A pallet forming concrete mold assembly includes a bottom wall having a top side, a bottom side and a perimeter edge. The perimeter wall has a rectangular shape and the bottom wall has a length and width each is between 40.0 inches and 60.0 inches. A perimeter wall is attached to and extends upwardly from the perimeter edge. The perimeter wall includes a front wall, a rear wall, a first lateral wall and a second lateral wall. The top side of the bottom wall has a pair of raised sections extending from the front wall to the back wall. The raised sections form forklift slots in a concrete block formed by the bottom and perimeter walls. The raised sections are oriented parallel to each other.

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. Each dolly wheel receiving area partially overlaps with one of the pallet support leg receiving areas.

A piezoelectric generator structure disposed between an upper platform and a lower platform that includes a lower piezoelectric pad, an upper piezoelectric pad, and a connecting shaft. The lower piezoelectric pad coupled to the upper piezoelectric pad via the connecting shaft, where the lower piezoelectric pad is configured to compress under a downward motion of the upper platform during a compression movement due to an additional load being applied to an existing load on a top surface of the upper platform, where the lower piezoelectric pad produces a first voltage due to the compression movement. The upper piezoelectric pad configured to compress under an upward motion of the upper platform during a rebound movement of the upper platform, where the upper piezoelectric pad produces a second voltage due to the rebound movement. The generator structure configured to provide the first and the second voltage to a coupled power storage unit.

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.

The invention relates to a method for stacking of filled sacks (20) to a pallet-free sack stacking (10) comprising the following: Performing of a first layer (L1) from at least two rows of filled sacks (20), Performing of at least one further layer (L2) from at least two rows of filled sacks (20) on top of the first layer (L1), Covering of the completed sack stacking (10) with at least a stabilized cover (30). The first layer (L1) or the last layer (L9) of the sack stacking with at least two elevating recesses (40) are performed for an elevation with a forklift and between two layers (L8, L9) a mechanically stiffened intermediate space (50) is realized with a floor space (52) which extends between both neighboring layers (L8, L9) and at least a lateral flap (54) which extends along the lateral side (22) of the sacks (20) of one of both neighboring layers (L8, L9) and transverse to the elevating recesses (40).

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 first pallet includes a deck and a peripheral wall extending downward from a periphery of the deck. A plurality of feet extend downward from the deck. Each of the feet includes a foot wall defining its periphery. An outer portion of each foot wall is coterminous with the peripheral wall of the deck. The deck includes an opening aligned with each of the plurality of feet. A second, wider pallet may be used with the first pallet. The second pallet may be stacked on the first pallet and vice versa. In the second pallet, the outer portion of the wall of each of the feet is spaced inward from the peripheral wall of the deck, such that the deck of the second pallet is wider than the deck of the first pallet, but the spacing and size of the feet of both decks are identical.

A container includes a receptacle including an upright receptacle side and a receptacle bottom that cooperate to at least partly define a container chamber. The bottom presents a peripheral margin, with the side being attached to the bottom along the peripheral margin and extending upwardly relative to the bottom along an upright container axis. The receptacle further includes a drain configured to permit material flow out of the chamber, with the drain intersecting the bottom to define a drain opening that fluidly communicates with the chamber. The drain opening is spaced inboard from the peripheral margin and is laterally offset from the container axis in an offset direction. The bottom includes first and second floor sections extending inboard from the peripheral margin and joined relative to each other along a first gutter area adjacent the drain opening. The first floor section slopes downwardly toward the first gutter area in the offset direction and the second floor section slopes downwardly toward the first gutter area in a direction opposite the offset direction, with the floor sections configured to cooperatively advance material within the chamber toward the drain opening.

A packaged article is composed of a bulk bag having a top end and a bottom end. Further included is a pallet having a first side and a second side. Also included are an outer bag having a first closed end and a first open end and a heatshrink bag having a second closed end and a second open end. The first closed end of the outer bag is between the bottom end of the bulk bag and the first side of the pallet. The first open end of the outer bag is gathered over the top end of the bulk bag to enclose the bulk bag within the outer bag. The second closed end of the heatshrink bag is proximate to the top end of the bulk bag and the second open end contacts the second side of the pallet.

A multi-level rail for a storage structure may comprise an upper horizontal portion configured to support a load and a lower horizontal portion configured to support a row vehicle. An upper support portion extends downward diagonally from the upper horizontal portion toward the lower horizontal portion, and a lower support extends downward diagonally from the lower horizontal portion. This rail is configured to connect to at least one vertical post of the storage structure. Support beams for a railed storage structure are also disclosed with an elongated body having a terminal end portion configured to attach to a vertical column of a storage support structure and an upper support surface configured to support a horizontal support rail. A wing portion is secured to the terminal end portion and configured to attach to the horizontal support rail by extending lateral to the elongated body and above the upper support surface.