An apparatus, system and method for providing a consumable level monitor for association with a content-filled consumable. The embodiments may include a sensing module suitable to sense the consumable level; and a communications module suitable for receiving the consumable level from the sensing module, and for communicating the consumable level to a user.

Beverage shrinkage monitoring technology is disclosed and is used to reduce beverage shrinkage at bars, clubs, restaurants, and other establishments that dispense beverages. Bottles are topped with wireless (RFID/Bluetooth/WiFi) enabled liquor/wine nozzles that only pour when handled by appropriate staff members who wear RFID wristbands or bracelets. The wireless (RFID/Bluetooth/WiFi) enabled liquor/wine nozzles also report sales to a point of sales (POS) system. Beer taps include proprietary wireless (RFID/Bluetooth/WiFi) enabled beer tap adapters that are mounted to or embedded in the beer taps.

An apparatus for making a beverage includes a housing, a first receptacle, a second receptacle, a cutting assembly, a water source, and at least one water outlet. The first receptacle is positioned in the housing for accepting a first beverage container containing a liquid. The second receptacle is positioned in the housing for accepting a second beverage container containing a liquid. The cutting assembly has a cutting blade that is movable relative to the first and second receptacles for opening the first and second containers substantially simultaneously so that liquid stored therein can be at least in part evacuated. The water source is coupled to the housing The at least one water outlet is associated with one or more of the first and second receptacles for adding water to the liquid from the first and second beverage containers from the water source.

A system and method for dispensing beverage from a container, such as wine from a wine bottle. An identification element may be secured to a beverage container and include a tag and optically readable code that uniquely identify the container. A dispenser may dispense beverage from a container, and be able to read the tag of the identification element. Information regarding characteristics of beverage in the beverage container may be associated with a corresponding identification element and include a brand, type, vintage or volume of beverage in the container.

A method for operating a water dispenser, the water dispenser having a water supply, a carbon dioxide supply, an outlet for pouring water into a container placed below the outlet, a controller and a user interface, the method including the following steps, which are executed in response to an activation of the water dispenser via the user interface: determining a nominal value of a water volume (V) that is to be filled into the container determining a nominal value of a waiting period (WP) by means of the controller determining nominal values of a first partial volume (V1) and a second partial volume (V2) by means of the controller (V1+V2=V), in particular by determining a volume ratio (R) with R=V1/V for dividing the water volume (V) into the partial volumes (V1, V2) pouring the first partial volume (V1) through the outlet waiting through the waiting period (WP) pouring the second partial volume (V2) through the outlet.

Techniques for monitoring dispensed liquid include an intelligent spout that incorporates an IMU (Inertial Measurement Unit) for tracking its own orientation and movement in three-dimensional space. The spout has its own processor, memory, and wireless networking components, which support local data processing, data logging, and bi-directional wireless communication. Communication may be carried out with a server, with other spouts of like kind, and/or with other devices.

A system and method for dispensing beverage from a container, such as wine from a wine bottle. Dispensing may be automatically controlled based on a detected orientation of the container, e.g., dispensing may occur when a bottle is tilted as if to pour from the bottle and stopped when the bottle is oriented upright. Dispensing may be stopped when the container is rotated about its longitudinal axis even while in a pour orientation. A remaining amount of beverage in the container and/or an amount of pressurized gas used to drive dispensing may be detected and beverage dispensing controlled accordingly.

An apparatus for making a beverage includes a housing, a first receptacle, a second receptacle, a cutting assembly, a water source, and at least one water outlet. The first receptacle is positioned in the housing for accepting a first beverage container containing a liquid. The second receptacle is positioned in the housing for accepting a second beverage container containing a liquid. The cutting assembly has a cutting blade that is movable relative to the first and second receptacles for opening the first and second containers substantially simultaneously so that liquid stored therein can be at least in part evacuated. The water source is coupled to the housing The at least one water outlet is associated with one or more of the first and second receptacles for adding water to the liquid from the first and second beverage containers from the water source.

A system and method for dispensing beverage from a container, such as wine from a wine bottle. Dispensing may be automatically controlled based on a detected orientation of the container, e.g., dispensing may occur when a bottle is tilted as if to pour from the bottle and stopped when the bottle is oriented upright. Dispensing may be stopped when the container is rotated about its longitudinal axis even while in a pour orientation. A remaining amount of beverage in the container and/or an amount of pressurized gas used to drive dispensing may be detected and beverage dispensing controlled accordingly.

Techniques for monitoring dispensed liquid include an intelligent spout that incorporates an IMU (Inertial Measurement Unit) for tracking its own orientation and movement in three-dimensional space. The spout has its own processor, memory, and wireless networking components, which support local data processing, data logging, and bi-directional wireless communication. Communication may be carried out with a server, with other spouts of like kind, and/or with other devices.