A cargo vehicle is disclosed having a composite floor assembly with at least one embedded or laminated hardpoint connector. The composite floor assembly may comprise a plurality of transverse beams, wherein a subset of the plurality of transverse beams includes at least one embedded hardpoint connector. The composite floor assembly may comprise a plurality of transverse beams, wherein at least one hardpoint connector is laminated across a subset of the plurality of transverse beams. The embedded or laminated connector may be used to securely and removably couple other vehicle components to the composite floor assembly, such as a landing gear assembly and/or a slide rail assembly.

A rub rail coupled to a side rail including a first top notch and a first bottom notch, the rub rail including: a top chamfer; a top horizontal face diagonally connected to the top chamfer; a second top notch extending out of the top horizontal face; a side vertical face diagonally connected to the top chamfer; a bottom chamfer; a bottom horizontal face diagonally connected to the bottom chamfer; a second bottom notch extending out of the bottom horizontal face; wherein the second top notch couples to the first top notch, and wherein the second bottom notch couples to the first bottom notch.

A flooring member comprising: a structural member having one or more ducts extending along a length of the flooring member, each of the one or more ducts forming a hollow cavity extending along a length of each duct, the one or more ducts being integrally formed with the flooring member.

A flatbed, step-deck, double-drop deck, or lowboy trailer assembly comprises a plurality of metal crossmembers extending in a transverse direction of the trailer assembly; a metal deck supported by the plurality of crossmembers, the metal deck having an upper deck surface and a lower deck surface; and a pair of parallel wooden boards extending in a longitudinal direction of the trailer assembly proximate respective laterally opposite sides of the trailer assembly. Each wooden board in the pair of wooden boards is located in a respective recessed portion of the metal deck. The lower deck surface is situated between and separates a lower surface of each wooden board from the plurality of metal cross members. The lower deck surface is welded to the plurality of crossmembers.

A carpeted automotive vehicle load floor including a composite panel having first and second reinforced thermoplastic skins and a thermoplastic cellular core disposed between and bonded to the skins is provided. The first skin as a top surface. A cover having top and bottom surfaces is spaced apart from the composite panel. A substantially continuous top covering layer is bonded to the top surface of the panel and the top surface of the cover to at least partially form a carpeted load floor having a carpeted cover. An intermediate portion of the top covering layer between the cover and the panel is not bonded to either the panel or the cover to form a living hinge which allows the carpeted cover to pivot between different use positions relative to the rest of the load floor.

An assembly for utility truck bodies having metal and/or composite reinforcement(s) and/or foam reinforcements and/or honeycomb reinforcement/and/or wood reinforcements encapsulated within a thermoformed thermoplastic, or thermoset or fiber-reinforced thermoset walking surface floor structure of the truck bed assembly or other composite floor structure with attachable components and junctions, e.g., sidepack(s), and methods of making the same are provided.

According to some illustrative embodiments, a novel vehicle bed support or stiffener is provided. In the preferred embodiments, the vehicle bed support or stiffener is uniquely configured such that the structure does not obstruct or encroach the vehicle bed region of a vehicle. In some preferred embodiments, the vehicle bed support or stiffener is fixed to a vehicle bed with an upwardly extending front support and stiffening wall extending laterally along an end of said floor and downwardly below a plane of the floor and extending laterally along an end of at least one of said left and right side walls and outwardly away from the vehicle bed.

A method of assembling an automotive vehicle includes providing a panel having an upper surface and a lower surface. The method also includes providing a hole extending from the upper surface through the lower surface. The method additionally includes providing a patch at the upper surface, with the patch extending about a periphery of the hole at the upper surface and having a different material composition from the panel. The method also includes adhering a liner material to the upper surface, with the liner material being superposed over and adhered to the patch.

A container comprising a threshold assembly. The threshold assembly comprises an outer end plate, a horizontal connecting member and a middle connecting member. The outer end plate comprises a horizontal portion and a vertical portion; the horizontal member connects to a floor of the container; and the middle member connects to the plate and the horizontal member, wherein one end of the middle member extends to the intersection of the horizontal portion and the vertical portion of the plate; an opening and a clamping groove at the other end of the middle member; and an inserting portion at one end of the horizontal member for inserting into the clamping groove through the opening to connect the horizontal member and the middle member. When force is applied to the threshold assembly, gaps among the horizontal and middle members and the plate are sealed, preventing liquids from causing steel corrosion.

A modular loading platform for a vehicle, comprising a frame composed of a plurality of interconnected extruded frame members, wherein the members are each provided with at least two parallel grooves extending along the members and facing away from the frame. The platform further includes a set of mounting elements having parallel protrusions which have been inserted into engagement with said parallel grooves in one of the members. The mounting elements form a structure on which additional parts of the loading platform may be mounted.