A temperature controller shipper for shipping temperature sensitive products. A plurality of individual product boxes contained in an inner mastercase each include a lyophilized product with low thermal mass. The plurality of product boxes each contain a unique PCM thermal dunnage insert occupying the normally empty space within the product box. The PCM insert artificially increases the thermal mass within each product box, and the added thermal mass enables an outer volume of thermal material, e.g. a PCM bladder or bricks, to be minimized to reduce the overall shipper volume and weight.

A beverage container packaging assembly includes a bottom tray, center support, and top tray. A bottom tray of molded paper pulp includes a plurality of cup-shaped elements. The cup-shaped elements include a first deformable element and a second deformable element. At least one of the first deformable element and the second deformable element includes at least two overlapping elements. A top tray of molded paper pulp includes a plurality of bottle neck accommodating spaces. A center support of molded paper pulp disposed between the bottom tray and the top tray. The center support includes beverage container support cavities bounded by one or more center support posts. The beverage container support cavities are configured to surround at least a portion of the beverage container. The support cavities include a draft such that the cavities decrease in diameter from a bottom end to a top end of the center support.

A beverage container packaging assembly includes a bottom tray, center support, and top tray. A bottom tray of molded paper pulp includes a plurality of cup-shaped elements. The cup-shaped elements include a first deformable element and a second deformable element. At least one of the first deformable element and the second deformable element includes at least two overlapping elements. A top tray of molded paper pulp includes a plurality of bottle neck accommodating spaces. A center support of molded paper pulp disposed between the bottom tray and the top tray. The center support includes beverage container support cavities bounded by one or more center support posts. The beverage container support cavities are configured to surround at least a portion of the beverage container. The support cavities include a draft such that the cavities decrease in diameter from a bottom end to a top end of the center support.

A packing tray (10) for packaging glass bottles (B), such as a glass wine bottle, the packing tray comprising: a plastic foam or molded fiber sheet (12) comprising a top wall (14) and an array (20) of recessed cell pockets (22) extending from the top wall; the top wall having a peripheral surface (18) surrounding the array of cell pockets and defining a top reference plane TRP; each cell pocket (22) comprising an open ring-shaped recess (24) having an elongated longitudinal axis LA transverse to the TRP and configured to be substantially aligned with a longitudinal axis of a glass bottle disposed upright in the recess; the ring-shaped recess (24) including an upper cell portion (26) of a first diameter (FD) larger than a body diameter (BD) of the glass bottle, and lower ring portion (28) having resilient elements (30) radially disposed and spaced apart about a circumference (C) of the ring-shaped recess (24) and that extend radially inwardly from the first diameter (FD) and configured to engage the body diameter (BD) of the glass bottle and bend under lateral stress (LS) such that the resilient elements provide repeatable shock absorption; the peripheral surface (18) of the packing tray being sized to engage inner walls (42) of an outer shipping carton (40) in which the packing tray and glass bottles in the array of cell pockets are disposed for shipping.

A packing tray (10) for packaging glass bottles (B), such as a glass wine bottle, the packing tray comprising: a plastic foam or molded fiber sheet (12) comprising a top wall (14) and an array (20) of recessed cell pockets (22) extending from the top wall; the top wall having a peripheral surface (18) surrounding the array of cell pockets and defining a top reference plane TRP; each cell pocket (22) comprising an open ring-shaped recess (24) having an elongated longitudinal axis LA transverse to the TRP and configured to be substantially aligned with a longitudinal axis of a glass bottle disposed upright in the recess; the ring-shaped recess (24) including an upper cell portion (26) of a first diameter (FD) larger than a body diameter (BD) of the glass bottle, and lower ring portion (28) having resilient elements (30) radially disposed and spaced apart about a circumference (C) of the ring-shaped recess (24) and that extend radially inwardly from the first diameter (FD) and configured to engage the body diameter (BD) of the glass bottle and bend under lateral stress (LS) such that the resilient elements provide repeatable shock absorption; the peripheral surface (18) of the packing tray being sized to engage inner walls (42) of an outer shipping carton (40) in which the packing tray and glass bottles in the array of cell pockets are disposed for shipping.

A beverage container packaging assembly includes a bottom tray, center support, and top tray. A bottom tray of molded paper pulp includes a plurality of cup-shaped elements. The cup-shaped elements include a first deformable element and a second deformable element. At least one of the first deformable element and the second deformable element includes at least two overlapping elements. A top tray of molded paper pulp includes a plurality of bottle neck accommodating spaces. A center support of molded paper pulp disposed between the bottom tray and the top tray. The center support includes beverage container support cavities bounded by one or more center support posts. The beverage container support cavities are configured to surround at least a portion of the beverage container. The support cavities include a draft such that the cavities decrease in diameter from a bottom end to a top end of the center support.

A beverage container packaging assembly includes a bottom tray, center support, and top tray. A bottom tray of molded paper pulp includes a plurality of cup-shaped elements. The cup-shaped elements include a first deformable element and a second deformable element. At least one of the first deformable element and the second deformable element includes at least two overlapping elements. A top tray of molded paper pulp includes a plurality of bottle neck accommodating spaces. A center support of molded paper pulp disposed between the bottom tray and the top tray. The center support includes beverage container support cavities bounded by one or more center support posts. The beverage container support cavities are configured to surround at least a portion of the beverage container. The support cavities include a draft such that the cavities decrease in diameter from a bottom end to a top end of the center support.

Beverage container packing trays, systems, and techniques of packing beverage containers include at least a beverage container tray including beverage container contoured compartments configured to receive one or more beverage containers in a lay flat configuration. The beverage container contoured compartments include at least a cradle element, a conical element, and a neck support element. The beverage container tray includes thermo pack compartments that house transport thermo packs adjacent to at least a portion of the beverage containers.

A tray including a plate-shaped portion for arranging a plurality of prismatic honeycomb structures having an outer peripheral side surface and partition walls provided on an inner peripheral side of the outer peripheral side surface, the partition walls partitioning a plurality of cells forming flow paths from a first end surface to a second end surface, the plate-shaped portion including: a plurality of corrugated plate-shaped placing portions for placing the prismatic honeycomb structures with the outer peripheral side surface in contact with the placing portions; flat plate-shaped non-placing portions adjacent to each of the corrugated plate-shaped placing portions; and partition walls erected between adjacent corrugated plate-shaped placing portions to prevent the outer peripheral side surfaces of adjacent prismatic honeycomb structures from contacting each other.

A tray including a plate-shaped portion for arranging a plurality of prismatic honeycomb structures having an outer peripheral side surface and partition walls provided on an inner peripheral side of the outer peripheral side surface, the partition walls partitioning a plurality of cells forming flow paths from a first end surface to a second end surface, the plate-shaped portion including: a plurality of corrugated plate-shaped placing portions for placing the prismatic honeycomb structures with the outer peripheral side surface in contact with the placing portions; flat plate-shaped non-placing portions adjacent to each of the corrugated plate-shaped placing portions; and partition walls erected between adjacent corrugated plate-shaped placing portions to prevent the outer peripheral side surfaces of adjacent prismatic honeycomb structures from contacting each other.