A modular skid assembly is disclosed. The modular skid assembly includes a skeletal framework configured to house electrical equipment components and support power cables routed between the electrical equipment components, wherein the skeletal framework is configured to house electrical components in two parallel rows with an aisle between the two parallel rows, the skeletal framework including an upper superstructure, a lower superstructure, and one or more vertical columns connected between the upper superstructure and the lower superstructure. The upper superstructure includes a first horizontal support and a second horizontal support. The upper superstructure includes a lower cable tray having a plurality of tray supports fixed to at least one of the first horizontal support and the second horizontal support and extending over the aisle from the first horizontal support towards the second horizontal support. The lower cable tray includes a plurality of rungs fixed to a first of the plurality of tray supports and a second of the plurality of tray supports.

Pallet unit (1) for transporting objects comprising a pallet (10) and a stack (11) of object blocks (B1 . . . B5) arranged on the pallet (10). The pallet unit (1) comprises a wrapping sheet (12) having vertical portions (V1 . . . V12) and horizontal portions (h1 h15) covering parts of the blocks (B1 . . . B5), said wrapping sheet (12) being laid along a continuous path and extending at least partly within the stack (11). Method for palletizing object blocks using said pallet unit (1).

A shock-absorbing structure includes an underlay placed on a base, and a cushioning member disposed on the underlay. The underlay includes at least one positioning portion that includes a slope raised in a position inclined with respect to another area of the positioning portion and fixes the cushioning member in position, and a support portion that supports the slope in an obliquely raised position. The cushioning member includes at least one hollow that receives the positioning portion.

A pipe frame, a pipe crate and methods of use thereof for holding a plurality of pipes together for storing, handling and transport are disclosed herein. In one form, there is provided a pipe frame including: at least two frame members connectable together to form the pipe frame; at least one transverse leg formation operatively associated with an end of a first frame member; at least one receiving opening defined at an end of a second frame member and configured to at least partially receive the at least one transverse leg formation for attachment and orientation of the first frame member relative to the second frame member; a locking catch operatively associated with the receiving opening; and a locking element operatively associated with the transverse leg formation and releasably connectable to the locking catch for locking the first frame relative to the second frame.

The present disclosure relates to a top frame-type structural system for load fixing. The system can be used together with pallets that can support a product/merchandise or goods, which are supported, stowed and/or palletized, and subsequently fastened/fixed by a rope, tape and/or strap. In particular, the top frame of the present system is configured to mechanically interact with the strap and efficiently distribute the generated stresses derived from the force tension to which it is subjected to ensure the integrity and bracing of the product. The present system includes a set of structural components, manufactured in a modular manner, which can be assembled and disassembled/taken to pieces, which offers a practical product, easy to handle and transport, and specifically, being manufactured in a modular manner, such that the present structural system can be advantageously transported, packaged using less space, thus improving its logistics and handling.

A system for compensating for atmospheric pressure changes for high-altitude transport of packages containing powdered and/or granular material may include: one or more packages including a one-way degassing valve configured to flow gaseous substances produced by the powdered and/or granular material outside the one or more packages. Each package may include: a casing; and a containment element configured to wrap the casing. The casing may include: a main body made of expandable material; a capping device associated with the main body; and an insertion opening in the main body. The capping device may include: a tubular sleeve including a first coupling and a bottom wall; a closure element including a second coupling; and first and second one-way valves associated with the bottom wall. The first one-way valve can be configured to allow insertion of gases. The second one-way valve can be configured to allow outflow of gases.

The present invention is an assembled kit for organization of a shooting or range bag comprising a central designation tablet of removable item designators with a modified shooting or range bag. The designation tablet is preferably a flexible card having a securing surface on its two sides and a securing means by which it releasably attaches to an inside or outside surface of the shooting or range bag. The designation tablet preferably comprises two mateable hook and loop surfaces upon which small removable item designators are located until a user desires to remove one or more for application to secure to an outside surface of a closing flap of a soft-sided pocket.

A milk crate stabilizer system is described. The stabilizer system may include at least one row of milk crates, each milk crate comprising a floor, four sidewalls extending from the floor and defining an interior, and an open top, and a milk crate stabilizer comprising a plate located above the at least one row of milk crates, and a plurality of groups of four pegs extending downwardly from the plate. The pegs may contact the sidewalls of adjacent milk crates and removably join the adjacent milk crates. The bottoms of the pegs may be narrower than the tops of the pegs to facilitate placement into the corners of the milk crates.

A pallet-less brick is provided that allows for materials to be transported without the use of straps or pallets, which makes the transportation and subsequent use of the materials more efficient and more environmentally friendly. The pallet-less brick can have a generally planar body with a series of protrusions and recesses extending in different directions. A protrusion extending in one direction can be received in a recess of an adjacent brick, such that the bricks are stackable without the use of straps or pallets. Similarly, a second protrusion and recess combination fulfill a similar function, and the multiple protrusions and recesses secure stacked pallets in at least two directions.

Holding system (2) for a row (3) of individual pots (4), intended to facilitate shelving of a row of individual pots that are aligned in a longitudinal direction (X), with the pots (4) being of the type that has a bottom wall (5), a side wall (6) that is closed on itself, and a collar (8) at one end (4a, 4b) of the pot. The system includes a pot-holding assembly (10), extending in a longitudinal direction (X), and including a large number of gripping surfaces (12) that can exert a support on the collars (8) of the pots (4) of a row of individual pots, a large number of gripping counter-surfaces (13) that can exert a counter-support on the pots (4) of the row of individual pots such that the pots are sandwiched and held between the gripping surfaces (12) and the gripping counter-surfaces (13) of the pot-holding assembly.