Aspects of the present disclosure relate to cargo assemblages that may include containers of rolled products stacked on pallets secured thereto with film and methods of producing such cargo assemblages. The load may include containers of absorbent paper product arranged in stacked layers from a bottom layer of containers to a top layer of containers. A film may be applied to connect the load with the pallet and to connect neighboring stacked layers together. The film may be wrapped around the pallet and/or layers of containers with a wrap profile having different characteristics, such as for example, containment forces; tensions; numbers of layers, and/or locations of layers with respect to the load, the pallet, and/or each other.

Packaging configuration comprising: a pallet comprising a top surface, a bottom surface and a height HP; a first stack of bagged goods having a total height HL1, stacked on the pallet and comprising at least two layers; and a support structure comprising at least four walls situated over the first stack of bagged goods, one of the walls being a top wall and at least three of the walls being sidewalls. The support structure has a height HC that meets one of the following equations: HC>HL1, when the bottom end of at least one sidewall of the support structure is positioned on the top surface of the at least one pallet; or HC>HP+HL1, when the bottom end of at least one sidewall of the support structure and the bottom surface of the pallet are both positioned on the same surface. An air gap having a height HAG is situated between a top layer of the first stack of bagged goods and the top wall of the support structure.

Aspects of the present disclosure relate to cargo assemblages that may include containers of rolled products stacked on pallets secured thereto with film and methods of producing such cargo assemblages. The load may include containers of absorbent paper product arranged in stacked layers from a bottom layer of containers to a top layer of containers. A film may be applied to connect the load with the pallet and to connect neighboring stacked layers together. The film may be wrapped around the pallet and/or layers of containers with a wrap profile having different characteristics, such as for example, containment forces; tensions; numbers of layers, and/or locations of layers with respect to the load, the pallet, and/or each other.

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 module includes compressible insulation products that each have a longitudinal axis, a peripheral surface, and first and second ends. The module includes a single row of insulation products positioned next to one another along a first direction perpendicular to the longitudinal axes of the insulation products, a first film that wraps each insulation product of the single row in a compressed state by covering the peripheral surface of the insulation product, a second film that wraps the single row of insulation products by covering some of the peripheral surface of the insulation products of the row, and a third film that wraps the single row of insulation products by covering the first and second ends of each insulation product of the row.

Disclosed is stack support assembly. The stack support assembly includes at least one binding element to press and bind at least one support leg to a material stack; and at least one elongated and partially hollow support leg composed of a shaped polymer. The elongated and partially hollow support leg includes vertically oriented side walls connected to one another with a repeating pattern of interconnect structures, thereby forming hollowed channels extending between a top plane and a bottom plane of the support leg.

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. In some embodiments, the pallet wrap includes a novel expandable slit sheet paper adapted for enabling wrapping of a pallet assembly. In some embodiments, the pallet wrap includes an expandable slit sheet paper and a support wrap, wherein the expandable slit sheet paper is configured to be wrapped around a pallet assembly and the support wrap is configured to surround at least a portion of the expandable slit sheet paper wrapped around the pallet assembly.

A packaged-body producing method that minimizes damage to packaged bodies due to constriction or the like and that enables formation of packaged bodies in various shapes is provided. The method includes a first step in which a plurality of packages 10 accommodating toilet paper rolls or the like are stacked, and recesses are provided at predetermined positions of the stacked form; a second step in which a packaging film 20 is spirally wound on the sides of the package stack form; and a third step in which the packaging film 20 is wound so as to cover the circumference, including an upper end portion and a lower end portion, of the package stack form.

Aspects of the present disclosure relate to cargo assemblages that may include containers of rolled products stacked on pallets in an underhung or partially underhung configuration and secured thereto with film and methods of producing such cargo assemblages. The load may include containers of absorbent paper product arranged in stacked layers from a bottom layer of containers to a top layer of containers. The load and the pallet are sized such that the load defines a footprint that is smaller, at least in some portions, than a footprint of the pallet to create an underhung or partially underhung configuration. A film may be applied to connect the load with the pallet and to connect neighboring stacked layers together. The film may be wrapped around the pallet and/or layers of containers with a wrap profile having different characteristics, such as for example, containment forces; tensions; numbers of layers, and/or locations of layers with respect to the load, the pallet, and/or each other.

Packaging configuration comprising: a pallet comprising a top surface, a bottom surface and a height HP; a first stack of bagged goods having a total height HL 1, stacked on the pallet and comprising at least two layers; and a support structure comprising at least four walls situated over the first stack of bagged goods, one of the walls being a top wall and at least three of the walls being sidewalls. The support structure has a height HC that meets one of the following equations: HC>HL 1, when the bottom end of at least one sidewall of the support structure is positioned on the top surface of the at least one pallet; or HC>HP+HL 1, when the bottom end of at least one sidewall of the support structure and the bottom surface of the pallet are both positioned on the same surface. An air gap having a height HAG is situated between a top layer of the first stack of bagged goods and the top wall of the support structure.