A pallet assembly includes an upper portion including an upper deck and a plurality of upper column portions extending downward from the upper deck. A lower portion includes a plurality of lower column portions extending upward and a plurality of runners connecting the plurality of lower column portions. An upper reinforcement member is between an upper surface of the lower column portions and a lower surface of the upper deck. A lower reinforcement member between a lower surface of the upper column portions and an upper surface of the runners.

A tank support base and skid apparatus provides a frame having upper and lower end portions, left and right side portions and front and rear portions. The upper end portion has a front row of tank receptive supports and a back row of tank receptive supports. A frame floor is spaced vertically below the tank receptive support. The frame has a peripheral fluid barrier that includes a front wall, a rear wall and side walls that form the fluid barrier around the floor, each side wall extending from the floor to a tank receptive support. First and second internal support members span from one side of the frame to the other side of the frame and each spaced between the front wall and the rear wall. Each tank receptive support includes horizontal beams that span from the front wall to the rear wall and supported by the internal support members vertical members that each connect with a horizontal beam. Inclined plates each connect to both a horizontal beam and a vertical member. Stops mounted on the beams separate a tank receptive support of the first row with a tank receptive support of the back row.

A pallet includes a deck and one or more leg-plank bridges that extend from the deck. The leg-plank bridges include one or more legs and a plank that extends between the legs. The legs and plank are integrally formed together and attached to the deck. The legs have one or more internal walls that define one or more cavities. Concrete fills the cavities of the legs located on a lead end of the pallet. The remaining cavities in the legs are filled with foam. The cavities in one version are wedge shaped. Other legs of the deck are filled entirely with foam.

A pallet includes a top deck that includes a product support surface and an opposing underside, and with the product support surface including a pair of pallet support leg receiving areas. A pair of pallet support legs is on the underside of the top deck and aligned with the pallet support leg receiving areas. Each pallet support leg including a center leg section having a first end adjacent the underside of the top deck and a second end opposite the first end, and a pair of leg extensions extending outwards from the second end of the center leg section. An underside of the center leg section and the pair of leg extensions are configured to engage one of the pallet support leg receiving areas of an identical pallet when stacked thereon.

A reconfigurable pallet/dolly platform includes a top deck that includes a product support surface and an opposing underside. The underside includes pallet support leg attachment areas for receiving pallet support legs when configured as a pallet, and dolly wheel attachment areas for receiving dolly wheels when configured as a dolly. The product support surface includes pallet support leg receiving areas aligned with the pallet support leg attachment areas and configured to engage the pallet support legs from an identical platform stacked thereon when configured as a pallet. The product support surface also includes dolly wheel receiving areas aligned with the dolly wheel wells and configured to engage the dolly wheels from an identical platform stacked thereon when configured as a dolly.

The present invention provides a 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 structure may be a dunnage platform or a container for storing and/or shipping cargo.

A pallet structure having a preset shape for holding a support, the pallet structure comprising a shape main body and at least one support accommodated in the shape main body. The shape main body is provided with transverse grooves for accommodating a fork for lifting pallet. An elongate transverse strip can be placed in the transverse groove. The rigidity and load capacity of the pallet structure can be enhanced when placed on the ground with goods or lifted from the ground. The shape main body is provided with vertical grooves conformed to the appearance of the support, which allows the support on the shape main body to not easily displace and loosen, and also provides supporting and fork-lifting rigidity during carrying the goods with better weather resistance to avoid moisture and rust. Moreover, different load capacities can be achieved by modifying the amount, material, shape, thickness, etc. of the support.

A pallet includes a top deck and a bottom deck, and spaced apart support blocks coupled between the top and bottom decks and forming a gap therebetween for receiving a lifting member. Each support block includes a mid-section having spaced apart upper and lower surfaces, an upper tower extending from the upper surface of the mid-section, and a lower tower extending from the lower surface. The upper towers are inserted into corresponding upper tower openings in the top deck, and the lower towers are inserted into corresponding lower tower openings in the bottom deck.

Composite pallets and methods for making and using composite pallets are disclosed. An example composite pallet may include a base layer. The base layer may include a first base board, a second base board, and a cross-member extending between the first base board and the second base board. The cross-member may include a first end region designed to be detachably coupled to the first base board, a second end region designed to be detachably coupled to the second base board, and at least one curved section positioned between the first end region and the second end region. The cross-member may include a polymer. An intermediate layer may be coupled to the base layer. The intermediate layer may include a plurality of intermediate boards. A top layer may be coupled to the intermediate layer. The top layer may include a plurality of top boards.

A plastic pallet comprising a deck for storing objects to be transported, feet which are formed protruding from a deck underside, and runners which are formed in each case connecting at least two feet to each other on their undersides. The plastic pallet also comprises at least one stiffening structure which comprises lower side rails arranged in the runners, and upper side rails arranged spaced apart therefrom, which are arranged above the lower side rails running parallel thereto. The stiffening structure comprises rungs, each with a predominantly closed surface, which connect the lower side rails in the feet to the upper side rails. The rungs are formed in one piece on the side rails or are connected thereto in each case via contact surfaces in bonded, friction-locking or form-locking manner. As such, the pallet bending stiffness and shear strength in a plane parallel to the deck upper side are increased.