A beverage dispensing system includes at least one bottle attachment portion, each having a first end providing a first attachment feature releasably engages a spout of a bottle; and an opposed second end providing a second attachment feature, in which a fluid passageway extends between the first end and the second end of the bottle attachment portion. A housing includes an upper surface defining at least one recess, each providing a housing attachment feature releasably engages the second attachment feature of a corresponding bottle attachment portion, each recess comprising an opening enabling fluid to pass therethrough; a support surface supports a receptacle thereon; and an actuator initiates dispensing of fluid from a bottle via the fluid passageway, through the opening of a recess, and into a receptacle supported on the support surface. An LED illuminates a portion of a bottle supported by or within the housing.

Apparatus for dispensing a beverage in which a bottle containing the beverage is placed in a cradle and a portion of the beverage flows into a heat exchanger in which the beverage is heated or cooled to a desired temperature. The heat exchanger may be divided into at least two zones with the beverage being heated or cooled to the desired temperature in an inlet zone and the beverage being maintained at the desired temperature in an outlet zone.

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 automatic animal watering assembly includes a base that has a bowl section therein and a receiver section. A container is removably inserted into the receiver section of the base. The container contains water and the container releases the water into the bowl section. The container has an opening extending through a top end of the container for filling the container. A plug is movably positioned within the container. The plug is positionable in a closed position and an open position. A lid is hingedly coupled to the top end of the container. A lever is pivotally coupled to the container and the plug rests on the lever. The lever lifts the plug when the lever is lifted and the lever lowers the plug when the lever is lowered. The lever is in mechanical communication with the lid such that the lid lowers and lifts the lever.

An automated liquid dispensing attachment monitors and controls preparation of drinks poured from bottles. The automated liquid dispensing attachment attaches to a bottle and senses multiple aspects of the pouring of the drink, and based on the sensor outputs, monitors and controls the flow of fluids from the bottle through the attachment. The automated liquid dispensing attachment communicates with other electronic devices to enable individualized control and monitoring, and data aggregation and analysis.

The invention relates to a water dispenser intermediate part, wherein the water dispenser intermediate part has first connecting means for connecting a water tank to the water dispenser intermediate part, and the water dispenser intermediate part has second connecting means for connecting the water dispenser intermediate part to a water dispenser device. The water dispenser intermediate part has a water pipe piece which connects the first connecting means to the second connecting means. The water dispenser intermediate part has a water consumption meter and/or a water level sensor for determining water consumption via the water pipe and/or a water level in the water container, The water dispenser intermediate part has at least one transmitter part for wireless transmission of water consumption values and/or water level reports from the water tank.

Some embodiments disclosed herein related to a device for transferring precise amounts of fluid from at least one source container to at least one target container. In some embodiments, the fluid is first transferred from the source container (e.g., a vial) through a connector to an intermediate measuring container (e.g., a syringe). In some embodiments air can pass through an air inlet and enter the vial to compensate for the volume of fluid withdrawn from the vial. An air check valve or a bag or a filter can prevent the fluid from escaping through the air inlet. The precisely measured amount of fluid can then be transferred from the intermediate measuring container to the target container (e.g., an IV bag). In some embodiments the connector can include a source check valve and a target check valve to direct fluid first from the source container to the intermediate measuring container and then from the intermediate measuring container to the target container. Some embodiments of the device can include a motor and a controller for automatically actuating a plunger of the syringe to transfer the desired amount of fluid.

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.

A conduit for a liquid dispenser which includes a tube for carrying liquid and a heating device for heating at least a section of the tube. The heating device includes a part for fixing the heating device to the tube. The part is a part injection-moulded over the tube along at least a section of a length of the tube. A method of producing the conduit and a use thereof.

A dispenser for a shippable container is provided, where the shippable container has a hollow body, an opening, a collar adjacent the opening, and a closure sealing the opening. The dispenser has a collar engagement portion configured to engage the collar of the shippable container, a closure engagement portion configured to engage the closure of the shippable container, and a body engagement portion configured to engage a portion of the hollow body of the shippable container. An aperture in the dispenser is configured to dispense contents from the hollow body of the shippable container. The dispenser can be configured to dispense contents from the hollow body of the shippable container when the shippable container is in an inverted position.