A tray for storing and transporting bottles includes a plurality of spaced apart base walls each for supporting a bottle thereon. A pair of opposed side walls and a plurality of interior columns are connected by a plurality of dividers. The dividers also connect the columns and the side walls to the base wall. Each divider includes a lower end having spaced apart pocket walls each connected to a different one of the base walls.

A tray for storing and transporting bottles includes a plurality of spaced apart base walls each for supporting a bottle thereon. A pair of opposed side walls and a plurality of interior columns are connected by a plurality of dividers. The dividers also connect the columns and the side walls to the base wall. Each divider includes a lower end having spaced apart pocket walls each connected to a different one of the base walls.

Stackable trays for jugs, stacked arrangements and stacking methods are disclosed. A tray has a first surface to support a bottom of one or more jugs, and could include jug receiving cells. A collar could extend downwardly from a second surface opposite the first surface and have at least one notch sized to receive a portion of a handle of a respective jug located beneath each jug receiving cell. Load transfer to the handles of the jugs below the second surface could be provided by load transfer structures, such as the collars in one embodiment, which extend from the second surface to engage the jugs. A stacked arrangement includes multiple layers of jugs with a respective stackable tray between adjacent layers of the multiple layers. The trays could thus be used in stacking or otherwise arranging jugs in multiple layers.

Stackable trays for jugs, stacked arrangements and stacking methods are disclosed. A tray has a first surface to support a bottom of one or more jugs, and could include jug receiving cells. A collar could extend downwardly from a second surface opposite the first surface and have at least one notch sized to receive a portion of a handle of a respective jug located beneath each jug receiving cell. Load transfer to the handles of the jugs below the second surface could be provided by load transfer structures, such as the collars in one embodiment, which extend from the second surface to engage the jugs. A stacked arrangement includes multiple layers of jugs with a respective stackable tray between adjacent layers of the multiple layers. The trays could thus be used in stacking or otherwise arranging jugs in multiple layers.

A tier sheet includes a deck having a support surface. A plurality of walls extend downward to define lower recesses for receiving the upper ends of containers therebelow. In one embodiment, the tier sheet is a single thermoformed sheet and includes a plurality of upper recesses formed in the deck, each upper recess defined between an outer wall and a column. In another embodiment, the tier sheet is injection molded.

A tier sheet includes a deck having a support surface. A plurality of walls extend downward to define lower recesses for receiving the upper ends of containers therebelow. In one embodiment, the tier sheet is a single thermoformed sheet and includes a plurality of upper recesses formed in the deck, each upper recess defined between an outer wall and a column. In another embodiment, the tier sheet is injection molded.

Various nesting structures for storage, transport and/or assembly of dispensers and containers are described herein. For example, a packaging structure for a plurality of drug dispensers may include a support surface and a plurality of dispenser covers arranged on the support surface, where at least one dispenser cover includes a locking flexure member configured to couple a dispenser to the at least one dispenser cover.

A storage rack for receiving articles for storage is disclosed. The rack is typically for use in storing and transporting samples used in a pathology laboratory. The rack includes a plurality of weight-bearing surfaces, defined by the junction of a plurality of concentric tubes, for supporting and retaining an article at a predetermined distance from a datum surface. One or more of the weight-bearing portions defines an opening, allowing an article to extend therethrough when not supported on said weight-bearing portion. The maximum size of article that can be received on any weight-bearing portion differs with respect to the distance of weight-bearing portion from the datum surface.

A storage rack for receiving articles for storage is disclosed. The rack is typically for use in storing and transporting samples used in a pathology laboratory. The rack includes a plurality of weight-bearing surfaces, defined by the junction of a plurality of concentric tubes, for supporting and retaining an article at a predetermined distance from a datum surface. One or more of the weight-bearing portions defines an opening, allowing an article to extend therethrough when not supported on said weight-bearing portion. The maximum size of article that can be received on any weight-bearing portion differs with respect to the distance of weight-bearing portion from the datum surface.

A beverage crate include a base, a pair of opposed side walls extending upward from the sides of the base and a pair of end walls extending upward from ends of the base. The end walls each include a pair of spaced apart end columns. A handle extends across the pair of spaced apart columns at each end wall. The height of the handle is aligned with a portion of the bottle having a reduced diameter. For example, some bottles have a tapered or contoured middle portion to facilitate grasping the bottle. This allows the handle to be positioned closer to the bottles, which reduces the overall length of the crate. The reduced length of the crate then permits a reduced width of the crate per the required ratio for cross-stacking. The reduced width then permits a full bottle capture on the bottom surface of the crate.