Embodiments herein are generally directed to a flexible pouch for holding a liquid. The pouch includes a front portion and a back portion defining a compartment, a fitment and a frangible seal. The fitment has a body with a pair of wings extending outwardly from a center portion. The center portion has a spout. The front portion, the fitment and the back portion are joined together by a top seal. The frangible seal join the front portion and back portion beneath the fitment. The frangible seal has one end positioned in a portion of the top seal under one of the pair of wings and another end positioned in a portion of the top seal under another of the pair of wings to separate the spout from the contents in the compartment.

A refillable mastic cartridge for a mastic medium to be dispensed includes a rigid head part having a dispensing outlet, and a mastic cartridge chamber configured to store a component of the mastic medium to be dispensed from the mastic cartridge via the dispensing outlet.

A refillable mastic cartridge for a mastic medium to be dispensed includes a rigid head part having a dispensing outlet, and a mastic cartridge chamber configured to store a component of the mastic medium to be dispensed from the mastic cartridge via the dispensing outlet.

The present invention relates to a metering container (100-1, 100-2) for metering a viscous material component (103-1, 103-2), comprising a piston (105-1, 105-2) for pressing the material component (103-1, 103-2) from a storage container (111-1, 111-2) into a metering chamber (107-1, 107-2); and a metering plunger (109-1, 109-2) for indicating a quantity of the material component (103-1, 103-2) in the metering chamber (107-1, 107-2), via which the material component (103-1, 103-2) can be dispensed from the metering chamber (107-1, 107-2).

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 coaxial cartridge for multi-component materials includes a head part having an outlet, an inner tube forming a first storage compartment configured to store a first component inner tube forms part of the outlet, and an outer tube. The inner tube is arranged within the outer tube at a longitudinal axis that is common to both the inner tube and the outer tube. A space formed between the outer tube and the inner tube forms a second storage compartment configured to store a second component. The outer tube forms a further part of the outlet.

A system of assembling first and second types of pods includes a first assembly apparatus for packing first type of pods such as low-pressure coffee pods, and a second assembly apparatus for partially packing second types of pods where a second type of filter is packed with a second beverage ingredient without a container. The assembled filter with the second beverage ingredient is passed to the first assembly apparatus where the outer container and the lid may be applied to assemble the second type of pods to brew high-pressure beverages such as espresso. The second type of pods can optionally include a third beverage ingredient separated by a perforated barrier between the second and third beverage ingredients.

A system of assembling first and second types of pods includes a first assembly apparatus for packing first type of pods such as low-pressure coffee pods, and a second assembly apparatus for partially packing second types of pods where a second type of filter is packed with a second beverage ingredient without a container. The assembled filter with the second beverage ingredient is passed to the first assembly apparatus where the outer container and the lid may be applied to assemble the second type of pods to brew high-pressure beverages such as espresso. The second type of pods can optionally include a third beverage ingredient separated by a perforated barrier between the second and third beverage ingredients.

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.