A container for holding product therein during shipment and for reuse has multiple levels of tracks supported by each side of the container. At least one of the tracks on each side may be linear, generally U-shaped and/or L-shaped. Dunnage supports and at least one lockable crossbar assembly travel along corresponding tracks at the same level. At least one lockable crossbar assembly has locking assemblies to fix the position of the lockable crossbar assembly relative to the tracks. Dunnage hangs from at least some of the dunnage supports for supporting products.

A container for holding product therein during shipment and being returned for reuse has at least one track supported by each side of the container. The container has dunnage supports extending between corresponding tracks at the same level. At least one lockable crossbar assembly has one or more locking assemblies to fix the position of the lockable crossbar assembly relative to the tracks. Dunnage may hang from the dunnage supports for supporting products during storage or shipment.

A nested dunnage arrangement is provided for compactly storing or transporting parts, each having a concave surface defining a cavity and a convex surface opposite the concave surface, and includes a panel defining an opening, and means for positioning a first part on one face of the panel with the concave surface of the first part facing the opening. The opening is sized to receive therein from an opposite face of the panel a convex surface of a second part such that the convex surface of the second part extends through the opening and at least partially into the cavity of first part. A periphery of the opening is configured to engage the convex surface of the second part received therein to nest the second part within the first part while also preventing the convex surface of the second part from contacting the concave surface of the first part.

An example storage chest is provided. The example storage chest may include a box portion and a lid. The box portion may include a front wall, a rear wall, and a floor attached to the front and rear walls to form a primary compartment for storage of items. The lid may include a front panel, a rear panel, and a top panel attached to the front a rear panels. The rear panel may be pivotably coupled to the rear wall of the box portion. The front panel, the rear panel, and the top panel may define a secondary compartment within the lid for storage of items. The secondary compartment may include a lid storage compartment comprising a hingedly affixed door.

A cargo rack for transferring loads between a marine vessel and an offshore marine platform (for example, oil and gas well drilling or production platform) provides a frame having a front, a rear, and upper and lower end portions. The lower end of the frame has a perimeter beam base, a raised floor and a pair of open-ended parallel fork tine tubes or sockets that communicate with the perimeter beam at the front and rear of the frame, preferably being structurally connected (e.g., welded) thereto. Openings in the perimeter beam base align with the forklift tine tubes or sockets. The frame includes a plurality of fixed side walls extending upwardly from the perimeter beam that include at least left and right side walls. A plurality of gates are movably mounted on the frame including a gate at least at the front and at least at the rear of the frame, each gate being movable between open and closed positions, the gates enabling a forklift to place loads on the floor by accessing either the front of the frame or the rear of the frame. Each gate can be pivotally attached to a fixed side wall. The frame has vertically extending positioning beams or lugs that segment the raised floor into a plurality of load-holding positions. Each load holding position has a plurality of positioning beams or lugs that laterally hold a load module (e.g., palletized load) in position once a load is placed on the raised floor.

A packaging body includes a base on which a packaging target is placed, a box including first flaps and second flaps, and a binding body configured to bind the base and the box and disposed between the first flaps and the second flaps. The box has a rectangular shape and an upper opening portion and configured to cover a top face and side faces of the packaging target. The first flaps are disposed in pairs opposing to each other extending from opposite scorelines of the upper opening portion and including an opening through which an included object is inserted. The second flaps are disposed in pairs opposing to each other extending from different opposite scorelines of the upper opening portion and configured to be folded over the first flaps when the first flaps are folded. The first flaps further include partial flap portions.

A transport container for carrying objects includes a base for supporting the objects. Opposing first and second side walls are operatively connected to the base. At least one of the side walls is movable between an extended position and a contracted position. The transport container has a first width between the first and second side walls when at least one of the side walls is in the extended position and a second width between the side walls when at least one of the side walls is in the contracted position. The second width is different from the first width. The first and second side walls are also movable between a deployed position and a collapsed position. The transport container has a first height when the side walls are in the deployed position and a second height different than the first height when the side walls are in the collapsed position.

This application concerns a frame for a pump package for connecting to a liquid storage tank, the frame comprising a mounting frame portion and a transport frame portion. The mounting frame portion has an installation side for securing the mounting frame portion to the outside of a liquid storage tank and a mounting side for securing a pump package to the mounting frame portion. The transport frame portion has one or more lifting points for lifting the pump package when secured to the mounting frame portion. Together, the mounting frame portion and the transport frame portion form an enclosed space for containing the pump package when the mounting frame portion and the transport frame portion are attached.

The present invention relates to a hybrid panel, comprising a panel comprising: a core, a first protecting layer on a first side of said core and a second protecting layer on a second side of said core; said panel defining an outside geometry thereof; and an overmolded portion which overlays at least a part of said panel, thereby changing said geometry of said panel at said part of said panel.

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.