Systems, kits, and methods for contactless application of mixed concentrates and diluents are disclosed herein. According to an aspect, a system comprising a mix and storage container defining an interior and a first opening and a second opening. The first opening, the second opening and the interior are fluidly connected. Further, the system includes a connector that defines a first end, a second end, and a passageway that extends between the first end and the second end. The first end of the connector is attached to the first opening of the mix and storage container. The connector further defines an opener configured to engage and open a sealed portion of the concentrate container for release of a concentrate from within the concentrate container through the passageway and into the interior of the mix and storage container for mixing with a diluent. The system also includes an application tool.

A container is assembled, using an interface connection device enabling separate packaging and storage of multiple contents to be combined in the preparation of a ready-to-use product. Two container bodies each having a coupler are connected by the separate device. A mixing mechanism is formed when inserting the couplers through opposite end female parts of the connector of the interface device. A container body compartment is sealed by a closure member. A stop arrangement retains a given coupler of the sealed container body in a first position in a corresponding end female part of the connector. Relative movement of a closure member toward an opener in the connector allows communication between two compartments. These compartments remain separate until action to overcome the stop and displace the given coupler from the first to second insertion position, with the opener releasing the container body compartment initially sealed by the closure member.

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.

A container assembly is provided for handling a biological sample that includes a first receptacle (1) and a second receptacle (2), each one configured to receive and contain a fluid; a coupling member (6), adapted to operably couple the first receptacle and the second receptacle, so as to provide a sealed fluid passage between the first and second receptacle; at least one self-sealing dispensing valve (4), operably mounted within said fluid passage of the coupling member, adapted to allow bi-directional fluid flow at a predetermined fluid pressure, and at least one barrier member (9), operably mounted within the fluid passage of the coupling member at an output of the first receptacle, configured to prevent solids of a predetermined size to pass from the first receptacle into the second receptacle.

A liquid dispensing apparatus may include a first container containing a first liquid and a second container containing a second liquid. The first and second containers each can have an opening in an end. One of the first liquid and the second liquid can contain a tastant which is essentially absent from the other liquid or is present in a relatively differing amount. When the first and the second liquids are poured from the apparatus, the first liquid flows through the opening in the end of the first container and the second liquid flows through the opening in the end of the second container, such that the first liquid begins to exit the opening in the end of the first container before the second liquid begins to exit the opening in the end of the second container.

A plug for use in a cap assembly of a refill capsule is disclosed. The plug (300) generally comprises a hollow tubular body (302) with an open proximal end that is surrounded by a first rim (304) that provides a proximal abutment surface for bearing against a frangible sealing component of a cap assembly. A tubular skirt wall (306) is arranged coaxially with respect to the tubular body, and extends around the skirt wall (306) to form a plug recess (308) between the skirt wall (306) and the tubular body (302). The skirt wall (306) extends from a skirt distal end at which the skirt wall (306) is connected to the tubular body (302), to a free proximal end. The free proximal end of the skirt comprises an outwardly extending flange (310) comprising a distal facing abutment surface (312) for abutting a rim (406) of a refillable vessel (400).

A system, apparatus, and method for closed fluid delivery include a bottle holding a quantity of fluid. A membrane is positioned over an opening of the bottle to seal the fluid therein. A closed fluid delivery adapter has a first portion with a first mateable end connectable to the bottle along the opening of the bottle and a second portion having a second mateable end positioned to connect to a container. A fluid pathway is between the first and second portions. A puncturing structure is positioned along the fluid pathway. A removable collar is positioned between the first and second portions. The removable collar prevents the first and second portions from moving closer together. Upon removal of the removable collar, the first and second portions are movable closer together, whereby the puncturing structure punctures the membrane to allow flow of the fluid.

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.

Embodiments of a multi-compartment beverage bottle system and methods of manufacturing the system are disclosed. First and second housing elements are in mutual engagement with one another to at least partially define a fluid vessel with a fluid cavity therein. The fluid cavity includes a first fluid compartment and a second fluid compartment. The first housing element is rotatable between a storage position and a mix position with respect to the second housing element. A shuttle element is disposed within the fluid cavity and axially actuatable along the main axis into and out of a seal position. Rotation of the first housing element toward the storage position actuates the shuttle element toward the seal position. Rotation of the first housing element toward the mix position actuates the shuttle element away from the seal position, thereby placing the first and second fluid compartments into fluid communication with one another for mixing.

Embodiments of the present disclosure include a container additive system that can be used to mix an additive separately contained inside a receptacle with the contents of a container. The system can enable separate transport of additives for the contents of the container in a sterile and convenient manner that enables mixing according to a user's preferences before the opening of the container and dispensing. According to some aspects, the system can include a breacher configured to connect the insides of the container and receptacle. The receptacle may be rigid, flexible bag type container or a hybrid thereof, depending on the application and side of the additive. In some embodiments, the system or parts thereof may serve as a cap or lid to the container. The container is also not limited to rigid or semi rigid surfaces but can also include flexible bag type or hybrids of flexible and rigid surfaces.