Provided is a package made of a composite material is represented and described, including a package base with two front base corners and with two rear base corners, a package gable with two front gable corners and with two rear gable corners, and a package base body with a front panel, a first side panel, a second side panel and a rear panel. The package base and the package gable are arranged on opposite sides of the package base body. The composite material has a polymer inner layer, a polymer outer layer and a fibrous support layer, which is arranged between the polymer outer layer and the polymer inner layer. In order to enable the manufacture of packages with even more complex geometries without impairing the rigidity of the package, it is proposed to provide a third sleeve fold line, which has a plurality of sections, which each adjoin a side panel and the rear panel, and of which at least one section is curved.

A paper-based or paperboard-based container (100) for holding a pourable food product is described, the container comprising: a substantially planar bottom portion; a top portion arranged opposite the bottom portion and comprising a top panel and a top sealing region (126) forming a top seal of the container; and a wall portion extending between the bottom portion and the top portion and comprising a plurality of wall sections (108b, 108c) bordering the top panel and a longitudinal sealing band (14) extending between the bottom portion and the top portion and over at least one of the wall sections, wherein the top sealing region is folded onto said at least one of the wall sections comprising the longitudinal sealing band (14) and being attached thereto. A blank and a sleeve for producing the container is also described, as is a method for producing the container.

A paper-based or paperboard-based container (100) for holding a pourable food product is described, the container comprising: a substantially planar bottom portion; a top portion arranged opposite the bottom portion and comprising a top panel and a top sealing region (126) forming a top seal of the container; and a wall portion extending between the bottom portion and the top portion and comprising a plurality of wall sections (108b, 108c) bordering the top panel and a longitudinal sealing band (14) extending between the bottom portion and the top portion and over at least one of the wall sections, wherein the top sealing region is folded onto said at least one of the wall sections comprising the longitudinal sealing band (14) and being attached thereto. A blank and a sleeve for producing the container is also described, as is a method for producing the container.

A packaged lactase solution that prevents clogging of a filter. A lactase solution is present in a container, in which a head space volume in the container is controlled to 20% or less relative to the total volume of the container. The packaged lactase solution is a lactase activity within the range of 10-100,000 NLU/g. The packaged lactase solution is substantially transparent. the temperature of the lactase solution and the temperature of the container are above 0° C. and 20° C. or lower. The material of the container is polyethylene, polypropylene, polystyrene, polyvinyl acetate, polyurethane, polyurethane, polytetrafluoroethylene, or acrylonitrile butadiene styrene resin.

A packaged lactase solution that prevents clogging of a filter. A lactase solution is present in a container, in which a head space volume in the container is controlled to 20% or less relative to the total volume of the container. The packaged lactase solution is a lactase activity within the range of 10-100,000 NLU/g. The packaged lactase solution is substantially transparent. the temperature of the lactase solution and the temperature of the container are above 0° C. and 20° C. or lower. The material of the container is polyethylene, polypropylene, polystyrene, polyvinyl acetate, polyurethane, polyurethane, polytetrafluoroethylene, or acrylonitrile butadiene styrene resin.

Disclosed are bottles for automatically creating custom blends of spirits. The disclosed automatic infinity bottles siphon or transfer a portion of their contents from a blending container, and move them to a sampling container from which a custom blended spirit can be decanted and consumed. The two containers are connected by a siphon tube or other suitable means. The blending container includes a selectively closeable opening for adding or removing liquids, and is configured to store a certain volume of spirits. When such volume is exceeded, the excess spirit will move into the sampling container, where the excess spirit is added to an existing custom blend. One embodiment includes a dip tube for discouraging a bottle user from removing liquid from the blending container. Another embodiment is configured with the sampling container located around the outside of the blending container.

Disclosed are bottles for automatically creating custom blends of spirits. The disclosed automatic infinity bottles siphon or transfer a portion of their contents from a blending container, and move them to a sampling container from which a custom blended spirit can be decanted and consumed. The two containers are connected by a siphon tube or other suitable means. The blending container includes a selectively closeable opening for adding or removing liquids, and is configured to store a certain volume of spirits. When such volume is exceeded, the excess spirit will move into the sampling container, where the excess spirit is added to an existing custom blend. One embodiment includes a dip tube for discouraging a bottle user from removing liquid from the blending container. Another embodiment is configured with the sampling container located around the outside of the blending container.

A beverage making pack may include a flexible container having a beverage making space, a pack body to which the flexible container is coupled and which has a pack opening communicating with the beverage making space and a seating part seated on a fermentation tank module, a tube connected to a lower portion of the pack body and accommodated in the flexible container, and a cap configured to open/close the pack opening.

A beverage making pack may include a flexible container having a beverage making space, a pack body to which the flexible container is coupled and which has a pack opening communicating with the beverage making space and a seating part seated on a fermentation tank module, a tube connected to a lower portion of the pack body and accommodated in the flexible container, and a cap configured to open/close the pack opening.

A cellphone couplable container assembly having a portable and reusable container operably configured to store liquid contents within an internal cavity while simultaneously retaining a cellphone or other similar electronic device magnetically selectively attached to the exterior of the portable container. In one embodiment, a plurality of magnets with ferromagnetic properties are disposed on the outer shell of the cellphone couplable container assembly and are proportionately shaped and sized to correspond to a cellphone magnet disposed on a user's cellphone. Additional protrusions may provide additional structural support for a more secure of the cellphone to the cellphone couplable container assembly.