A heated and chilled water dispenser comprising: a housing; an input port fast with the housing for connection to a mains pressure water supply; at least one chilled water container arranged to receive water from the input port; a water chilling assembly arranged to cool said at least one chilled water container; at least one hot water tank including a heating element and a water receiving arrangement to receive water from the input port, the water receiving arrangement including an inlet valve responsive to water level; an inlet plenum associated with the inlet valve, the plenum being coupled with the input port to receive water, the plenum further comprising a fill pipe coupled to the hot water tank for supplying water to the hot water tank; a thermostat coupled to said at least one hot water tank for controlling the heating element and thus temperature of water within the hot water tank; a two way outlet tap configured for dispensing hot water from the hot water supply or chilled water from the chilled water container in accordance with a user's selection; a liquid delivery device coupled to said at least one hot water tank for supplying hot water from the hot water tank, said device being arranged to be actuated by the outlet tap.

A beverage dispenser for dispensing beverage from one or more beverage units. Each of the beverage units includes a respective beverage unit outlet, and a respective support structure supporting beverage and orienting the respective beverage unit outlet. The dispenser includes a refrigerator in which the beverage unit(s) are receivable; a respective inlet, within the refrigerator, for each of the beverage units; at least one a dispensing outlet for dispensing beverage into drinking vessels; one or more fluid paths from the inlet(s) to the dispensing outlet(s); a guide arrangement co-operable with the support structure(s) to guide the beverage unit(s) so that each respective beverage unit outlet co-operates with its respective inlet to form a respective dry break connection through which beverage is conveyable on route to the dispensing outlet(s) via the fluid path(s).

The present disclosure relates to liquid dispensing arrangements, and particularly to arrangements for distribution of a dispensed liquid.

The present invention discloses a beverage dispenser, having a supply opening adapted for supplying an aqueous liquid from a source of aqueous liquid, wherein the supply opening is couplable to the source of aqueous liquid; a recooling heat exchanger having a heat receiving portion, a recooling inlet and a recooling outlet, wherein the supply opening is coupled with the recooling inlet; a reverse osmosis filter having an inlet for aqueous liquid, a permeate outlet and a concentrate outlet, wherein the recooling outlet of the recooling heat exchanger is connected to the inlet of the reverse osmosis filter; and a cooling device having a cooling portion extracting heat energy from the permeate and a heat dissipation portion dissipating energy to the heat receiving portion of the recooling heat exchanger; wherein the heat dissipation portion of the cooling device is thermally coupled with the heat receiving portion of the recooling heat exchanger; and wherein the cooling portion of the cooling device is thermally coupled with the permeate exiting the permeate outlet of the reverse osmosis filter, wherein the permeate enters the cooling portion by a cooling portion permeate inlet and exits the cooling portion by a cooling portion permeate outlet.

A water dispenser and a method of controlling a water dispenser are provided. The water dispenser may control power output of an induction heater having a hot water module based on changes in flow rate of water supplied or a temperature of water discharged.

The present invention relates to a beverage preparation device (1) comprising a beverage preparation section (2) for preparing and dispensing a beverage product, a water supply (4) for supplying water to the beverage preparation section (2) for beverage preparation, and an additive supply (6) for supplying beverage additives to the beverage preparation section (2) to be mixed with water from the water supply (4) for beverage preparation. The additive supply (6) comprises a storage section (10) for housing and storing containers (12) respectively carrying a beverage additive. The additive supply (6) comprises a cooling device (16) for cooling the containers (12) stored in the storage section (10).

A nozzle for beverage dispensing. The nozzle accepts both hot water lines and cold water lines at the nozzle, where the water may be carbonated or still. Cold carbonated water is received near the top of a double cone-shaped insert within the nozzle interior. The cold carbonated water is depressurized prior to being fully exposed to atmospheric pressure by passing the cold carbonated water down and around the double cone-shape of the insert. The depressurized cold carbonated water is collected via a funnel, and is dispensed from the nozzle after exiting the funnel bottom. Hot water is received in chamber within the nozzle separate from the passageway through which the cold carbonated water flows. Both hot and cold water streams are directed to flow in a tight and narrow downward direction via flow straighteners, and the streams are mixed with flavoring after dispensing from the nozzle.

Systems and methods for dispensing consumable liquids are disclosed. An example networked system includes a server and a plurality of beverage dispenser stations. Each of the beverage dispenser stations includes a filler including a filler outlet configured to deliver a beverage into a container, an RFID reader configured to read an RFID tag fixed to a water filter through which water for the beverage is to flow, and a controller. The controller is configured determine a duration-of-use of the water filter and a volume of water that has passed through the water filter. Each of the beverage dispenser stations also includes a network communications interface configured to communicate the duration-of-use and the volume of water to the networked administrative server to track use of the water filter among the plurality of beverage dispenser stations.

A beverage-making apparatus includes a fermentation tank assembly including a fermentation tank having an opening formed therein and a fermentation tank cover configured to open and close the opening. The beverage-making apparatus also includes a refrigeration cycle apparatus including a compressor, a condenser, an expansion device, and an evaporator. The refrigeration cycle apparatus is configured to circulate a refrigerant therethrough and to control a temperature of the fermentation tank as the evaporator is disposed at the fermentation tank. The beverage-making apparatus further includes a heat insulating wall surrounding both the fermentation tank and the evaporator.

A dispenser platform for receiving a product container, having a casing, wholly or partially encasing a control panel coupled a control module and a product container receptacle having a product container coupling assembly. The product container coupling assembly includes a first product supply conduit configured to receive a barrel of a product container. A second product supply conduit couples to a reservoir or to a supply of a second product, such as water. The product container holds a first product, such as concentrated coffee, concentrated tea, concentrated flavored drink, flavored syrup (cola) or concentrated juice. Components of the dispenser platform include a pump assembly, a heating and/or cooling assembly responsively coupled to a control panel via a control module and a filter assembly. The product container can be a BOV container or an airless dispensing container.