Device for closing beverage containers, comprising a basic structure configured for coupling to the beverage container, the basic structure enclosing at least one passage channel for beverage, a closing element coupled releasably to the basic structure for closing the at least one passage channel, at least one axially displaceable holder which is arranged at least partially in the passage channel and which is at least partially filled with an additive to be added to the beverage, wherein an upper side of the holder to be opened facing toward the closing element and an underside of the holder remote from the closing element initially close the holder substantially medium-tightly, andat least one lower perforation structure; positioned under an underside of the holder remote from the closing element and configured to perforate the underside of the holder during downward displacement of the holder in the passage channel in the direction of the lower perforation structure, whereby the additive can be released to beverage present in the beverage container.

A method, system, apparatus, and/or device for an adapter lid of a container. The method, system, apparatus, and/or device may include a planar wall extending along a horizontal plane, the planar wall being configured to attach to a gasket and extend along a rim of a container, where the planar wall includes an opening to provide a passage for the object to enter a cavity of the container. The method, system, apparatus, and/or device may include an opening wall configured to circumscribe the opening and extend from the horizontal plane to form a spout, where the adapter lid is configured to attach to the rim of the container in a normal orientation and attach to the rim of the container in a reverse orientation.

A formulation dispensing device can include a cartridge receptacle to accommodate and/or secure a beverage ingredient cartridge and permit contents within the cartridge to flow into a bottle or beverage container. Additionally, a formulation dispensing device can include a drink through valve that can permit mixed contents from a beverage container to flow through the drink through valve and be consumed. For example, the formulation dispensing device can include ingredients that can be added to a range of different drinks, including sports drinks, dietary drinks, and as a critical life supporting drinks in humanitarian situations. The formulation dispensing device can also include a lid configured to pivot between open and closed positions and can seal the dispensing device which allows the beverage container to be inverted during consumption without leakage through the first aperture.

A formulation dispensing device can include a cartridge receptacle to accommodate and/or secure a beverage ingredient cartridge and permit contents within the cartridge to flow into a bottle or beverage container. Additionally, a formulation dispensing device can include a drink through valve that can permit mixed contents from a beverage container to flow through the drink through valve and be consumed. For example, the formulation dispensing device can include ingredients that can be added to a range of different drinks, including sports drinks, dietary drinks, and as a critical life supporting drinks in humanitarian situations. The formulation dispensing device can also include a lid configured to pivot between open and closed positions and can seal the dispensing device which allows the beverage container to be inverted during consumption without leakage through the first aperture.

An apparatus is disclosed for preparing a liquid preparation using a two-part system comprising a first part including a first reagent and a second part including a second reagent, wherein the first reagent and the second reagent react when mixed to form an active ingredient of the liquid preparation. The apparatus comprising a mixing funnel having a reaction chamber, an inlet region for admitting a quantity of the first part and a quantity of the second part into the reaction chamber, for example from a dispensing capsule, to form a reagent mixture in the reaction chamber in use, and an outlet comprising at least one restriction orifice for releasing the reagent mixture from the reaction chamber at a controlled rate, and a primary chamber arranged to receive the reagent mixture from the reaction chamber through the restriction orifice.

A mixing and dispensing container having a first chamber for retaining a first material, the first chamber including a first port, a second chamber for retaining a second material, a septum separating the first chamber from the second chamber, and a first closure having a spike, the first closure movable between a first position and a second position, the first closure configured to: (i) sealingly close the first port; and (ii) pass a portion of the septum with the spike in the first position.

A joint compound system is provided including a main container of base joint compound; and an additive container isolated from the base joint compound and housing at least one and preferably multiple additive packages constructed and arranged so that the additive packages are protected from exposure to moisture prior to their ultimate mixing with the base joint compound.

A shaker cup is provided that allows a user choose when to blend a mix, within a pod, with a liquid. The shaker cup includes a lid which has a spout. The shaker cup includes a container which has a reservoir, which is able to hold a liquid. The shaker cup may have a pod placed within, which is sized and shaped to allow the liquid to flow from the reservoir around the pod, and through the spout. The shaker cup also includes a pod holder which has a pod holder mechanism that, in a first position, allows the pod holder to selectively retain the pod or, in a second position, release the pod. The pod holder further includes an actuating mechanism for selectively allowing the pod holder to move between its first and second positions. The container is able to selectively engage with the lid.

A reusable dispensing device for dispensing contents into a container. The device including a body having a chamber configured to receive a capsule and configured to sit on an opening of the container. A portion of the body being movable between an unsealed first position and an engaged second position. Piercing means are configured to pierce the capsule, and sealing means are configured to seal the container in the engaged second position. Movement of the body from the unsealed first position to the engaged second position to seal the container engages the piercing means to pierce the capsule and dispense contents from the capsule into the container.

The invention relates to a fillable twist cap closure for receiving and film-sealing a liquid or pourable filling in the interior of the closure and for emptying out the filling purely by rotating the twist cap (1). The closure consist of a receiving part (3) which is screwed onto the threaded connection of a container and which comprises a cylinder (7) that is open at the bottom, said cylinder (7) being film-sealed at the bottom, and a cup (2) that can be introduced headfirst into the cylinder (7). All plastic parts (1-3) are made of a steam-absorbing polymer, and piercing and cutting teeth (5) which extend in the axial direction are molded on the lower edge of the cup (2). Guide means (9, 10, 28) on the outside of the cup (2) interact with guide means (8, 12) on the twist cap (1). When the twist cap (1) is rotated, an axial movement of the cup (2) is first produced in order to pierce the film (33) on the receiving part (3). Upon a further rotation, a purely horizontal rotation is then produced in order to cut open the film (33) along the film circumference by less than 360. Finally, the cup (2) is moved again axially downwards in order to fold open the cut film (33), whereby the contents of the cup fall downwards.