Disclosed are systems, apparatus and methods for transporting a palletized stack of bottles or other similar bulk-produced containers using a unique pallet base and a unique set of side panels that may be engaged with the base and with each other in order to protect the stacks of bottles on the pallet base during shipping and transport. Embodiments of the invention dampen vibrations, protect the bottles from exterior contaminants, and allow the bottles to be viewed from the outside. Embodiments of the invention also provide reusable pallet systems that are easy to assemble and disassemble, and ship back for reuse.

Embodiments of the disclosure relate to shipping cases, dewars, and systems for transporting a frozen material. More specifically, the embodiments described herein include and/or enable dewar lid protective systems, data logging enablement, controlled coolant escape, efficient stacking options during transport, spill protection to ensure safe and effective transport of frozen samples and materials among other things. An exemplary use for the systems described herein includes reliable shipping for frozen materials at specified environmental conditions which can be tracked and verified.

The purpose of the claimed invention is to have a protective internal structure using multiple corrugated paperboard inserts that will fit into a RSC (regular slotted container) case. These inserts and the internal structure that it creates, enable a user to ship their product via common or contract carrier without damage to the user's product.

Various implementations include packaging for products. In some particular implementations, a product package includes: a base section having: a base inner core section having: a central section including a recess sized to receive an accessory of the product; and a plurality of foldable end sections adjacent the central section and configured to fold at an angle relative to the central section; and a base cover sized to directly contact and cover the base inner core section; and an upper section sized to complement the base section, the upper section having: an upper inner core section having: a central section; and a plurality side sections adjacent the central section; and an upper cover sized to directly contact and cover the upper inner core section.

A method for manufacturing flexible bags, including: a first strip of flexible material is unwound as a continuous sheet in a longitudinal direction; a hem is formed on each edge of the first strip and the hems are glued over at least one length of a first or a second flap on one stitching face; a fold is formed in the first strip along a transverse folding line to fold down the first flap over the second flap against an internal face of the first strip, the fold bringing, for each edge, hem against hem so as to obtain the bonding of the hems, the strip is cut along a transverse section to form the bag at the end of the operations. Machine implementing the method and bag thus obtained.

A wrap around container for holding an electronic device has a substantially rectangular panel comprising a device receiving portion at one end of the panel, a fixing portion at the opposite end of the panel, and a wrap around portion in between. A pair of flaps extend from opposite sides of the device receiving portion of the panel, each side being on a respective longitudinal edge of the rectangular panel. Each flap is arranged to be folded into a closed position where the flap is over at least a part of the device receiving portion and an upper surface of a device when placed on the device receiving portion. The wrap around portion is arranged to wrap at least over the flaps in the closed position and the fixing portion is arranged to be fixed to an outside of the container after wrapping of the wrap around portion to close the container. Foam means extend over at least part of the device receiving portion and onto the surface of each flap facing the device receiving portion when in the closed position so as to form a foam barrier between a device placed on the device receiving portion and the device receiving portion and the closed flaps. The foam means are attached to the device receiving portion and the two flaps and the foam means is configured to be peelable away from the container when the container is open.

A one-piece cushioning and insulating container and insulation template for forming the container are provided. The insulation template includes a case blank and an insulating member secured thereto. The template may be formed into a three-dimensional container that provides cushioning and insulating items contained inside the container by simultaneously folding the case blank and insulating member. The template is designed to provide a completely enclosed space that is cushioned and insulated on all sides. The dimensions of the template may be adjusted to create containers of varying dimensions. The container may be constructed of various materials with a layer of soft, flexible material secured therein. The template may have heating or cooling elements, including phase change materials, incorporated into insulating member.

Various implementations include packaging for products. In some particular implementations, a product package includes: a base section having: a base inner core section having: a central section including a recess sized to receive an accessory of the product; and a plurality of foldable end sections adjacent the central section and configured to fold at an angle relative to the central section; and a base cover sized to directly contact and cover the base inner core section; and an upper section sized to complement the base section, the upper section having: an upper inner core section having: a central section; and a plurality side sections adjacent the central section; and an upper cover sized to directly contact and cover the upper inner core section.

A wrap around container (31) for holding an electronic device (53) has a substantially rectangular panel (34) comprising a device receiving portion (43) at one end of the panel (34), a fixing portion (35) at the opposite end of the panel (34), and a wrap around portion (37) in between. A pair of flaps (32, 33) extend from opposite sides of the device receiving portion (43) of the panel (34), each side being on a respective longitudinal edge of the rectangular panel (34). Each flap (32, 33) is arranged to be folded into a closed position where the flap (32, 33) is over at least a part of the device receiving portion (43) and an upper surface of a device (53) when placed on the device receiving portion (43). The wrap around portion (37) is arranged to wrap at least over the flaps (32, 33) in the closed position and the fixing portion (35) is arranged to be fixed to an outside of the container (31) after wrapping of the wrap around portion (37) to close the container (31). Foam means (50) extend over at least part of the device receiving portion (43) and onto the surface of each flap (32, 33) facing the device receiving portion (43) when in the closed position so as to form a foam barrier between a device (53) placed on the device receiving portion (43) and the device receiving portion (43) and the closed flaps (32, 33). The foam means (50) are attached to the device receiving portion (43) and the two flaps (32, 33) and the foam means (50) is configured to be peelable away from the container (31) when the container (31) is open.

A method and system of and for transporting items, including an improved container having thermal isolation and/or insulation characteristics to maintain a desired temperature within the container, the container being lightweight, sturdy, and able to keep its contents well insulated.