A wine aerator for expediting the breathing of wine just before serving having a main body 4 in a barrel shape with a flat bottom 20 and a flat top 22, the main body 4 defining a wine aeration chamber 24 where wine mixes with air to aerate the wine, a wine exit tube 6 connected to the wine aeration chamber 24 and extending substantially straight from the flat top 22, the wine exit tube 6 having an exit tube central axis and lying in an wine exit tube plane 34, an exit tube cork 16 is configured to seal the wine exit tube 6 configured to be inserted into and seal the exit tube 6, a wine inlet tube 8 connected to the aeration chamber and extending from a side of the main body 4, the inlet tube 8 is substantially perpendicular to the exit tube 6, a right elbow tube 10 having a first end and a second end, a first opening is connected to the wine inlet tube 8, the right elbow tube 10 bends at 90 degrees, a wine bottle tube 12 connected to the second opening of the right elbow tube 10, the wine bottle tube 12 having a wine bottle tube central axis 35, and the wine inlet tube 8, the right elbow tube 10, the wine bottle tube 12 and the wine bottle tube central axis 35 lying in a wine bottle tube plane, wherein the exit tube plane 34 is perpendicular to the wine bottle tube plane 36; and a wine bottle connector 14 configured to connect a wine bottle opening 32 to the wine bottle tube 12. A method of aerating wine using the wine aerator.

A device and method for preparing a sample for solid-liquid or liquid-liquid extraction are provided. In one embodiment, a device includes a sealed container including an opening for receiving a solid sample and a reservoir. The reservoir includes a solvent or is adapted to receive a solvent. The solid sample and the solvent are mixed in the reservoir and to concentrate at least one component of the sample into the solvent within the reservoir. The concentrate is settled into a solvent layer within the container. The solvent layer is sampled via a port. A method includes introducing a solid sample to a solvent; creating a solution by mixing the solid sample with the solvent; allowing the solvent solution to settle into at least one layer; and sampling within at least one layer.

A capped retail dispenser package encloses and retains a mixing container into which a product mixture is filled using an automated manufacturing system in an individualized manner, such that each individual product container may be charged with a customized or unique formulation different than a previous or subsequent container passing through the system. Mixing is not done prior to filling, but with a mixer received in a slidable bottom portion that functions as a piston. The rod terminates at its upper end with a mixing plate. Movement of the rod through the central opening provides mixing of the product through a reciprocating motion, and preferably with a simultaneous rotation. Movement of the upper mixing plate within the mixing container provides mixing of the container's contents by forcing fluid flow through one or more mixing apertures formed about a flange of the mixing plate.

An additive delivery system may incorporate a cartridge system, including a container cap and a reservoir assembly that provides for storage of an additive. The container cap includes a mixing nozzle for mixing of the additive with a base fluid as the base fluid flows from the base fluid container through the cartridge. A one-way valve prevents backflow of base fluid and/or mixed base fluid/additive from an area downstream of the mixing nozzle such that the base fluid supply remains in a pure state.

An agitator may include one or more members adjustable between an expanded configuration and a compressed configuration. When the one or more members are in the expanded configuration, the agitator in a first set of two orthogonal dimensions is larger than an opening having a predetermined size. When the one or more members are in the compressed configuration, the agitator in a second set of two orthogonal dimensions is smaller than the opening having the predetermined size. The one or more members are biased to the expanded configuration in absence of external force applied to the one or more members. In use, the agitator may be inserted into a container through a neck of the container in the compressed configuration. The agitator may expand within the container so that the container does not fit through the neck of the container.

A dispensing system (2000), includes a container (900) containing a flowable base formulation (910) to be dispensed, an additive mixing device (2004), and an actuable pump engine (2002) which draws the flowable base formulation from the container and pumps it through the mixing device. The additive mixing device includes a body (2022) with an internal cavity (2052), an additive ingredient (2054) within the cavity, and a flow path/mixing chamber (2058) between an input and an output. With each pump of the device (2004) the additive ingredient is introduced into, and mixed with, a flow of the base formulation traveling through the mixing device. Multiple additive mixing devices (2004) may be interchangeable for different formulations, and the mixing devices may be refillable.

The invention relates to a mixing device for mixing one or more cosmetic preparations in a dispenser with a dispensing opening (8). The mixing device comprises at least two mixing plates (1) which comprise one or more passages (2), the diameter thereof tapering in direction of the dispensing opening.

One variation of a mixing system includes: a container configured to store consumable beverages; a lid; and a mixer. The lid is configured to transiently couple to the container and includes: a housing; a mixer receptacle; a set of user controls arranged on an outer face of the lid; a set of electronics arranged within the housing and including a motor, a controller configured to actuate the motor responsive to selection of the set of user controls, and a power supply configured to supply power to the motor and the controller; and a set of supports arranged between the motor and walls of the housing and configured to absorb energy output by the motor. The mixer includes: a connector section configured to engage the mixer receptacle to couple the mixer to the motor; and a mixing section configured to mix ingredients in the container responsive to actuation of the motor.

The present disclosure relates to an aerosol delivery device filling system. The system includes multiple source containers each respectively including a differing aerosol precursor composition. The system further includes a mixing container configured to engage the source containers to receive and mix the aerosol precursor compositions to form a mixed aerosol precursor composition. An aerosol delivery device may engage the mixing container to receive at least a portion of the mixed aerosol precursor composition. A related method for customizing an aerosol precursor composition is also provided.

The present invention relates to a dispenser for viscous materials that includes a static mixer, a first and second receptacle R.sub.1 and R.sub.2 for a first and second viscous material, connected in fluid communication with the static mixer, a first and second actuator configured for discharge of receptacle R.sub.1 and R.sub.2, an electrically or manually operable drive and a mechanical or hydraulic power transmission configured to translate drive motion into first and second actuator motion.