Examples disclosed herein relate to a dispensing device including a product unit with a pressure which transmits one or more products to an infuser, a water source with one or more CFValves that transmits water to the infuser, a gas source which transmits one or more gases to the infuser, and a dispensing area which dispenses a mixture generated via the infuser from a product unit input, a water source input, and a gas source input.

A beverage dispenser includes a gas infusion device configured to infuse a gas into a base liquid to form a gas-infused liquid, a mixing chamber configured to mix the gas-infused liquid and a concentrate to thereby form a reconstituted beverage, a first flow control configured to decrease pressure of the gas-infused liquid prior to mixing with the concentrate, and a second flow control configured to decrease pressure of the concentrate prior to mixing with the gas-infused liquid. A restrictor device downstream from the mixing chamber and configured to apply backpressure on the concentrate and the gas-infused liquid, and a dispensing valve is configured to dispense the reconstituted beverage.

A cock (10) that receives and discharges the carbonated water from a nozzle (70) includes: a first flow path (4S); and a second flow path (46). A flow path transverse Closs-section has an annular shape. The second flow path has an outer diameter larger than that of the first flow path and having a flow path cross-sectional area smaller than that of the first flow path; and a shaft (50) which forms the inner circumferential surface of the second flow path. the shaft having a ring-shaped groove (52) formed over the outer circumference of the shaft in a part of the second flow path that is connected to the first flow path, wherein a longitudinal center axis line (C1) of the first flow path is nonparallel to and does not intersect with a longitudinal center axis line (C2) of the second flow path.

Agitating a plurality of fluid packages in a tower. The housing tower may include a stationary tower as well as an agitation device. The agitation device may include an agitation chassis assembly and an agitation rack tower. The plurality of fluid packages may be received at the agitation rack tower. Once received, the plurality of fluid packages may be connected to a pump assembly, wherein the pump assembly is located at the agitation chassis assembly. In addition, the agitation rack tower may be agitated relative to the agitation chassis assembly about a pivot point located on the agitation rack tower.

The present application provides a beverage dispensing system. The beverage dispensing system may include a nozzle, a first beverage component with a first ingredient in communication with the nozzle via a first pump, and a second beverage component with the first ingredient and a second ingredient in communication with the nozzle via a second pump. The first pump and the second pump may vary the flow rate of the first beverage component and the second beverage component to the nozzle to create different beverages

A beverage production system, comprising a cup dispensing station configured to dispense cups, a beverage dispensing station configured to dispense a beverage, and a turntable assembly. The turntable assembly comprising a central axis, an inner turntable including a first row of cup receptacles, and an outer turntable including a second row of cup receptacles. The outer turntable is disposed circumferentially about the inner turntable, and the outer turntable is configured to rotate about the central axis to align the cup receptacles of the second row with the cup dispensing station and the beverage dispensing station. The turntable assembly is configured to align an opening in a cup receptacle in the second row with an opening in a cup receptacle in the first row. A slide assembly includes an arm configured to slide a cup positioned in the cup receptacle in the second row into the aligned opening of the cup receptacle in the first row.

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 beverage dispenser and process of dispensing beverages from a beverage dispenser may include causing an ingredient in the form of a fluid to be drawn from a storage container through a conduit. An electrical conductivity of the fluid ingredient may be sensed within the conduit. A determination as to whether the electrical conductivity of the fluid ingredient crosses a threshold level may be made, and if so, the beverage dispenser may be disabled from dispensing beverages containing the fluid ingredient, otherwise, the beverage dispenser may be enabled to dispense beverages containing the fluid ingredient.

A post-mix drink dispenser includes a mixer body securable to a drink dispensing system and having at least one beverage concentrate inlet and outlet sheltered within a downwardly open cavity in the bottom thereof; a diluent channel formed exterior to the cavity and about a lower sidewall of the mixer body; and a nozzle housing securable in place about the mixer body. The dispenser includes an air channel formed in a wall portion of the nozzle housing, a diffuser to organize flows of diluent along the interior surface of the nozzle housing, or both a vent and a diffuser. The air channel includes provisions to impede ingress of diluent, and to contain flow through the channel of liquid beverage components. The diffuser may be formed unitary with the nozzle housing, or may be selectively removable from the drink dispenser.

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.