An exemplary multi-dimensional load structure may include a base panel having a tiered structure with an upper layer, a lower layer, and at least one interior layer therebetween. The load structure may also have a glass layer applied to at least surfaces of each of the upper layer, the lower layer, and the at least one interior layer not in contact with an adjacent layer. The load structure may further have a coating applied to the exterior of the glass layer. The at least one interior layer may be configured to withstand a greater compressive force than the upper layer and the lower layer and/or the upper layer and the lower layer may be lighter than the at least one interior layer.

A reconfigurable vehicle may include a vehicle frame body and a removable floor. The removable floor may be configurable based on a use case for the reconfigurable vehicle. The removable floor may be configured for passenger transport, goods transport, or both. The removable floor may include a rotating assembly. The rotating assembly may include a wheel and a catch element. The removable floor may include one or more connection interfaces.

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.

A vehicular body structure includes a polymeric deck panel. The deck panel includes adjacent ridges and valleys with legs shared therebetween, crossbeam footprints crosswise to the adjacent ridges and valleys, and ribs extending along the adjacent ridges and valleys between the crossbeam footprints and ending short thereof. The ribs project normally to the deck panel past the ridges, and have elongate cross-sectional shapes, with cross-sectional thicknesses substantially the same as or greater than the cross-sectional thicknesses of the adjacent ridges and valleys.

A flooring apparatus and method of making the same are provided. The apparatus and method, in one embodiment, may include providing an elongated member having a top surface. A first adhesive is deposited about a perimeter of the top surface of the elongated member. A second adhesive is deposited within the perimeter of the top surface of the elongated member, with the second adhesive having a lower viscosity than the first adhesive and being retained within the perimeter by the first adhesive. A friction-increasing member is then heated to a pre-heat temperature. The friction-increasing member is disposed on the first and second adhesive to form the flooring apparatus. The flooring apparatus is then cured at a curing temperature, in one embodiment, that is greater than the pre-heat temperature.

Land vehicles, modular systems for forming monocoques of land vehicles, and methods of forming monocoques of land vehicles using modular systems are disclosed herein. In certain embodiments, the land vehicles are provided as delivery vehicles and/or utility vehicles. A land vehicle includes a monocoque supporting a plurality of wheels to permit movement of the vehicle relative to an underlying surface in use of the land vehicle.

Land vehicles, powertrain units for land vehicles, and methods of using land vehicles are disclosed. In certain embodiments, the land vehicles are provided as delivery vehicles and/or utility vehicles. A land vehicle includes a frame structure having a front cage that defines an operator cabin and a rear floor positioned rearward of the front cage. The frame structure supports a plurality of wheels to permit movement of the vehicle relative to an underlying surface in use of the land vehicle. An underside of the frame structure is disposed in confronting relation with the underlying surface.

Land vehicles, modular systems for forming monocoques of land vehicles, and methods of forming monocoques of land vehicles using modular systems are disclosed herein. In certain embodiments, the land vehicles are provided as delivery vehicles and/or utility vehicles. A land vehicle includes a monocoque supporting a plurality of wheels to permit movement of the vehicle relative to an underlying surface in use of the land vehicle.

A cargo body includes a floor, a roof, a first sidewall extending between the floor and the roof, and a second sidewall extending between the floor and the roof, the second sidewall cooperating with the first sidewall, the floor, and the roof to define a cargo receiving volume. The floor is defined by at least one composite panel including a core and a pair of skins sandwiching the core.

An exemplary approach for protecting floorings in containers may utilize a first ledger attached to an upper portion of a first support beam associated with a foundational base assembly. A portion of the first ledger may protrude outward in a first horizontal direction from the upper portion of the first support beam. A second ledger may be attached to an upper portion of a second support beam next to the first support beam. A portion of the second ledger may protrude outward in a second horizontal direction from the upper portion of the second support beam. The second horizontal direction may face the first horizontal direction. A support panel may be placed on top of the portion of the first ledger and the portion of the second ledger. The support panel may have a length proximate to a distance between the first support beam and the second support beam.