A smart energy-saving device for automatic blending drinks, adopted to inject beverages into at least one beverage cup that comprises a bar code, comprises: beverage barrels; manifolds; at least one ice-storing device including at least one ice outlet, at least one servomotor, a stirring rod, and at least one thruster; beverage stations; collection mechanisms including ring structures, ice inlets, water inlets, and beverage tubes; and a control module including flowmeters, water valve switches, beverage-cup-weight sensors, beverage-barrel-weight sensors, at least one ice-beverage-barrel-weight sensor, pressure sensors, bar code readers, infrared scanners; and a controller.

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 system for dispensing one or more beverages is disclosed. The system may include a nozzle, one or more macro-ingredients in fluid communication with the nozzle, and a number of micro-ingredients in fluid communication with the nozzle. The nozzle is configured to dispense a beverage formed by the one or more macro-ingredients and one or more of the micro-ingredients.

Disclosed is a beverage dispensing cooler. The beverage dispensing cooler includes a first lid, a second lid, a body, an axle, a handle, multiple hoses and at least one sensor. The body includes a chamber, a panel, a base valve, a wall drain, a primary hose, a flow control unit, a power unit and a dispenser gun. The chamber includes multiple cylinders, multiple pressure compartments and a basin configured to collect water from condensation and melted ice. The axle further includes multiple wheels, a rod and multiple bearings connected to the rod and to the multiple wheels. The handle is configured to facilitate engagement of the beverage dispensing cooler with a hand of a user. Further, the beverage dispensing cooler may include at least one sensor configured to generate at least one sensor data corresponding to at least one variable.

A liquid dispense system has a container having an open end and a sidewall defining a container interior, and a fitment enclosing the open end of the container. The sidewall has at least one vent. The fitment has a hollow body with a partition extending across an interior of the hollow body, the partition having at least one aperture. The fitment further has a valve connected to the partition and being movable between a normally-closed position and an open position. The at least one vent is covered by a protective membrane configured to filter air that enters the container interior as liquid is dispensed from the container interior when the valve is in the open position.

A beverage dispensing system is provided, including a main body that includes an interior cavity adapted to receive a beverage container, an adaptor module, and a controlled gas system. The adaptor module is configured to provide fluidic coupling from the beverage container to the controlled gas system, such that a beverage may be dispensed through from a tap connected to the adaptor with the aid of positive gas pressure disposed on a beverage surface within the beverage container. The controlled gas system exerts a positive pressure on a surface of the beverage in the beverage container such that when a tap is opened to dispense the beverage, the relative pressure difference between the positive pressure on the surface of the beverage and the ambient pressure causes the beverage to be dispensed from the tap.

Containers are provided and include a container body having an opening extending into a hollow interior, and a cap extending across the opening. The cap has an inlet port with an inlet valve configured to couple to a fluid source such that fluid can be delivered through the inlet valve to pressurized the hollow interior of the container body. The cap also has an outlet port with an outlet valve having a cracking pressure at which the outlet valve is configured to move from a closed configuration to an open configuration to dispense fluid from the hollow interior, and a closing pressure at which the outlet valve is configured to move from the open configuration to the closed configuration to prevent fluid from passing therethrough. The cracking pressure is greater than the closing pressure.

Containers are provided and include a container body having an opening extending into a hollow interior, and a cap extending across the opening. The cap has an inlet port with an inlet valve configured to couple to a fluid source such that fluid can be delivered through the inlet valve to pressurized the hollow interior of the container body. The cap also has an outlet port with an outlet valve having a cracking pressure at which the outlet valve is configured to move from a closed configuration to an open configuration to dispense fluid from the hollow interior, and a closing pressure at which the outlet valve is configured to move from the open configuration to the closed configuration to prevent fluid from passing therethrough. The cracking pressure is greater than the closing pressure.

Provided is a portable, self-contained beverage apparatus. The beverage apparatus includes a container assembly having a known storage capacity for storing a consumable liquid, and a dispensing assembly disposed within the container assembly that dispenses variable, non-zero quantities of additives into the consumable liquid. The dispensing assembly includes multiple apertures structured and arranged to retain vessels containing the additives to be dispensed into the consumable liquid. The beverage apparatus also includes a level sensor disposed within the container assembly that determines a consumable liquid level of the consumable liquid stored in the container assembly.

Embodiments of the present disclosure are directed to extracting the liquid from a container (such as a bottle of wine) using a needle adapted to pierce the closure of a container of liquid, dispense liquid from the container, and supply an inert gas to the container to help preserve the liquid.