A water discharge device includes a case, a microphone, a voice recognition module, a speaker, a first elevation cover connected to the case, a second elevation cover configured to move upward and insert into an inside of the first elevation cover, an elevation motor connected to the second elevation cover, a water discharge nozzle disposed at a lower end of the second elevation cover, a water discharge valve configured to regulate water flow toward the water discharge nozzle, a flow sensor configured to sense a flow rate of the water flow, a sensor disposed at the second elevation cover and configured to, based on the second elevation cover moving downward, sense whether the sensor contacts a container disposed below the second elevation cover, and a controller configured to control operation of the elevation motor and the water discharge valve.

A beverage distribution system for preparation of espresso coffee and similar aromatic beverages, including a drinking recipient (1, 1′), for example of glass, cup, or similar type, a beverage discharge disposition (2) operatively associated with a beverage preparation device (3), whereby the beverage discharge disposition (2) is provided so that the beverage discharge flow impinges, along a direction opposite to the gravity force and with a given flow pressure, and a flow regulation mechanism (13) on the drinking recipient (1, 1′), whereby the drinking recipient (1, 1′) presents a recipient retention mechanism (17) provided so that the drinking recipients (1, 1′) can only be placed on the recipient placement support (22) in one or two previously defined angular extensions with relation to the beverage discharge disposition (2).

A coupler for use in a closed transfer system is provided. The coupler includes a body with an axial slot, an outlet, and a probe that extends from a first end portion to a second end portion and at least partially received within the body, the probe configured to be movable relative to the body between a first position and a second position to selectively control the flow of fluid through the outlet. A handle is coupled to the probe and configured to interface with the axial slot, wherein the handle is configured to move axially along the axial slot to move the probe between the first position and the second position.

A system and method for dispensing fluids is introduced. A preferred embodiment comprises a sealed tank, a bag containing fluid inside the sealed tank, an outlet for dispensing the liquid in the bag, and a pressure generating device to create pressure in the sealed tank.

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.

A cooling system for a dispensing station includes a modular manifold that incorporates into the dispensing station. The modular manifold includes a recirculation block, an interface block, one or more expander blocks, and one or more spacer blocks that interconnect to produce the modular manifold. The modular manifold includes a recirculation line that couples at an inlet with a cooling fluid system to receive a cooling fluid therein and at an outlet with the cooling fluid system to deliver the cooling fluid from the modular manifold to the cooling fluid system. The modular manifold couples with a drink source and with a drink outlet of the dispensing station such that a drink flowing through the modular manifold from the drink source transfers heat to the cooling fluid circulating through the recirculation line resulting in a chilling of the drink prior to a dispensing thereof from the drink outlet.

Disclosed are exemplary embodiments of apparatus, systems and methods relating to transfer of fluids to/from containers and/or storage/transport of fluids in containers. In an exemplary embodiment, an apparatus comprises a container including a fitment having an opening. The apparatus may include a valve within the fitment. The valve may be configured to inhibit fluid flow out of the container. The apparatus may also include a transfer tube configured to be positioned through the opening of the fitment. The transfer tube may engage and open the valve to thereby provide an open passage to/from the container.

Embodiments of the invention provide a coupler for use in a closed transfer system configured to selectively engage a container seated in fluid communication with the coupler. The coupler has a body with a slot having an axial component, and an outlet. A probe extends from a first end portion to a second end portion and is at least partially received within the body, the probe is configured to be movable relative to the body between a first position and a second position to selectively control a flow of fluid through the outlet. A probe tip with a cylindrical bore is configured to engage the second end portion of the probe, and a handle is coupled to the probe and configured to interface with the slot. Axial movement of the handle along the slot moves the probe between the first position and the second position.

The inventive system and method advantageously enable superior preserved storage and selective dispensation of liquids by storing wine (or other liquids) in a pressurized environment to ensure that the stored liquid does not come into contact with air, and then by selectively dispensing a portion of the stored liquid, in accordance with a desired dispensing regime, by utilizing a controlled source of pressure force to apply a sufficient pressure to the pressurized environment to expel the desired volume of the liquid in a pressurized stream directed to a dispensing/pouring interface through a conduit or equivalent delivery system. In at least several novel embodiments thereof, the system and method of the present invention are configured for use with wine-in-bag (“WinB”) products.

Beverage dispensing system comprising a pressure housing comprising a first housing part 12, 12′ having a connector aperture 22, and a second housing part 14, 14′. The system further comprises a pair of connectors 24, 24′ connectable to the connector aperture in a pressure-tight sealing connection. The pair of connectors 24, 24′ comprises a first connector 24 having a through-going hole for allowing guiding a first tapping line 20 through the through-going hole and a second connector 24′ being connectable to a second tapping line. The system further comprises a pair of beverage containers 16, 16′, both accommodating a carbonated beverage and having a beverage outlet. A first beverage container 16 of the pair of beverage containers comprises the first tapping line 20 communicating with the beverage outlet. A second beverage container 16′ of the pair of beverage containers has an openable seal for establishing connection from the beverage outlet to the second connector 24′. The system further comprises a pressure inlet.