A nestable pallet includes a deck supported by hollow legs. Each hollow leg has an upper opening for receiving part of a corresponding leg of another pallet when the pallets are stacked. A horizontal cross-sectional shape of at least one, and preferably all, of the hollow legs corresponds to the union of at least two oblong shapes intersecting orthogonally, each oblong shape having an aspect ratio greater than 2:1. The legs preferably have T-shaped or H-shaped cross-sectional shapes, and may be deployed to provide support for reinforcing beams extending through the deck.

Disclosed is stack support assembly. The stack support assembly includes at least one binding element to press and bind at least one support leg to a material stack; and at least one elongated and partially hollow support leg composed of a shaped polymer. The elongated and partially hollow support leg includes vertically oriented side walls connected to one another with a repeating pattern of interconnect structures, thereby forming hollowed channels extending between a top plane and a bottom plane of the support leg.

The invention relates to a plastic pallet (1) with an upper part (2) provided with female foot parts (4, 4′) and skids (3, 3′) provided with male foot parts (5, 5′). The male foot parts (5, 5′), together with the female foot parts (4, 4′), form feet (21, 21′), with the foot parts (4, 4′) of the upper part and the foot parts (5, 5′) of the skids (3 3′) being fastened to one another by means of snap connections (6). Each male foot part (5, 5′) includes at least two snap hooks (8), which are arranged with mirror symmetry in pairs and which each have a hook head (9) with undercut (91), a snap arm (8′) and a rear side (10), the undercuts (9′) of the hook heads (9) facing away from one another and the rear sides (10) of the snap hooks (8) facing towards one another. Each female foot part (4, 4′) includes at least one latch element (7), into which the hook heads (9) are engaged, forming a snap connection (6) in each case. The female foot parts (4, 4′) are integrally connected to the upper part (2). Each female foot part (4, 4′) includes at least one securing element (12), each with at least one free end (13), the securing element (12) being integrally connected to the female foot part (4, 4′), and the securing element (12) protruding into an intermediate space (24) between the rear sides (10) of the snap hooks (8) so that the snap hooks (8) remain in the engaged position.

A bracket for securing a plurality of support members for a shipping crate assembly is also disclosed. The bracket forms a corner of the shipping crate assembly. The bracket includes first and second non-identical plates. The first and second non-identical plates are joined along a connection line. The first and second non-identical plates extend perpendicularly from each other. A foot is secured to the first and second non-identical plates, the foot being secured along the connection line.

A pallet, including a plurality of spaced apart stringers defining a pallet width and a plurality of slats extending lengthwise across the stringers corresponding to the pallet width. The slats have upper surfaces that are coplanar, and at least two of the slats have a length that is less than the pallet width and define undersized slats having upper surfaces that are coplanar with the upper surfaces of the slats to define a planar upper load support surface of the pallet. A slat splice connector bridges between adjacent ones of the undersized slats so that the undersized slats are spliced together to provide a spliced slat have a length corresponding to the pallet width. The slat splice connector has an elevated surface between and supported by a pair of spaced apart legs. The undersized slats of the spliced slat are supported by and attached to the legs of the slat splice connector, and the elevated surface of the slat splice connector is coplanar with the upper surfaces of the spliced slat.

A stackable container system is configured to provide stacked receptacles for receiving bulk material therein. The stackable container system includes a first receptacle configured to provide a respective stacked receptacle. The first receptacle includes a receptable bottom, a receptable top, and a receptacle side extending along an upright container axis between the receptacle bottom and top, with the first receptacle presenting a container chamber. The receptacle top is configured to at least partly support another one of the stacked receptacles stacked relative thereto along the upright container axis. The receptacle top and the receptacle side have, respectively, a top peripheral margin and a side peripheral margin that extend laterally about the upright container axis, with at least part of the top peripheral margin being laterally outboard of the side peripheral margin. At least part of the top peripheral margin is interconnected to the side peripheral margin along a transition section that extends laterally between the receptacle top and the receptacle side.

A heavy-duty, thermoplastic storage bin comprises a rectilinear base, spaced columns integrally formed with the base, and rectangular end and side panels that are foldable and erectable with respect to the base. At least one of the panels is detachable from the base. At least one central column having an integral portion protrudes upwardly from an upper base surface and is interlockable with a corresponding side panel at a bottom center region, for generating a sufficiently high sagging resisting moment. In a method for emptying the bin, the base is supported by a forklift, after the bin has been loaded with desired products. Following a material handling operation by the forklift, a tilting device carried by the forklift is operated to sufficiently change a disposition of the bin such that the loaded products are caused to be emptied while a side panel remains engaged with the central and corner columns.

A container for holding product therein during shipment and for reuse has multiple levels of tracks supported by each side of the container. At least one of the tracks on each side may be linear, generally U-shaped and/or L-shaped. Dunnage supports and at least one lockable crossbar assembly travel along corresponding tracks at the same level. At least one lockable crossbar assembly has locking assemblies to fix the position of the lockable crossbar assembly relative to the tracks. Dunnage hangs from at least some of the dunnage supports for supporting products.

A container for holding product therein during shipment and being returned for reuse has at least one track supported by each side of the container. The container has dunnage supports extending between corresponding tracks at the same level. At least one lockable crossbar assembly has one or more locking assemblies to fix the position of the lockable crossbar assembly relative to the tracks. Dunnage may hang from the dunnage supports for supporting products during storage or shipment.

A container includes a receptacle including an upright receptacle side and a receptacle bottom that cooperate to at least partly define a container chamber. The bottom presents a peripheral margin, with the side being attached to the bottom along the peripheral margin and extending upwardly relative to the bottom along an upright container axis. The receptacle further includes a drain configured to permit material flow out of the chamber, with the drain intersecting the bottom to define a drain opening that fluidly communicates with the chamber. The drain opening is spaced inboard from the peripheral margin and is laterally offset from the container axis in an offset direction. The bottom includes first and second floor sections extending inboard from the peripheral margin and joined relative to each other along a first gutter area adjacent the drain opening. The first floor section slopes downwardly toward the first gutter area in the offset direction and the second floor section slopes downwardly toward the first gutter area in a direction opposite the offset direction, with the floor sections configured to cooperatively advance material within the chamber toward the drain opening.