A pallet comprising upper and lower platforms connected by a plurality of blocks. The upper platform includes a plurality of upper platform pedestals and the lower platform includes a plurality of lower platform pedestals. The lower platform pedestals are aligned with the upper platform pedestals such that the lower platform pedestals and the upper platform pedestals extend towards one another. The plurality of blocks interlockingly engage with and extend between the upper and lower platform pedestals to connect the upper and lower platforms. Each block includes an upper recess and a lower recess. The upper recess matches the shape of and receives one of the upper platform pedestals. The lower recess matches the shape of and receives one of the lower platform pedestals. The upper platform, the lower platform, and the plurality of blocks are made of a polymeric material.

The present invention discloses an equal-fork pallet comprising a pallet body, wherein the pallet body is provided with a stand structure and a reinforcing structure, the reinforcing structure is a reinforcing rib embodied by a groove structure pressed on the surface of the pallet body, and the reinforcing rib comprises a connection type reinforcing rib and a semi-partition type reinforcing rib, the stand structure comprises a corner stand, an edge stand and a center stand, and neither end of the partition type reinforcing rib is connected to the stand. The present invention has a reasonable structural design and strong pressure bearing capacity, with targeted layout and design of the reinforcing rib centralized position and stress concentration position such as stand. It can overcome the problems of the prior art, such as low local compressive strength of the pallet, proneness to produce stress fracture and local cracking, etc.

A modular pallet formed from a plurality of frame members and a plurality of deck members. The deck members extend between the frame members to define an upper deck surface and optionally a lower deck surface of the pallet. A plurality of spaced-apart channels are formed in at least an upper surface of the frame members to receive the deck members. In some embodiments the pallet may be configured as a stringer pallet and in other embodiments the pallet may be configured as a block pallet. In some embodiments the frame members are unitary stringers. In other embodiments the frame members are modular structures each comprising a block pallet subassembly and a deck support panel. The number, size, orientation and spacing of the channels formed in the frame members and the corresponding arrangement of the deck members may vary in different embodiments of the pallet. Once assembled, the frame members and deck members may be integrally connected, such as by heat welding. In some embodiments the pallet is formed from readily recyclable plastic.

A plastic composite modular rebuildable pallet has replaceable top boards, stringers and bottom boards made from a thermoplastic resin with variable amounts of long glass fiber reinforcements molded into the pallet boards. The top boards have on center circular indexing buttons. The stringers have top lengthwise molded in channels for receiving multiple reinforcing metal bars, rods or tubes held in place by the top boards. The bottom boards have two circular cups at each end on their bottom surfaces for indexing with the on center buttons of the below pallet when the empty pallets are stacked for storage and transportation. This arrangement allows for the bottom boards to be horizontally reversibly mounted on the bottom surface of the stringers in either 180? horizontal direction. The bottom boards have thick bottom feet pads with foot wear-resistant pads for sliding engagement with ground surfaces.

In one embodiment, a maintainable pallet is provided with interchangeable support structures and sensors for identifying any damage that the interchangeable support structures may experience. The maintainable pallet may include two side supports, two end supports coupled to the two side supports end-to-end to form a rectangle, a central support position between the two side supports, a plurality of top transverse support fastened onto the two side supports to form a top loading surface and the central support with two-part releasable fasteners, and two bottom transverse supports fastened to the ends of the two side supports to form a bottom surface with two-part releasable fasteners. Sensors, in some embodiments, may be embedded in the two side supports to measure, for example, acceleration, location, or other logistic information. When a damaged piece is identified, the maintainable pallet can be disassembled by unfastening the two-part releasable fasteners to remove the damaged piece; and a new interchangeable piece will replace the damaged piece.

A pallet is formed in which one or more components thereof is formed of a composite material. The composite material includes mass particles consisting of a fibrous material derived at least in part from recycled post-consumer materials and a binding material consisting of a thermoplastic material derived at least in part from recycled post-consumer materials. The mass particles and the binding material are mixed such that the binding material is liquified and each mass particle is fully encapsulated by the liquified binding material.

At least a surface of a reel pallet is made of resin. When a distance in a first direction between a reel supported by a first reel support and a reel supported by a second reel support is denoted by La, a distance in the first direction between an outer edge of the reel supported by the second reel support and a fourth side of an arrangement surface is denoted by Lb1, and a distance in the first direction between an end surface of the reel supported by the first reel support and a second side of the arrangement surface is denoted by Lb2, the reel pallet satisfies a relationship of 1<La/(Lb1+Lb2)<3.

In one embodiment, a maintainable pallet is provided with interchangeable support structures and sensors for identifying any damage that the interchangeable support structures may experience. The maintainable pallet may include two side supports, two end supports coupled to the two side supports end-to-end to form a rectangle, a central support position between the two side supports, a plurality of top transverse support fastened onto the two side supports to form a top loading surface and the central support with two-part releasable fasteners, and two bottom transverse supports fastened to the ends of the two side supports to form a bottom surface with two-part releasable fasteners. Sensors, in some embodiments, may be embedded in the two side supports to measure, for example, acceleration, location, or other logistic information. When a damaged piece is identified, the maintainable pallet can be disassembled by unfastening the two-part releasable fasteners to remove the damaged piece; and a new interchangeable piece will replace the damaged piece.

The container has a lid structure comprising two lid panels. The first lid panel forms at least a part of the top wall. The second lid panel forms at least part of one of the side walls. When the container is in the erected condition the lid structure can have one of, and be moved between, a closed configuration; top load configuration; and, front load configuration. The front load configuration has two variants. In a first front load configuration the first and second lid panels remain connected to each other and are moved so that they are in a substantial face to face relationship. In the second front load configuration the second lid panel is pivoted to lie on top of the first lid panel.

The invention relates to a composite sandwich base panel for a Unit Load Device. The panel comprises an upper surface layer comprising fibre reinforcement material, a lower surface layer comprising fibre reinforcement material, and a central core section where at least the majority comprises a plurality of particles bound in a matrix material. The upper surface layer and lower surface layer are provided with a matrix material to bind them to the central core section.