A pallet comprises an upper load supporting surface having a peripheral edge, and a lower surface having a peripheral edge. The lower surface has substantially the same dimensions as the upper load supporting surface. A plurality of peripheral supports are provided at or near the peripheral edge of the lower surface and extend upwardly therefrom to the upper load supporting surface so that the upper load supporting surface and the lower surface are spaced from each other and define sides of the pallet. Each side of the pallet has a first opening and a second opening which are defined by the upper load supporting surface, the lower surface, and a pair of peripheral supports. Inclined surfaces are provided on the lower surface.

A pallet comprises an upper load supporting surface having a peripheral edge, and a lower surface having a peripheral edge. The lower surface has substantially the same dimensions as the upper load supporting surface. A plurality of peripheral supports are provided at or near the peripheral edge of the lower surface and extend upwardly therefrom to the upper load supporting surface so that the upper load supporting surface and the lower surface are spaced from each other and define sides of the pallet. Each side of the pallet has a first opening and a second opening which are defined by the upper load supporting surface, the lower surface, and a pair of peripheral supports. Inclined surfaces are provided on the lower surface.

A pallet structure includes a positioning mechanism is provided. The positioning mechanism includes an engaging element disposed on a sloping edge and adapted to be engaged with slits formed on the inclined surface of a vehicle. A coil spring is connected between the engaging element and the sloping edge and biasing the engaging element to protrude outward from an outer surface of the sloping edge. A retaining element is disposed between an inner surface of the sloping edge and a bottom deck board of the pallet and configured to retain the engaging element to move between an engaging position and a disengaging position. The protruding end of the engaging element is protruded outward from the outer surface of the sloping edge in the engaging position, and the protruding end of the engaging element is not protruded from the outer surface of the sloping edge in the disengaging position.

A sheet metal pallet assembly includes a deck and an undercarriage. The deck is reinforced about its outer edges by longitudinal and transverse perimeter girding. The deck is further reinforced by one or more transverse reinforcement ribs and interior longitudinal girding. The undercarriage is composed of left and right fork tube risers joined together by bridges. The fork tube risers are configured to receive the tines of a forklift. Each fork tube riser has inner and a outer legs, each splayed at an a respective angle. Preferably, the splay angle of the outer leg is greater than the splay angle of the inner leg. The ends of each fork tube riser are folded over with a hem to improve strength and present a blunt edge. The undercarriage may, optionally, be fabricated from a single monolithic piece of sheet metal.

A pallet comprises an upper load supporting surface having a peripheral edge, and a lower surface having a peripheral edge. The lower surface has substantially the same dimensions as the upper load supporting surface. A plurality of peripheral supports are provided at or near the peripheral edge of the lower surface and extend upwardly therefrom to the upper load supporting surface so that the upper load supporting surface and the lower surface are spaced from each other and define sides of the pallet. Each side of the pallet has a first opening and a second opening which are defined by the upper load supporting surface, the lower surface, and a pair of peripheral supports. Inclined surfaces are provided on the lower surface.

An apparatus and method are described herein for a load carrying structure, and more particularly, to a load carrying pallet formed of modular interlocking components that do not require welding or bonding. An apparatus includes a load carrying structure having: a plurality of side members removably connected to each other to form a base; a first support member and a second support member, where the first support member and the second support member are each removably connected between a respective pair of the plurality of side members; and a top member, where the top member is removably fastened to each of the plurality of side members.

A sheet metal pallet assembly includes a deck and an undercarriage. The deck is reinforced about its outer edges by longitudinal and transverse perimeter girding. The deck is further reinforced by one or more transverse reinforcement ribs and interior longitudinal girding. The undercarriage is composed of left and right fork tube risers joined together by bridges. The fork tube risers are configured to receive the tines of a forklift. Each fork tube riser has inner and a outer legs, each splayed at an a respective angle. Preferably, the splay angle of the outer leg is greater than the splay angle of the inner leg. The ends of each fork tube riser are folded over with a hem to improve strength and present a blunt edge. The undercarriage may, optionally, be fabricated from a single monolithic piece of sheet metal.

A pallet structure includes a positioning mechanism is provided. The positioning mechanism includes an engaging element disposed on a sloping edge and adapted to be engaged with slits formed on the inclined surface of a vehicle. A coil spring is connected between the engaging element and the sloping edge and biasing the engaging element to protrude outward from an outer surface of the sloping edge. A retaining element is disposed between an inner surface of the sloping edge and a bottom deck board of the pallet and configured to retain the engaging element to move between an engaging position and a disengaging position. The protruding end of the engaging element is protruded outward from the outer surface of the sloping edge in the engaging position, and the protruding end of the engaging element is not protruded from the outer surface of the sloping edge in the disengaging position.

An apparatus and method are described herein for a load carrying structure, and more particularly, to a load carrying pallet formed of modular interlocking components that do not require welding or bonding. An apparatus includes a load carrying structure having: a plurality of side members removably connected to each other to form a base; a first support member and a second support member, where the first support member and the second support member are each removably connected between a respective pair of the plurality of side members; and a top member, where the top member is removably fastened to each of the plurality of side members.