A beverage dispenser has a diluent manifold that dispensing a first diluent, a second diluent, or a mixed diluent to a beverage dispensing valve that receives and dispense the first diluent, the second diluent, or the mixed diluent with a concentrate from a concentrate source. The diluent manifold has a first inlet configured to receive the first diluent, a second inlet configured to receive the second diluent and an outlet that dispenses the first diluent, the second diluent, or a mixed diluent comprising the first diluent and the second diluent. A flow control spool is included that selectively permits the first diluent, the second diluent, or both the first diluent and the second diluent to convey through the diluent manifold such that the first diluent, the second diluent, or the mixed diluent dispenses from the outlet.

The present application describes a product dispenser. The product dispenser may include at least one macro-ingredient source, at least one micro-ingredient source positioned about the dispenser, a diluent source, a dispensing valve, a number of pumps or metering devices, and a user interface. The user interface receives a request for a product type and instructs the pumps or metering devices to dispense a predetermined type and ratio of macro-ingredients, micro-ingredients, and diluent to the dispensing valve for a predetermined flow rate.

A control architecture for use with beverage product dispensers is provided. Instructions may be received at an interface module for performing one or more requested dispenser operations. The interface module may send the instructions to a dispense module. The dispense module may translate the instructions to predetermined commands associated with a dispenser. The one or more requested dispenser operations may then be performed based on the predetermined commands from the translated instructions.

This invention relates to a beverage delivery vending system that provides the consumer with the option of choosing ingredients of their choice, using a computer touchscreen that is connected to a computing system. The ingredients chosen are delivered using a frozen food delivery system. The ingredients are blended using a blending system and dispensed through solenoid valves and into a disposable cup, which is dispended by a cup-dispenser unit. The ingredients are mixed inside the disposable cup using a sanitary mixer. The consumer has the option of payment for the drink in cash, by debit card, and/or credit card.

The present invention discloses a system and method for sequentially toggling a peristaltic pump disposed within a thermal cubicle for order-specific mixing of ingredients in a intermediary reservoir based on a recipe flow logic, the method comprising the steps of: receiving data input from a user via the user interface; based on the received input data, controlling at least one thermoelectric element disposed within an outer shell and inner conductive lining of at least one thermal cubicle to heat or cool said thermal cubicle; and based on the received input data, sequentially pumping a heated or cooled ingredient into the at least one tubular piping in fluid communication with any one of, or combination of, an intermediary reservoir for order-sensitive mixing of at least one other ingredient and, or directly to the pour outlet for dispensing.

A beverage production system is provided that includes a cup dispensing station configured to dispense cups and a beverage dispensing station configured to dispense a beverage. The beverage production system also includes a turntable assembly having a central axis, an inner turntable including a row of cup receptacles, and an outer turntable disposed circumferentially about the inner turntable. The inner turntable configured to rotate about the central axis to align the cup receptacles of the row with the cup dispensing station and the beverage dispensing station. The turntable assembly configured to align an opening in the turntable assembly with a cup receptacle in the row, the opening adjacent the outer turntable. The beverage production system also having an actuator configured to move a cup positioned in the cup receptacle in the row onto the outer turntable.

The present application describes a product dispenser. The product dispenser may include at least one macro-ingredient source, at least one micro-ingredient source positioned about the dispenser, a diluent source, a dispensing valve, a number of pumps or metering devices, and a user interface. The user interface receives a request for a product type and instructs the pumps or metering devices to dispense a predetermined type and ratio of macro-ingredients, micro-ingredients, and diluent to the dispensing valve for a predetermined flow rate.

A dispensing manifold includes a first end configured to be coupled with a shank, and a second end opposite the first end. The second end is configured to be coupled with a faucet. The dispensing manifold further includes a center bore that extends through an interior of the dispensing manifold and connects the first end and the second end. One or more ingredient valves can be arranged on an outer circumference of the dispensing manifold, and each of the ingredient valves provide a selective fluid connection to the center bore.

The present application describes a product dispenser, such as a beverage dispenser. The product dispenser may include a nozzle, a first pump in fluid communication with a beverage base source and the nozzle, a second pump in fluid communication with a flavoring source and the nozzle, and a user interface for receiving a request for a beverage. The user interface may include a product button that represents a beverage base, and an additive button that represents a flavor, wherein in response to a first selection of the product button and a second selection of the additive button, the user interface may be adapted to instruct a dispense of the beverage base and the flavor to the nozzle at a given flow rate.

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.