A storage assembly (10) has a plurality of trays (14), each tray (14) being selectively moved from the storage position (FIG. 1) to an access position (FIG. 2). The assembly (10) includes a rack (12) which has a series of rails (13) at each end on which trays (14) are supported. The storage assembly (10) includes a loading device (16) including lifting arms (18). The lifting arms (18) support a cradle (20) that includes rails (22), and the cradle (20) is connected to the lifting arms (18) by rollers (23). The loading device (16) can access different trays (14) by being raised and lowered. Once the lifting device (16) is moved into position adjacent a tray (14), the tray can be moved from the stored position on the rack (12) to the access position on the cradle (20) via a drawing arm (35).

The compression resistant package for wall and ceiling tile includes a first container having a box portion and a cover. An L-shaped corner protection member is provided inside the box portion at each of the tour corners of the box portion. Each of the L-shaped corner protection members have two intersecting legs that respectively extend alongside predetermined portions of the interior wall surfaces of the box portion. The corner protection members have a height that extends upwardly from the floor of the box portion to the height of the walls of the box portion. The corner protection members are formed of a compression resistant material that prevents any overlying containers from imposing pressure on a stack of tiles inside the first container when the stack height of the tiles inside the first container is less than the height of the corner protection members.

The invention relates to a biodegradable container (1) for single dose or multi-dose administration of beverages by injecting a fluid solution, under pressure through a preparation, said biodegradable container (1) comprising: a tubular body (2) having a side wall (22), a first opening (40), and a second opening (23), opposite to said first opening (40); a first surface (21) coupled to said tubular body (2) in correspondence of said first opening (40), said tubular body (2) and said first surface (21) forming a chamber for containing said preparation; and a second surface (3) coupled to said tubular body (2) in such a way as to obstruct said second opening (23) and prevent the escape of said preparation, said biodegradable container (1) being characterized by comprising reinforcement means (4, 42, 49) associated with said side wall (22), and configured to oppose resistance to pressure acting on said biodegradable container (1) during the injection of said fluid solution under pressure.

A container assembly comprises a container having a peripheral side wall defining a rectangular interior space and having top flap and bottom flaps folded inwardly to selectively enclose the interior space. The bottom flaps include notched edges for interlocking to maintain corners of the peripheral side wall square. An insert is removably receivable in the rectangular interior space. The insert comprises first and second panels of sheet material selectively folded to define a plurality of rectangular mold cavities in the interior space. Distal edges of the panels are notched wherein the notched edges interlock at the corners of the peripheral side wall to maintain the mold cavities square.

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.

A storage assembly (10) has a plurality of trays (14), each tray (14) being selectively moved from the storage position (FIG. 1) to an access position (FIG. 2). The assembly (10) includes a rack (12) which has a series of rails (13) at each end on which trays (14) are supported. The storage assembly (10) includes a loading device (16) including lifting arms (18). The lifting arms (18) support a cradle (20) that includes rails (22), and the cradle (20) is connected to the lifting arms (18) by rollers (23). The loading device (16) can access different trays (14) by being raised and lowered. Once the lifting device (16) is moved into position adjacent a tray (14), the tray can be moved from the stored position on the rack (12) to the access position on the cradle (20) via a drawing arm (35).

One aspect of the disclosure is a method of packaging a plurality siding panels. The method includes providing a plurality of siding panels, each siding panel having a front face, a rear face, top edge, a bottom edge, and a support member secured to the rear face, placing a first siding panel vertically within a box, the box having a first side, a second side, a top side, and a bottom side, and placing a second siding panel vertically within the box next to the first siding panel.

A door packing assembly can include a pallet having a plurality of frames positioned thereon. The plurality of frames define an interior area, and a plurality of doors are positioned onto the pallet within the interior area defined by the plurality of frames. In further instances, a door container component can be positioned onto the pallet and the plurality of doors can be positioned within the door container component. In this way, the door container component can have a perimeter surrounded by at least some of the plurality of frames.

Described herein is a packaging system comprising a sleeve having a plurality of sides, an open top, and an open bottom, each of the sides having an inner surface, an inner liner located on the inner surfaces of the sides of the sleeve, the inner liner having an inner surface that defines a cavity, a plurality of building panels located in the cavity, and an outer wrapping surrounding at least a portion of the sleeve and at least a portion of the plurality of building panels.

Described herein is a packaging system comprising a sleeve having a plurality of sides, an open top, and an open bottom, each of the sides having an inner surface, an inner liner located on the inner surfaces of the sides of the sleeve, the inner liner having an inner surface that defines a cavity, a plurality of building panels located in the cavity, and an outer wrapping surrounding at least a portion of the sleeve and at least a portion of the plurality of building panels.