A hand-held beverage dispenser includes a handle body, within which multiple valve units are contained. Two sets of fluid flow paths are provided into the handle body. The sets of fluid flow paths are mutually exclusive one to the other. Each flow path of the first set is in fluid communication with each valve unit, whereas only a predetermined one of the second set of fluid flow paths is in fluid communication with each valve unit. Each valve unit includes a flow control valve and a selection valve. The selection valve determines on an ad hoc basis which of the first set of flow paths will be utilized at any given time, while the flow control valve provides single action simultaneous ON-OFF control of fluid flows through both the selected flow path and the predetermined flow path.

A dispenser having a pedal actuator. The dispenser includes a valve operatively connected to a nozzle and which moves from a closed position to an open position to dispense an item, a first actuator operatively connected to the nozzle, and a second actuator located below the first actuator and operatively connected to the nozzle. The dispenser can be electro-mechanical and can include components capable of retrofitting onto existing dispensers.

A beverage dispenser is for dispensing a consumable beverage. A processing line having a fluid path with an input end is fluidly connectable to a source container of liquid for receiving liquid from the container via a driving force, and for processing the liquid into the consumable beverage to be dispensed. A Venturi injector is provided along a fluid segment of the fluid path of the processing line, the Venturi injector being configured for selectively and adjustably injecting gas bubbles into the consumable beverage to alter at least one resulting parameter of the consumable beverage to be dispensed. The beverage dispenser also includes a tap fluidly connectable to an output end of the fluid path of the processing line for receiving the consumable beverage with at least one resulting parameter having been altered, and for selectively dispensing the consumable beverage via an activation of the tap.

A beverage supply apparatus 100 includes milk tank 3, milk flow path L3, pump 7 for delivering a beverage, air flow path L6, pump 9 for supplying air configured to be capable of changing the discharge flow rate, release path L7 for discharging air flowing through air flow path L6 to the outside, on-off valve V7, first throttle part 16, and second throttle part 17. One end of release path L7 is connected to release point Z8 in air flow path L6, and the other end is open to the outside. On-off valve V7 is disposed in a flow path extending between release point Z8 and pump 9 in air flow path L6, and opens and closes this flow path. Throttle part 16 is disposed in a flow path extending downstream of release point Z8 in air flow path L6, and throttle part 17 is disposed in release path L7.

A beverage supply apparatus 100 includes milk tank 3, milk flow path L3, pump 7 for delivering a beverage, air flow path L6, pump 9 for supplying air configured to be capable of changing the discharge flow rate, release path L7 for discharging air flowing through air flow path L6 to the outside, on-off valve V7, first throttle part 16, and second throttle part 17. One end of release path L7 is connected to release point Z8 in air flow path L6, and the other end is open to the outside. On-off valve V7 is disposed in a flow path extending between release point Z8 and pump 9 in air flow path L6, and opens and closes this flow path. Throttle part 16 is disposed in a flow path extending downstream of release point Z8 in air flow path L6, and throttle part 17 is disposed in release path L7.

Examples disclosed herein relate to conduits, devices, systems and methods, which may include a dispensing device including a valve configured to interact with an inlet stream, the inlet stream having a first pressure, the valve having an outlet area with an outlet stream, the outlet stream having a second pressure; and a solenoid configured to interact with the outlet stream.

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 hand-held beverage dispenser includes a handle body, within which multiple valve units are contained. Two sets of fluid flow paths are provided into the handle body. The sets of fluid flow paths are mutually exclusive one to the other. Each flow path of the first set is in fluid communication with each valve unit, whereas only a predetermined one of the second set of fluid flow paths is in fluid communication with each valve unit. Each valve unit includes a flow control valve and a selection valve. The selection valve determines on an ad hoc basis which of the first set of flow paths will be utilized at any given time, while the flow control valve provides single action simultaneous ON-OFF control of fluid flows through both the selected flow path and the predetermined flow path.

A beer dispensing faucet is configured to be attached to a shank connector. The shank connector has a connecting member and an internal passageway having an outlet opening positioned within the connecting member. The dispensing faucet has a housing defining a central conduit having an inlet opening and an outlet opening. The housing defines a valve seat in the central conduit and further has an aperture in communication with the central conduit. The inlet opening is dimensioned to correspond in size to the outlet opening of the internal passageway and further configured to be positioned in confronting relation to the outlet opening of the internal passageway. The housing has a connecting member configured to cooperate and connect to the connecting member of the shank connector. A valve stem is positioned in the aperture. The valve stem has a first position wherein the valve stem is engaged with valve seat to define a closed faucet position. The valve stem has a second position away from the valve seat to define an open faucet position.

A liquid quality management device capable of being added to a liquid supply system which can supply a liquid within a storage container to a dispensing device in order to cool the liquid, and can dispense the liquid to a drinking container. The liquid quality management device includes an actual flow rate preparation unit including a flow rate sensor for determining an actual measured flow rate of the liquid; a dispensing liquid temperature sensor for measuring a temperature of the liquid dispensed into the drinking container; and a determination unit electrically connected to the actual flow rate preparation unit and the dispensing liquid temperature sensor, for determining an integrated flow rate of the liquid when the liquid temperature is equal to or higher than a set temperature, and for determining whether or not coolability of the dispensing device is suitable by comparing the integrated flow rate with a determination value.