The present disclosure provides an accessory for dunnage used with, for example, bundles of lumber, to reduce the friction between the dunnage and the ground for easier transport and protection of the dunnage and banding during transport. The accessory for dunnage of the present disclosure may comprise a base and a pair of arms extending the base. A receptacle may be defined on three sides by the base and pair of arms. The receptacle may be configured to receive a portion of dunnage. The pair of arms may include hooks configured to retain the portion of dunnage within the receptacle. The accessory may be made of a resilient material, in order to widen to receive the portion of dunnage, and pinch to retain said portion within the receptacle.

A shell and retainer containment system for storing and transporting bottles, comprising an outer shell and an upper retainer. The outer shell includes a base, a number of sidewalls, and a top rim cooperatively forming a central cavity. The top rim includes a set of handles, a set of forklift fork openings for lifting the outer shell and retainer containment system via a forklift fork, and stacking geometry. The upper retainer secures the bottles in the central cavity and includes a brace and four corner reinforcements. The brace is positioned above the bottles and includes access openings for allowing access to bung openings of the bottles. The corner reinforcements extend upwards toward upper corners of the outer shell and include fastener openings for attaching the upper retainer to the outer shell via fasteners for securing the bottles in the central cavity.

According to illustrative embodiments, a novel pallet wrap is provided. In some preferred embodiments, the pallet wrap includes: an expandable slit sheet paper having a slit pattern including a plurality of slits extending in a cross direction that forms a plurality of open cells upon expansion in a machine direction, and a non-slit paper support wrap, wherein said expandable slit sheet paper is configured to be wrapped around a pallet assembly and said paper support wrap is configured to surround at least a portion of said expandable slit sheet paper wrapped around said pallet assembly.

A method for producing a pallet-less packaging unit has multiple packaging objects stacked to a stack of goods. The objects are stacked with a special layer that forms at least two encroachment areas for fork legs of a lift truck in at least one stack level. The special layer is first stacked on a normal layer larger than the special layer. The stack of goods is wrapped with its encroachment areas with a first film, the stack of goods that is wrapped on one side is turned around so the part of the stack of goods that has the special layer comes downwards and the stack of goods is wrapped with a second film that reaches up to the first film. In embodiments, second encroachment areas extend essentially at a right angle to first encroachment areas. The method provides a pallet-less packaging unit that can be handled more easily.

Cargo assemblages including a pallet, a load of packages arranged in one or more layers. and a support layer, in which the support layer is sized and positioned within the cargo assemblage to support and/or stabilize the cargo, thereby providing improved pallet efficiency, improved shipping efficiency, and/or improved stability.

This relates to a utility model referring to an improvement introduced in a device which is employed in the field of storage and transport of loads, particularly boxes containing ceramic plates, among other materials, which are arranged and conveyed on pallets. Whereby, the present support comprises a long and long rectangular and horizontal plate (1), in which top face and central region there is perpendicularly fixed a long rectangular and vertical plate (2); further comprising walls (P) formed by a rigid mesh, which is formed by a plurality of hollow interconnected rings (A), which present a hexagonal shape; and wherein said walls (P) are outwardly delimited by a sinuous and protruding edge (B), which protrudes horizontally towards the front rib of the support. And whereby in the front face of both walls (P) there is formed a plurality of oblique protruding ribs (N), which extend from the region of the rear edges of the vertical plate (2) to the side edges (B).

Embodiments relate to a cover, a method of covering, and a cover system for shipments of products transported by air with ULDs. The cover system can be adapted to any skid such as wooden or plastic pallets used for smaller loads used in air transport or any other mode of transportation. The cover system can include one or multiple parts. Each part of the cover system can be made of one or more layers. Each layer can be made of a single material or a combination of different materials. Different parts of the cover can be made of different materials or different combination of materials. The cover system provides thermal protection to temperature-sensitive products in or on the ULD. The cover system maintains the proper relative humidity level and gas concentrations for horticultural product loads. The cover system decreases the amount of water vapor released in the cargo holds.

A method, apparatus and program product perform automatic load profiling to optimize a wrapping operation performed with a stretch wrapping machine. Automatic load profiling may be performed, for example, to determine a density parameter for a load that is indicative of load stability such that one or more control parameters may be configured for a wrapping operation based upon the density parameter. Automatic load profiling may also be performed, for example, to detect a load with a nonstandard top layer, e.g., a load with a top or slip sheet, a load with an easily deformable top layer, a load with a ragged top surface topography and/or a load with an inboard portion, such that a top layer containment operation may be activated during wrapping to optimize containment for the load.

A row-forming device (10) together with processes form a bottle row (8) from a bottle layer (7). The row-forming device (10) is configured to pick up and transport away, in rows, the respectively frontmost layer row (61) of the bottle layer (7) moved in a conveying direction (60), in a transverse transport direction (72). One or more layer conveyors (59) moves the bottle row (7) in a conveying direction (60) and adjoins the transport device (62), which has a plurality of parallel conveyor belts (63, 66) that extend in the transport direction (72) and are driven independently and also exhibit mutually different transport speeds. The transport device (62) has a guide strip (68) oriented obliquely to the transport direction (72). The guide strip (68) extends over a part of the conveyor belts (63, 66) and is arranged downstream of the layer conveyor (59) in the transport direction (72).

A method for packaging a pack commodity, including providing a support element for supporting the pack commodity. The method also includes placing a first packaging material sheet onto the support element and disposing the pack commodity on the first packaging material sheet such that a portion of the first packaging material sheet comes to lie between the support element and the pack commodity, wherein the first packaging material sheet protrudes over the pack commodity. Next, a second packaging material sheet is placed onto an upper side of the pack commodity so that the second packaging material sheet protrudes over the pack commodity. The first packaging material sheet is joined, in some regions, to the second packaging material sheet. The first and the second packaging material sheets are adhesively joined in a respective, predetermined first region, along a periphery of the support element, such that they can be separated and re-joined.