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 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.

In combination a spouted pouch to be filled with a flowable product by a filling machine, a plug, and a cap. The interference fit plug is releasably mounted over the top end of the neck of the spout body and hermetically seals the product passage of the spout body. The plug is adapted to be removed by the filling machine and to be replaced by pressing the plug onto the neck after filling of the pouch. The plug removal, filling, and replacing of the plug are preferably performed in an aseptic environment. The cap is after the filling of the pouch and the replacing of the plug onto the neck. The capping is preferably performed by a capping machine in a non-aseptic environment.

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 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.

A cover (52) for protection of a neck (44) and a closure member (46) of a bottle (42), wherein the cover (52) comprises sleeve (54); wherein the sleeve (54) comprises a stretchable paper material (12); wherein the sleeve (54) is configured to enclose the neck (44); and wherein the stretchability according to ISO 1924-3:2005 of the stretchable paper material (12) the sleeve (54) is at least 5% in the machine direction (MD) and at least 5% in the cross direction (CD). A bottle (42) comprising a cover (52), a method of forming a cover (52) for a bottle (42), and a method of attaching a cover (52) to a bottle (42), are also provided.

Described is a packaging, and method and system for packaging an individual and single serving of plant matter, such as a cannabis flower. Also described are a method of making and using for the packaging.

In combination a spouted pouch to be filled with a flowable product by a filling machine, a plug, and a cap. The interference fit plug is releasably mounted over the top end of the neck of the spout body and hermetically seals the product passage of the spout body. The plug is adapted to be removed by the filling machine and to be replaced by pressing the plug onto the neck after filling of the pouch. The plug removal, filling, and replacing of the plug are preferably performed in an aseptic environment. The cap is after the filling of the pouch and the replacing of the plug onto the neck. The capping is preferably performed by a capping machine in a non-aseptic environment.

Disclosed herein is a fluid transfer assembly for dispensing flowable material from a container, the fluid transfer assembly having a spout, a screw cap body, and an aseptic plug, wherein the aseptic plug is configured to form an aseptic seal with the screw cap body.

A welding head comprises a welding element (51) for welding a lid (1) to an opening device of a container (10). The welding head (43) further comprises a 5 compensating device (62) operable for compensating a misalignment between the welding element (51) and the lid (1), thereby centering the welding element (51) relative to the lid (1).