the cartridge for capturing and stabilizing carbon dioxide molecules to yet further enhance bonding between the water and the carbon dioxide molecules.