A beverage dispensing machine includes a countertop for a conveyor that carries a plurality of cup holders around a track. A front side of the beverage dispenser machine is accessible by an operator to remove cups from the plurality of cup holders. A cup tower has a plurality of cup dispenser tubes that are each configured to hold a respective stack of cups. A cup grabber is movable up and down into and between a raised position in which the cup grabber is positioned to grab a cup from one of the stacks of cups and place a cup into one of the plurality of cup holders.

The present application provides a beverage dispensing system. The beverage dispensing system may include a cooler and a beverage dispenser positioned within the cooler. The beverage dispenser may include a nozzle, a flow of water, an internal carbonation system in communication with the flow of water and the nozzle, and a number of internal ingredient containers in communication with the nozzle such that the beverage dispenser produces a beverage at the nozzle within the cooler.

Intelligent concentrate mixing and delivery devices, systems, and methods are described. An intelligent concentrate mixing and delivery device includes at least one ingredient storage device (e.g., an ingredient cartridge) configured to store one or more ingredients and at least one micro-ingredient pump configured to pump the one or more ingredients into a mixing chamber. The mixing chamber reconstructs at least one finished concentrate from the one or more ingredients. The intelligent concentrate mixing and delivery device further includes at least one pump configured to pump the finished concentrate into a beverage dispensing system.

A service trolley for dispensing beverages includes a frame having an upper end opposite a lower end, and a tabletop arranged on the upper end of the frame. The trolley further includes wheels arranged on the lower end of the frame configured to allow the frame to roll on a surface. The trolley includes a beverage dispenser arranged within the frame that includes a multi-serve beverage container for storing a beverage, a dispensing head in communication with the beverage container via a conduit, and a pressurized vessel configured to contain a pressurized gas in communication with the beverage container so as to drive a flow of the beverage from the beverage container to the dispensing head.

The disclosure generally relates to an automated modular dispensing platform for creating customized beverages (e.g., using various sauces, syrups, sweeteners, colors and/or flavors added to a base beverage). The automated dispensing platform may simultaneously aggregate beverage modifiers or ingredients (e.g., sweetener, flavor, and/or color) and facilitate automated, efficient cleaning cycles for modular beverage dispensers.

The disclosure generally relates to an automated modular dispensing platform for creating customized beverages (e.g., using various sauces, syrups, sweeteners, colors and/or flavors added to a base beverage). The automated dispensing platform may simultaneously aggregate beverage modifiers or ingredients (e.g., sweetener, flavor, and/or color) and facilitate automated, efficient cleaning cycles for modular beverage dispensers.

A spirit dispenser that includes a cabinet that includes a back panel facing an interior of the cabinet, and a plurality of shelves, each shelf being able to support thereon a plurality of spirit containers; at least one spirit dispenser system integrated with the cabinet; and a plurality of pumps residing on an interior surface of the pack panel of the cabinet, each pump being connected to a first tube that includes a tap connector configured for connection to a tap of a spirit container supportable on one of the shelves of the cabinet, and a second tube that is connected to the spirit dispenser.

Non-electric fountain beverage dispensers for dispensing a variety of beverages without the use of electricity. The non-electric fountain beverage dispenser may include a gas container for storing a pressurized gas, a base liquid storage container for storing a base liquid, and a gas supply line that communicates pressurized gas from the gas container to the base liquid storage container and to a syrup storage container. Non-electric beverage dispenser further includes a mechanical dispensing valve in fluid communication with the base liquid storage container and the syrup storage container by means of a base liquid supply line and a syrup supply line, respectively, such that the mechanical dispensing valve is capable of selectively dispensing a mixture of the base liquid and the syrup. Non-electric fountain beverage dispenser further includes a non-electric cooling unit for cooling the base liquid without the use of electricity.

A service trolley for dispensing beverages includes a frame having an upper end opposite a lower end, and a tabletop arranged on the upper end of the frame. The trolley further includes wheels arranged on the lower end of the frame configured to allow the frame to roll on a surface. The trolley includes a beverage dispenser arranged within the frame that includes a multi-serve beverage container for storing a beverage, a dispensing head in communication with the beverage container via a conduit, and a pressurized vessel configured to contain a pressurized gas in communication with the beverage container so as to drive a flow of the beverage from the beverage container to the dispensing head.

The present system generally relates to a fluid flow system where a controller and motor pump assemblies are used to optimize the control of fluid flow through the system. The controller samples the back electromotive force of the motor and pump assemblies and is able to utilize the sampled back electromotive force in conjunction with predefined target back electromotive force values, preferably empirically determined and tuned to an induvial motor and for a select fluid, to tune the voltage applied to the system, control the back electromotive force of the system and, by extension, control the flow of fluid.