A recyclable, thermally insulated shipping container is entirely constructed from organic fiber materials in such a manner that the container is curbside recyclable without separation of component materials. The container includes a corrugated cardboard outer box having a bottom wall, a plurality of sidewalls and a top wall, a corrugated cardboard inner liner assembly comprising a corrugated cardboard inner box having a bottom wall and a plurality of sidewalls, and a corrugated cardboard lid assembly. The outer box, inner liner assembly and lid assembly cooperate to create a plurality of thermally insulated cavities which are filled and uniformly packed with predetermined volumes of loose-fill cellulose (organic fiber) insulation to create a predetermined insulating value. The container provides a fully insulated six-sided product cavity to receive a temperature-controlled product. A portion of the product cavity may be filled with a PCM or other thermal media to provide a consistent temperature profile.

A repulpable insulated container assembly having a container formed of paper such as corrugated cardboard or varying paper materials and defining an interior; and a repulpable insert placed within the interior of the container and formed of a first paper layer; and a paper fiber pad coupled to the first paper layer.

A temperature insulated packaging system includes a container having interior surface bounding an interior volume and a liner disposed within the interior volume and at least partially bounding a compartment configured to receive an item for temperature insulated shipping. The liner includes a first sleeve made of cellulose material and at least partially bounds a channel. The first sleeve has an outside wall disposed adjacent to the container and an opposing inside wall disposed adjacent to the compartment configured to receive the item for shipping, the channel being disposed between the inside wall and the outside wall. At least one insulation sheet is disposed within the channel of the first sleeve, the at least one insulation sheet being made of a cellulose material and having a plurality of recesses formed thereon.

A natural fiber-based insulating panel system to facilitate shipping. One or more natural fiber-based panels are inserted into the interior of a shipping container to encapsulate the payload, or on the exterior of the shipping container to encapsulate the shipping container and payload. A film or membrane may encapsulate one or more of the insulating panels. Micro perforations may be present in the membrane to facilitate the capture of moisture from the interior.

Disclosed is a thermal insulating shipping container with a five-sided box wherein a bottom and four sides all have an inner layer of corrugated polymer, a middle layer of shrink-wrapped panels with each panel being a vacuum panel, and an outer layer of corrugated polymer. The container is formed by inserting polyurethane liquid into the gaps and spaces between the shrink-wrapped panels and the inner and outer layers and foaming the polyurethane liquid and allowing it to harden. Weather stripping may be adhered to the edges of the container which are opposite to the bottom of the container.

Method and system for maintaining temperature-sensitive materials within a desired temperature range for an extended time. In one embodiment, the system includes an outer box having a rectangular cavity. An insulation unit is snugly but removably positioned in the rectangular cavity. The insulation unit includes a support and a thermal insulation member. The support may be a generally rectangular sleeve with four sides, an open bottom and an open top. The thermal insulation may be a bilayer material wrapped around the four sides of the support to form a spiral structure. The bilayer material may include a first sheet of an expanded slit-sheet packaging material and a second sheet of tissue paper. The system may additionally include a bottom insulation member at the bottom of the support, a top insulation member at the top of the support, and a payload and temperature-control members between the top and bottom insulation member.

A thermally insulated package having an outer container formed of fiberboard and comprising a base wall, a peripheral side wall and a closable top wall. The base wall, side wall and top wall defining a container interior. An insert is fitted within the container interior and formed of fiberboard. The insert comprising a floor panel and a peripheral side panel defining an insulated compartment and open top. The floor panel and side panel are each associated with the base wall and side wall of the container respectively. A thermal insulating layer to be interposed between the outer container and the insert, said insulating layer including wool fibers.

An insulated box assembly including an insulated box including an outer portion including a plurality of middle portions and at least one lower portion, the at least one lower portion defining a bottom of the outer portion; an interior piece including a plurality of side panels and a bottom panel, the interior piece positioned within the outer portion, the interior piece defining an interior of the insulated box; and at least one insulated panel positioned within the outer portion, the at least one insulated panel positioned between the plurality of middle portions and the plurality of side panels; and a register system including an insert including a rail coupled to a center segment, the insert positioned within the interior of the insulated box; and a register positioned within the interior, the register defining a cutout, the cutout engaging the rail and suspending the register above the center segment.

Provided is a folding packaging cooler box convertible from a box mode to an unfolding mode or vice versa, comprising: a box portion having a bottom portion, sidewall portions and joint portions configured to connect with one another and to form a single plane in the unfolding mode; and a cooling reinforcing portion configured to be inserted to the inside of the box and to form a hexahedron shape together with said box portion when said box portion is converted into the box mode, wherein said cooling reinforcing portion comprises a reinforcing bottom portion configured to form a lower surface and to face the bottom portion of the said box portion upon conversion into the box mode; reinforcing sidewall portions configured to connect with the said reinforcing bottom portion and to face the sidewall portions of said box portion; and reinforcing joint portions configured to join said reinforcing sidewall portions, to be folded to face itself and to be in close contact with the reinforcing sidewall portions, upon conversion into the box mode, and wherein said reinforcing bottom portion, said reinforcing sidewall portions and reinforcing joint portions form a single plane in the unfolding mode.

A process for forming a container from a blank, the process comprising the steps of: thermally inducing one or more fold lines on at least one surface of a container blank fabricated from a thermal insulation sheet material, wherein the blank comprises: a first panel portion; a second panel portion located adjacent the first panel portion and sharing a first common edge therewith; and a third panel portion located adjacent the second panel portion and sharing a second common edge therewith, the second common edge being substantially parallel to the first common edge, wherein the first panel portion and the third panel portion are each associated with a pair of flap members adapted for folding movement relative to the respective first and third panel portions such that, when assembled, each of the flap members overlies an edge of the second panel portion substantially perpendicular to the first common edge and the second common edge, folding the first panel portion of the container blank along a first fold line, wherein when folded, the first panel portion is substantially perpendicular to the second panel portion of the container blank; folding the third panel portion of the container blank along a second fold line, wherein when folded, the third panel portion is substantially perpendicular to the second panel portion and substantially parallel to the first panel portion; sealing a portion of each of the pair of flap members of the first panel portion to a portion of each of the pair of flap members of the third panel portion to form a side seam joint; and sealing a portion of the first panel portion adjacent the side seam joint and a portion of the third panel portion adjacent the side seam joint to an edge of the second panel portion to form a bottom seam joint.