A phase change thermal storage unit having has at least one conformational feature selected from (i) a fill port located proximate a corner of the of the panel, (ii) internal contouring that alters the thickness of the phase change material retention chamber for creating an average thickness of the chamber within a central portion of the chamber which is less than the average thickness of the chamber within a peripheral portion of the chamber, and (iii) fingertip indentation handles proximate each and every edge.

Apparatuses and devices for preventing heat transfer through fluids contained in a fluid container, a device of which includes an insulation system including a fluid container section for containing a liquid, a detachable insulation sleeve section for preventing heat transfer therethrough thereby maintaining temperature of the fluid contained within the fluid container, a lid section for preventing spillage of contents from the fluid container section, and optionally a straw for accessing those contents.

A method of packing a temperature sensitive product utilizes a temperature controlled product shipper that includes a phase change material bladder which can be filled with a preconditioned brined-slurry PCM at the point of packaging. The temperature sensitive product is contained within a product box or master case, which is in turn packed inside an insulated liner and an outer box. The PCM bladder fits between the master case and the insulated liner and is filled with the preconditioned flowable PCM at the point of packing just before closing the box for shipment.

An insulated packaging assembly can include a box including a top side wall, a bottom side wall, a first lateral side wall, a second lateral side wall, a third lateral side wall, and a fourth lateral side wall the box defining a cavity; a first thermal liner positioned in the cavity, a first portion of the first thermal liner positioned in contact with the top side wall, a second portion of the first thermal liner positioned in contact with the first lateral side wall, a third portion of the first thermal liner positioned in contact with the bottom side wall; and a second thermal liner defining a first end and a second end disposed opposite from the first end, the second thermal liner defining an inner surface and an outer surface disposed opposite from the inner surface.

Disclosed is a box, a modular box assembly, and a method of assembling a box. The box can comprise a center panel defining a first side, a second side opposite the first side, a first end, and a second end opposite the first end; a first locking panel extending from the first side, the first locking panel comprising a pair of wings, each of the wings defining a locking slot; a second locking panel extending from the second side, the second locking panel comprising a pair of locking tabs, each of the locking tabs engaging a corresponding one of the locking slots; a first side flap panel extending from the first end; and a second side flap panel extending from the second end.

A multi-purpose insulating beverage container includes an outer container with an open upper end, a removable inner container configured for insertion into the outer container via the open upper end, and a cover adapted to engage the outer container and retain the inner container within the outer container. The inner container includes a plurality of annular side ledges with decreasing diameters sized to support beverage bottles or cans of different sizes.

Product transport containers are disclosed. Such containers can provide one or more advantages compared to existing containers. For example, product transport containers described herein can maintain a product at a desired temperature for an extended period of time, including without the use of an active heating or cooling component. Such product transport containers described herein may also provide improved breathability, thermal insulation, and/or mechanical strength or dimensional stability. Such containers can include a plurality of walls defining an interior volume and a selectively openable side permitting movement of the product into and out of the interior volume of the container. The walls can be formed from a thermoformed non-woven fabric.

A multi-layered pressure packaging comprises a first container including a lockable neck portion followed by a body part and a bottom part, obtained from a non-foamed thermoplastic material by stretch blow molding, and a first layer at least enclosing the body part and/or bottom part of the first container. The first layer comprises foamed material, and the foamed material layer is foamed in place with an outer enclosure applied over and around the first container defining a free space in between, and foamable material introduced and foamed between the first container and the outer enclosure in the free space, obtaining the foamed material layer. A second layer is applied on the outer surface of the foamed layer for keeping the foamed layer and the first container together. Methods are provided for manufacturing a multi-layered pressure packaging according to an embodiment.

Provided are multiply-insulated articles, comprising at least first and second containers disposed together such that the interior volume of the first container is sealed against the environment exterior to the article.

An apparatus and methods are provided for an insulated beverage sleeve to maintain the temperature of liquid contents within a beverage container. The sleeve includes an insulative layer between an inner layer and an outer layer that are housed within an outer cylinder. The outer cylinder is configured to withstand impacts and protect the beverage container. The inner and outer layers may be formed of polyethylene or other suitable plastic. The insulative layer is a cylindrical member of fumed silica vacuum insulation that is disposed around the inner layer and surrounded by the outer layer. A disc of fumed silica vacuum insulation is disposed at the bottom of the sleeve to cooperate with the insulative layer to surround the beverage container. Top and bottom cushions are coupled with the outer cylinder to withstand being dropped onto a hard surface such as a floor, or a tennis court.