A telescoping insulated box assembly including an outer box including a plurality of outer side walls, the plurality of outer side walls including a first outer side wall including a first outer side panel, a first inner side panel, a first connecting strip, and a tab, the first connecting strip joined to a top of the first outer side panel by a first fold line and a top of the first inner side panel by a second fold line, the first outer side panel, the first inner side panel, and the first connecting strip at least partially defining a first insulation cavity within the first outer side wall, the tab joined to a side of the first inner side panel by a third fold line; and a second outer side wall including a second outer side panel, a second inner side panel, and a second connecting strip.

A telescoping insulated box assembly, comprising: an outer box, the outer box comprising a side wall and a bottom wall, the side wall and the bottom wall of the outer box each defining an insulation cavity; and an inner box, the inner box comprising a side wall and a wall forming a portion of a top side of the box assembly, each wall of the inner box defining an insulation cavity, the inner box sized to fit into the outer box such that the each of the side walls of the inner box faces one of the side walls of the outer box.

A combination packaging includes an inner packaging having first side walls, which can be erected from a flat into an erected state, and an outer packaging having second side walls, which can be erected from a flat state into an erected state. The outer packaging has at least one closable lid and one closable bottom, which are articulated to the second side walls and can be folded in into a closed state. The inner and outer packaging are arranged such that they can be jointly transferred into the erected state. The outer packaging, in the erected and closed state thereof, encloses the inner packaging. At least one connecting element connects the inner packaging to the outer packaging, the connecting element having a predetermined breaking point arranged such that erecting of the combination packaging, closing of the inner packaging, or opening of the outer packaging severs the predetermined breaking point.

A packaging assembly includes first insulation blocks, second insulation blocks, and third insulation blocks, each insulation block arranged in contact with at least one other insulation block to define a void, the packaging assembly including at least one enclosure, the insulation blocks at least partially surrounded by the at least one enclosure.

Corrugated boxes, box blanks, and systems for individually shipping a bag of liquid stored therein and converting into a bag-in-box dispenser are provided. An example box comprises a top portion with a removable perforation feature defined on a front wall. A bottom portion is sized to fit within an opening of the top portion and includes a cut-out feature in a front wall that aligns with the perforation feature of the top portion when the box is formed. The removed perforation feature and the cut-out feature enable a dispensing valve of a stored bag to extend past/through both front walls when the box is converted into the bag-in-box dispenser. The box is configured to store a bag of liquid ranging from 2 to 10 liters and is designed to pass individual box shipping test standards, such as ISTA and SIOC test standards. Methods of forming the box are also provided.

A packaging assembly includes first insulation blocks, second insulation blocks, and third insulation blocks, each insulation block arranged in contact with at least one other insulation block to define a void, the packaging assembly including at least one enclosure, the insulation blocks at least partially surrounded by the at least one enclosure.

A container comprising an insert and a sleeve which encloses the insert is disclosed. A blank of resilient sheet material comprising a first, second, third and fourth sequential adjoining rectangular panels are folded along their three shared side edges to form the sleeve having a rectangular cross-section, with a locking tab adjoining the first rectangular panel. An insert having a rectangular cross-section slightly smaller than the sleeve cross-section, and a mating locking tab are configured such that when the front end of the insert is substantially inserted into the front end of the sleeve, the back edges of the sleeve locking tab and the insert locking tab abut one another such that the insert may be removed only upon application of pressure at opposed locations on the exterior of the sleeve to cause the sleeve to bow outward and away from the insert.

Corrugated boxes, box blanks, and systems for individually shipping a bag of liquid stored therein and converting into a bag-in-box dispenser are provided. An example box comprises a top portion comprising a plurality of walls. The top portion defines a perforation feature defined on the front wall and a front top flap extending from the front wall. The perforation feature is defined by a series of perforations and is removable. A bottom portion comprises a plurality of walls and is sized to fit within an opening defined by the top portion. The bottom portion defines an opening configured to receive the bag of liquid. The box is configured to store a bag of liquid ranging from 3 to 6 gallons and is designed to pass individual box shipping test standards, such as ISTA and SIOC test standards. Methods of forming the box are also provided.

A container includes a first blank and a second blank. The first blank includes a plurality of panels foldably connected to one another and erected about an interior space, and a plurality of top flaps foldably connected to the plurality of panels to enclose a top end of the interior space. The second blank includes a bottom panel affixed to the first blank opposite the top flaps to enclose a bottom end of the interior space. The first blank includes a line of weakness pattern configured to allow a user to break the top flaps from a closed configuration enclosing the interior space to an open configuration allowing access to the interior space.

A container includes a first blank and a second blank. The first blank includes a plurality of panels foldably connected to one another and erected about an interior space, and a plurality of top flaps foldably connected to the plurality of panels to enclose a top end of the interior space. The second blank includes a bottom panel affixed to the first blank opposite the top flaps to enclose a bottom end of the interior space. The first blank includes a line of weakness pattern configured to allow a user to break the top flaps from a closed configuration enclosing the interior space to an open configuration allowing access to the interior space.