Pallet made of plastic, with a cover plate (2) for holding objects and with at least two, preferably three skids (4) arranged below the cover plate, which are arranged parallel to each other and parallel to a pallet edge (6) and each with a skid standing surface (12), at the ends of which an angled support leg-like skid member (10) is arranged from the skid base in the direction of the cover plate, the skid base surface (12) being arranged at a distance from the cover plate by the skid support members (10) and support feet (8) arranged therebetween is detachably connected to the latter, the skids (4) each being formed from at least two, preferably one-piece skids (4a, 4b) which together form a skid of the pallet each releasably connectable to the cover plate (2) and which are in the position mounted on the cover plate.

The present invention relates to a pallet with impact resistant columns (3) comprising a structure for the distribution of impact energy (4) configured for the distribution of impact forces, at the same time as its internal structure deforms and is compacted upon receiving impacts, such that the pallet remains functional although its columns (3) are permanently deformed and/or partially fractured.

An equal-fork pallet comprising a pallet body is provided. 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 equal-fork pallet 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. The pallet can overcome the problems of low local compressive strength and proneness to produce stress fracture and local cracking.

The present invention provides a thinner, movable load bearing structure having indentations, grooves, valleys, channels or other similar depressions on its underside. These depressions are mated with corresponding features for improved loading bearing capabilities. The load bearing structures also includes roughened side edges for improving the strength of the edges. The load bearing structure may be a dunnage platform or a container for storing and/or shipping cargo.

Nylon pallets constructed from injection molded top and bottom portions having mirror image upstanding post open ends and upstanding posts with extended attachment clips configured in corresponding arrays on opposing top and bottom surfaces, with each open end and attachment clip pairing when connected locked together by a locking pin. Each pallet provides real time tracking, identification, and monitoring capabilities from at least one removable communication/sensor box releasably secured between conjoined top and bottom portions. Each pallet provides equipment entry passages between top and bottom portions from all four pallet sides.

A pallet having a top deck supported by four corner posts that extend to a bottom deck. The top deck has four side beams and four intermediate beams, with the beams each being provided with tubular reinforcements with the tubular reinforcements providing longitudinally extending passages that can receive reinforcing rods.

A reinforced plastic pallet includes an integrally formed deck having a top deck surface, a bottom deck surface, and a plurality of spaced apart supports extending between the top deck surface and the bottom deck surface. The top deck surface has a plurality of outwardly extending top ribs extending from the top deck surface and the bottom deck surface has a plurality of outwardly extending bottom ribs extending from the bottom deck surface. A top sheet is coupled to the top deck surface to fully enclose the top ribs between the top sheet and the top deck surface. A bottom sheet is coupled to the bottom deck surface and encloses the bottom ribs between the bottom sheet and the bottom deck surface. The pallet may include optional reinforcement rods fully contained within channels formed in the ribs.

The present invention provides a thinner, movable load bearing structure having indentations, grooves, valleys, channels or other similar depressions on its underside. These depressions are mated with corresponding features for improved loading bearing capabilities. The load bearing structures also includes roughened side edges for improving the strength of the edges. The load bearing structure may be a dunnage platform or a container for storing and/or shipping cargo.

Composite pallets and methods for making and using composite pallets are disclosed. An example composite pallet may include a plurality of base boards. The base boards may include a first resin material and a first fiber material. A plurality of support blocks may be coupled to the base boards. The support blocks may include a second resin material and an impact modifier. A plurality of intermediate boards may be coupled to the support blocks. The intermediate boards may include a third resin material and a second fiber material. One or more top end boards may be coupled to the intermediate boards. The one or more top end boards may include a fourth resin material and a third fiber material. One or more top boards may be disposed adjacent to at least one of the one or more top end boards. The one or more top boards may include a fifth resin material.

Sleeve pallet 10 is constructed from corrugate are disclosed. The sleeve pallet 10 includes a series of stringers 12 secured to an upper deck 14 and/or collar 16. When bonded to an upper deck 14, the upper deck 14 is bonded to and supports a collar 16. The collar 16 defines a peripheral flange 40. The peripheral flange 40 retains a sleeve over the collar 16 and/or upper deck 14 of the sleeve pallet 10. A cap 60 can be provided to cover and retains goods within the cavity 82 defined by the sleeve pallet 10. Before assembly, the flange 40 of the collar 16, the sleeve 18, and, when used, the cap 60 may be secured together by straps in a collapsed configuration.