A main container and a sub container for mixing cosmetic and a cosmetic product including the same provides a cosmetic product including a first container providing a first storing space which stores a first fluid, and in which fluid can be mixed; a discharging unit which discharges a fluid stored in the first container to the outside; and a second container which can be coupled to the first container, and which can discharge a second fluid stored in the second container to the first storing space. The second container has a storing state to store the second fluid and an open state to discharge the second fluid, wherein the second container to the open state by the discharging unit being coupled to the first container, and wherein as the second container is converted to the open state, the second fluid is discharged to the first storing space.

Described is an automated reagent mixing container for separately storing and automatically mixing together at least two stored reagent components.

A container system for separately storing and mixing two or more substances. The container system comprises a mixing container having a main container that stores one or more first substances. The main container has a first upper opening. The container system also includes a storage repository coupled to main container, and which stores one or more second substances. The storage repository includes a lip defining a second upper opening, which has an outside diameter smaller than the diameter of the first upper opening. Additionally, the container system includes a mixing blade having an outside diameter smaller than the diameter of the first upper opening. The mixing blade also has a plurality of openings. The container system includes a releasable liner placed over the storage repository's lip, and the storage repository's lip forms a seal with a lower surface of the releasable liner.

A module includes a housing and an agitator. The housing defines a cavity and includes a boss that extends from a first end of the housing into the interior cavity towards a second opposing end of the housing. The boss has an exterior surface and defines an inner bore. The boss includes a flange extending outwardly from the exterior surface. The agitator includes a base, a shaft, and a mixing element. The shaft of the agitator extends from the base and is slidable relative to the inner bore of the boss such that the agitator is movable between a fully retracted position, a partially extended position, and a fully extended position. The mixing element of the agitator extends from the base and includes a portion that is configured to engage the flange of the boss in a non-rotational fashion in response to the agitator being in the partially extended position.

A combination includes a container having a connecting portion, and a fluid preparation device, in particular a dialysis machine. The fluid preparation device is configured for mounting and connecting the connecting portion of the container. The fluid preparation device includes at least one line in fluid communication with an interior of the container in the connected position of the container. The container is filled with a first medium, and includes a reservoir containing a second medium. The fluid preparation device includes a rod-shaped element for opening the reservoir so that the first medium and the second medium are mixed with each other.

There is disclosed a compartmentalized mixing container having a soluble mix compartment connected between a lid, and a liquid compartment. The soluble mix compartment is configured to separate a soluble mix from a liquid in the liquid compartment while the soluble mix compartment is closed, and to release the soluble mix to the liquid when the soluble mix compartment is opened. After the soluble mix is sufficiently dissolved in the liquid, the resulting liquid mix may be drank from the compartmentalized mixing container, by passing from the liquid compartment, through a pathway in the opened liquid compartment, to the lid and out. The compartmentalized mixing container may include a magnetic stirrer inside the liquid compartment, and a magnetic stirrer base detachably mounted to its bottom, for spinning the magnetic stirrer. There is also disclosed a system for compartmentalizing a soluble mix and a liquid, and stirring the soluble mix and the liquid into a liquid mix to allow a user to drink the liquid mix. The system may include modular components that connect together in various permutations, and a separate docking station. The docking station may be configured to stir and heat the liquid inside of the liquid compartment.

The invention relates to a container (1) for storing and discharging at least one component with at least one chamber (4, 4a, 4b), which is sealed on a first side by a plug (9), and with one applicator (5) attached on the first side. A flow connection between the at least one chamber (4, 4a, 4b) and the side of the applicator (5) facing away from the at least one chamber (4, 4a, 4b) is opened by a relative rotational movement of the applicator (5) to the container (1) and a subsequent axial relative movement of the plug (9) to the container (1) and the applicator (5), in particular due to pressure of the at least one component on the plug (9). Furthermore, the invention relates to a method for storing and discharging at least one component.

A carbonated beverage maker includes a water reservoir, a carbon dioxide creation chamber, and a carbonation chamber. The water reservoir holds ice water and has a first impeller and a shroud surrounding the first impeller. The carbon dioxide creation chamber contains chemical elements and receives warm water. The chemical elements react with each other to create carbon dioxide when the warm water is introduced to the carbon dioxide creation chamber. The carbonation chamber is connected to the water reservoir and the carbon dioxide creation chamber. The carbonation chamber has a second impeller that includes a stem portion and blades. The stem portion and the blades define conduits therein. The blades create a low pressure region in a lower portion of the carbonation chamber such that carbon dioxide from the carbon dioxide creation chamber flows through the conduits to the low pressure region.

A cleanroom cleaning device includes a multi-compartment container having two or more compartments and one or more breakable seals with at least one compartment containing a cleaning implement and at least another compartment containing a liquid capable of saturating the cleaning implement when the seals are broken. Another cleanroom cleaning device includes a nonbreakable/nonburstable outer pouch, a breakable/burstable inner pouch containing a liquid, and a cleaning implement where the inner pouch containing liquid and the cleaning implement are both contained within the outer pouch.

Magnetic stir bar (1) for use with a magnetic stirrer, said magnetic stir bar (1) comprising at least one permanent magnet (2) for spinning said magnetic stir bar (1) when said magnetic stir bar (1) is subjected to a rotating magnetic field; and a chamber (3) for storing a product inside said magnetic stir bar (1), wherein said magnetic stir bar (1) has a closed configuration in which said chamber (3) is closed, said magnetic stir bar (1) being maintained in said closed configuration under the effect of a first force (f), and an open configuration in which said chamber (3) is open, said magnetic stir bar (1) being maintained in said open configuration under the effect of a second force (F); and wherein said magnetic stir bar (1) is adapted to automatically reconfigure itself from said closed configuration to said open configuration when said magnetic stir bar (1) is spun at or above a threshold rotational speed (t).