A corrugated pallet produced from two flat blanks is provided. The pallet may include a pallet top, a pallet bottom, and a plurality of corner straps locking the pallet top to the pallet bottom. Each of the pallet top and the pallet bottom may include folded portions, the folded portions of the pallet top interlocking with the folded portions of the pallet bottom when the pallet top and the pallet bottom are assembled to each other in nested relation. The pallet top may define a top surface of the pallet. The pallet bottom may define a bottom surface of the pallet. The corner straps may lock into one or both of the pallet top and the pallet bottom from the top or bottom surfaces of the pallet.

A container includes a pallet having a plurality of elongated grooves of predetermined pattern in the upper surface of the pallet, and at least one stackable container body formed with a wall member, the bottom edge surfaces having a plurality of protrusions formed thereon, the top edge surfaces having a plurality of slots formed therein at a corresponding location with the protrusions to allow one container body to stack on another container body with the protrusions of one container body inserted into the slots of the other container body. The container body includes a folding configuration at its side surfaces thereof to allow the container body to fold to reduce its size, wherein the elongated grooves of the pallet are configured to receive the protrusions of the container body both in the unfolded (original) shape and the folded shape.

A pallet includes a top deck having a rectangular shape, a bottom deck having a rectangular shape, and spaced apart corner support blocks and spaced apart intermediate support blocks coupled between the top and bottom decks and forming a gap therebetween for receiving a lifting member. Centerline markings are carried by at least one of the top deck, the bottom deck, and the corner and intermediate support blocks so as to provide a visual aid to an operator of the lifting member.

A pallet includes a top deck and a bottom deck. The top deck has spaced apart upper and lower surfaces, with the lower surface having upper tower openings therein. Spaced apart support blocks are coupled between the top and bottom decks and forming a gap therebetween for receiving a lifting member. Each support block includes an outer wall enclosing a center area, and a core structure having a rectangular shape within the center area, with upper surfaces of the core assembly and the outer wall being coplanar. An upper tower extends outwards from the core structure and into a corresponding upper tower opening in the top deck so as to provide a shear load transfer during impact with the lifting member. First ribs are between the outer wall and the core structure, and second ribs are within an interior area of the upper tower.

A pallet includes a top deck having a rectangular shape, a bottom deck having a rectangular shape, and spaced apart corner support blocks coupled between corners of the top and bottom decks and forming a gap therebetween for receiving a lifting member. Each corner support block includes a pair of exposed side surfaces aligned with a respective corner, with each exposed side surface having a pocket formed therein for receiving an end of the lifting member so as to allow the pallet to be spun around.

A pallet structure includes at least one bottom plate and at least one air bag. The at least one bottom plate is disposed on a bottom side of the cabinet for supporting the cabinet. The at least one air bag is detachably installed on a bottom side of the at least one bottom plate. The at least one air bag is inflated to prop the at least one bottom plate against the cabinet upwardly until at least one supporting component of the cabinet leaves away from a supporting surface, so as to effectively absorb a shock load during transportation of the cabinet.

A crate includes a base and an enclosure extending upwardly from the base defining a storage volume. A setback is defined around the enclosure such that a gap exists between corresponding sides of the base and the enclosure. The enclosure utilizes a lightweight, modular construction allowing the crate to be repeatedly assembled and disassembled for use and storage, and to allowing an enclosure storage volume to readily re-dimensioned as needed.

A configurable shock pallet accommodates different types of rack-mounted information handling systems (IHSes) having different weight profiles. A bottom structure has a pair of parallel apertures to receive forklift tines. A top deck receives a rack-mounted IHS of a selected weight profile for shipping. A horizontal array of pad locations is designated between the bottom structure and the top deck. Dampening inserts are assigned to respective pad locations of the horizontal array from dampening inserts of different densities. Attaching components secure the top deck to the bottom structure, separated by the dampening inserts to provide appropriate shock protection for the weight and weight distribution of the IHS. A shock pallet configuring system can receive a weight profile and indicate on an output interface the assigned pad configuration to manually or automatically assemble the configured shock pallet.

A system for mitigating vibration of a mass may include an elastic membrane enclosing at least one interior space and having an outer surface, where at least a bottom portion of the outer surface is coupled to a transportable supportive surface, and at least a top portion of the outer surface supports a load. The system may further include at least one port coupling the outer surface to the at least one interior space, where the port provides a source of fluid ingress into the interior space and fluid egress out of the interior space. The system may additionally include granular material distributed within the at least one interior space, where a packing density of the granular material is adjustable between a first jammed state having a first packing density of granular materials and a second jammed state having a second packing density of granular materials to accommodate different loads.

A pallet includes a top plate, an opposite bottom plate, and a series of supports disposed between the top and bottom plates. The series of supports, top plate, and bottom plate collectively define an opening on each vertical side of the pallet. The spacing of the supports from each other further defines a series of pathways configured to receive the forks of both a forklift and a pallet jack. The pallet may be configured to receive the forks of a forklift and a pallet jack from multiple different directions. The forks of the forklift may be received by the pallet such that the forks are oriented either perpendicular or parallel to the sides of the pallet. The forks of the pallet jack may be received by the pallet such that the forks are offset from being either perpendicular or parallel to the sides of the pallet.