Water dispensing apparatus comprises modular components including but not limited to an easily accessible water heating module and a water cooling module. The water dispensing apparatus further comprises a bracket for holding at least one of a valve and an expansion tank onto a hot water tank for easy removal of the same in case of repair or replacement. Moreover, the expansion tank comprises a check valve that opens to allow heated water to flow thereinto and closes after heated water has drained therefrom.

A water cooled draft beer machine comprises a cabinet, and there is a refrigeration circuit inside the cabinet, including a compressor, a condenser and refrigeration tubes. A water tank is arranged inside the cabinet, and the refrigeration tubes are coiled inside the water tank. Inside the cabinet, there is a cold storage chamber. A beer pipe is arranged inside the cabinet, and a beer tap is connected to the outside of the cabinet. The beer pipe coils inside the water tank, and is connected to the beer tap. A refrigeration box is arranged in the cold storage chamber, and the cold water tube coils inside the refrigeration box. The inlet end and the outlet end of the cold water tube are both connected to the water tank. An air inlet and an air outlet are set up on the refrigeration box. A fan is arranged inside the refrigeration box.

A liquid dispenser comprise a nozzle comprising an inlet in fluid communication with an outlet to form a flow path, a thermistor in fluid communication with the inlet, an actuator rod comprising a gasket rod tip viton, at least one centering pin to center the actuator rod in at least a portion of the flow path, a flowmeter in fluid communication with the inlet, a double acting pneumatic cylinder comprising a first pneumatic inlet and a second pneumatic inlet operatively connected to the actuator rod, and a switch lever operatively coupled to a micro switch, wherein the nozzle opens when gas enters the first pneumatic inlet when the switch lever is activated by pressing on the micro switch and closes when gas enters the second pneumatic inlet when the switch lever is deactivated. Portable and non-portable liquid dispensing systems comprising the liquid dispenser are also described.

A water dispenser is provided. The water dispenser may include a water tank to store water, a cooling module provided in the water tank to circulate cooling water to cool the water to make cold water, a drain valve that connects to the water tank and protrudes from the water tank to discharge the cooling water in the water tank, and a foam insulator that covers an outer circumferential surface of the water tank and contacts the drain valve to prevent the drain valve from being exposed to air.

An adapter for an airtight connection to a container and for airtight dispensing of the container's contents, the adapter having: a gate valve, a tube extending from the gate valve to a female coupling, the female coupling being configured for insertion in a mouth of the container, the female coupling having a dispensing valve for opening when dispensing the container's contents and closing when dispensing is finished as needed, such that air is prevented from entering the container, and an airtight connector for connecting the adapter to the container.

A beverage dispenser includes a gas infusion device that receives a base fluid and a gas and dispenses a gas infused liquid, a ratio pump that receives the gas infused liquid and a concentrate from a concentrate source and dispenses a predetermined ratio of the gas infused liquid and the concentrate, and a mixing chamber that mixes the predetermined ratio of the gas infused liquid and the concentrate to form a reconstituted beverage. An insulated enclosure has an interior space in which the ratio pump and the mixing chamber are positioned. A cooling heat exchanger is positioned in the insulated enclosure, and a first refrigeration system circulates a cooling media through the cooling heat exchanger to thereby cool the interior space to a suitable temperature such that the gas infused liquid and the concentrate dispensed from the ratio pump and the mixing chamber are cooled to the suitable temperature.

A beverage dispenser has a supply opening that supplies an aqueous liquid from a source; a recooling heat exchanger having a heat receiving portion, a recooling inlet and a recooling outlet; a reverse osmosis filter having an inlet for aqueous liquid, a permeate outlet and a concentrate outlet; 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. The heat dissipation portion of the cooling device is thermally coupled with the heat receiving portion of the recooling heat exchanger. 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.

The disclosure concerns a system including a modular dispensing system comprising a first module comprising a cold engine assembly, and a second module comprising a hot engine assembly. The system comprises a carbonator configured to dissolve carbon dioxide in water to form carbonated water. The cold engine assembly comprises a cold bath. A cold liquid mixer is configured to mix a concentrate and the carbonated water to form a cold ready-to-drink liquid. The hot engine assembly comprises a hot tank. A hot liquid mixer is configured to mix the hot water from the hot tank and a powder to form a hot ready-to-drink liquid. In an aspect, the cold engine assembly and the hot engine assembly form a single dispensing unit.

A beverage dispensing system includes a cabinet with a dispensing station. The cabinet includes therein a refrigeration system, a cooling fluid system, and a refrigerated compartment having therein a cooling system and a beverage source coupled with the dispensing station. The cooling fluid system circulates a cooling fluid through the refrigeration system such that the refrigeration system cools the cooling fluid. The cooling fluid system further normally circulates the cooling fluid through the dispensing station to cool beverage therein. The cooling fluid system directs the cooling fluid from the dispensing station to the cooling system when necessary to cool the refrigerated compartment. A beverage fluid system resides in the cooling fluid system between the beverage source and the dispensing station such that the cooling fluid system cools beverage flowing through the beverage fluid system prior to delivery of beverage to the dispensing station for dispensing therefrom.

A disposable tube unit (140) for a heat exchanger (130) for a beverage dispensing apparatus (100) is presented. The tube unit (140) is configured to guide a beverage through a tank (150) of the heat exchanger (130). The tube unit (140) includes a fluid inlet (142), a fluid outlet (144), and at least one tube (146) extending from the fluid inlet (142) to the fluid outlet (144). The tube unit (140) is configured to be mounted in the tank (150) and removed from the tank (150) in non-destructive manner. In a mounted state of the tube unit (140), the fluid inlet (142) is fluidically connected to the reservoir section (110) and the fluid outlet (144) is fluidically connected to the faucet (120).