The disclosure concerns a dispensing system having a multi-tower modular dispensing system that includes at least a first dispensing head and a second dispensing head at a counter and a transfer unit located remotely from the counter. Piping extends from the transfer unit to the counter. The transfer unit includes a centralized ingredient system having a plurality of beverage ingredient sources. The centralized ingredient system is configured to supply beverage ingredients to the piping for the dispensing of a first beverage at the counter. The piping includes a main micro bundle that includes at least two separate beverage ingredient lines.

The present application thus provides a beverage dispensing system for combining a macro-ingredient flow and a carbonated water flow. The beverage dispensing system may include a nozzle, a carbonated water source in communication with the nozzle via a carbonated water conduit and a carbonated water recirculation conduit, a macro-ingredient source in communication with the nozzle via a macro-ingredient conduit, and a macro-ingredient pump and an air chamber in communication with the macro-ingredient conduit. The carbonated water recirculation conduit is in communication with the air chamber for heat exchange therewith.

Beverage dispensing apparatus, systems, and related methods are provided that have a recirculation loop to cool fluids in a dispensing tube bundle that delivers beverage fluids to a beverage dispensing assembly. A beverage dispensing apparatus includes an adjustable bypass manifold having an adjustable flow restriction that is configurable to enable the use of the beverage dispensing apparatus with different chilled soda recirculation systems. The adjustable bypass manifold includes ports for connection to the recirculation loop and ports for connection to a soda recirculation system.

Beverage dispensing apparatus, systems, and related methods are provided that have a recirculation loop to cool fluids in a dispensing tube bundle that delivers beverage fluids to a beverage dispensing assembly. A beverage dispensing apparatus includes an adjustable bypass manifold having an adjustable flow restriction that is configurable to enable the use of the beverage dispensing apparatus with different chilled soda recirculation systems. The adjustable bypass manifold includes ports for connection to the recirculation loop and ports for connection to a soda recirculation system.

Beverage dispensing apparatus, systems, and related methods are provided that have a recirculation loop to cool fluids in a dispensing tube bundle that delivers beverage fluids to a beverage dispensing assembly. A beverage dispensing apparatus includes an adjustable bypass manifold having an adjustable flow restriction that is configurable to enable the use of the beverage dispensing apparatus with different chilled soda recirculation systems. The adjustable bypass manifold includes ports for connection to the recirculation loop and ports for connection to a soda recirculation system.

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 double cooled draft beer machine comprises a cabinet, and there is a refrigeration circuit inside the cabinet, including a compressor, a condenser, and an evaporator. Inside the cabinet, there is a cold storage chamber used to hold the cask, and the evaporator can refrigerate the cold storage chamber. A beer pipe and a refrigeration tube which can refrigerate the beer pipe are also arranged inside the cabinet. The refrigeration tube is connected to the refrigeration circuit and in parallel with the evaporator. In the refrigeration circuit, at least one solenoid valve is set up. The present double cooled draft beer machine also comprises a relay and the first thermostat. The first thermostat is in series with the relay, and the contacts of the relay are connected to the solenoid of the solenoid valve, as well as the compressor.

The disclosure concerns a system including a multi-tower modular dispensing system comprising at least a first dispensing head and a second dispensing head at a counter, a transfer unit located remotely from the counter, piping extending from the transfer unit to the counter, the transfer unit comprising a centralized ingredient system having a plurality of beverage ingredient sources, the centralized ingredient system configured to supply beverage ingredients to the piping for the dispensing of a first beverage at the counter, the piping comprising a main micro bundle, the main micro bundle comprising at least two separate beverage ingredient lines.

A beverage dispensing assembly 10 comprises a beverage distribution python 18 extending between a beverage storage area and a beverage tapping area. The beverage distribution python 18 comprises a liquid carrying line defining a center line 22. The liquid carrying line comprises a beverage tube 16 and/or a beverage guide tube. The beverage distribution python 18 further comprises a pipe 34 covering the liquid carrying line in a coaxial relationship to the center line and establishing a space in-between the pipe 34 and the liquid carrying line. An insulation layer 32 comprises at least 80% aerogel by volume is located in the space between the pipe 34 and the liquid carrying line and encircles the liquid carrying line.

A water dispenser system designed to provide enhanced functionality while maintaining the traditional form of conventional dispensers. The system is designed to cool and heat water and to integrate multiple water bottles of varying sizes and water levels. It is designed to operate consistently regardless of whether all water bottle connections are actively in use. The system can autonomously withdraw water from connected bottles, detect depletion in bottles, and switch to consuming available bottles with minimal user intervention. Water level regulation is maintained using float switches in the water tanks. The system supports simultaneous water withdrawal from multiple bottles, reducing the frequency of replacement. Water may be dispensed at hot, cold, or room temperature through corresponding outlet valves. The system does not require structural or plumbing modifications and preserves the external design of standard water dispensers while introducing smart, multi-bottle management.