A tonneau cover system, comprising: (a) one or more brackets secured to at least one of a pair of opposing sidewalls of a cargo box of a vehicle; (b) a foldable tonneau cover having a plurality of interconnected panels, at least one of the plurality of interconnected panels including: (1) one or more latch assemblies that engage the one or more brackets; and (2) an actuator assembly connected to each of the one or more latch assemblies by a cable, wherein actuation of the actuator assembly moves the cables that in turn release engagement of the one or more latch assemblies from the one or more brackets.

A transport trolley for consignments having wheels which define a contact plane for moving the trolley, having a load compartment for receiving consignments during transport, and having a shelf for carrying consignments. The shelf can be adjusted from a lower non-use position arranged in the load compartment into an upper, moderate use position arranged outside the load compartment, and back. The shelf can be adjusted from a lower non-use position arranged in the load compartment into an upper, elevated use position arranged outside the load compartment, and back. The moderate use position and the elevated use position are arranged in a range between 1.0 m and 1.7 m above the contact plane. The elevated use position is arranged above the moderate use position, and a drive is provided for at least partially adjusting the height of the shelf above the contact plane.

A vehicle is disclosed having a composite cargo body assembled in a manner that may improve thermal efficiency, fuel efficiency, and costs of manufacturing.

A frame assembly for supporting and mounting a box compartment over and around a flat bed of a flatbed tow truck is described. The frame assembly includes a frame attached to a chassis of a flatbed tow truck. The frame includes at least one left and at least one right side support beams, at least one left and at least one right horizontal connection beams, two or more left side and two or more right side vertical support beams, at least two cross-beams, and at least one vertical connection beam. One or more of the at least two cross-beams is connected to the chassis and is further connected at each of its ends to the left and right side support beams. Each vertical connection beam is connected to either the left or right horizontal connection beam and is oriented generally vertically for attachment of a box compartment to the frame.

A tonneau cover comprising: (a) a plurality of panels; (b) one or more hinges between each panel of the plurality of panels so that the plurality of panels are rotatably connected together, wherein some or all of the one or more hinges include: (i) a plurality of expansion links that are movably interconnected together, some of the plurality of expansion links including: (1) one or more expansion projections; (2) one or more pockets that receive all or a portion of the one or more expansion projections from an adjacent one of the plurality of expansion links; and (3) one or more expansion stops that restricts movement of the one or more expansion projections from the adjacent one of plurality of the expansion links that extend within the one or more pockets; wherein the one or more hinges rotate so that the one or more hinges form of angle of about 90 degrees or more and about 225 degrees or less.

The disclosure relates to a vehicle body element connecting joint for connecting a first body element to a second body element, which connecting joint comprises first and second elongate profiles arranged along adjacent edges of the first and second body elements, respectively. The connecting joint comprises a first projection protruding from the first elongate profile parallel to a side surface of the first elongate profile and extending towards a free end of the first elongate profile, a first recess arranged in a side surface of the second elongate profile and arranged parallel to an edge of the second elongate profile, wherein the first projection is inserted into the first recess. A first and second dovetail section protrude from the first and second elongate profile, respectively At least one fastening strip contacts the first and second dovetail sections to clamp the first and second elongate profiles to each other.

A composite molded cargo body panel including a core, an interior skin secured to a first side of the core having a thickness, and exterior skin secured to a second side of the core, and a plurality of recesses. The plurality of recesses are dispersed along a first direction at intervals in the interior skin, with the core thickness at each of the plurality of recesses being reduced compared to a maximum core thickness, and each of the plurality of recesses defines a support surface. A pocket is formed in each of the plurality of recesses, with the core thickness at the pocket being less than the core thickness at each of the plurality of recesses. A plurality of logistics inserts are attached to the respective support surfaces of the plurality of recesses so that, at each of the plurality of recesses, the logistics insert extends across the pocket.

A cargo body panel includes an interior side, an exterior side, a primary recess, a secondary recess positioned within the primary recess, and a logistics track. The interior side defines an interior plane. The exterior side defines an exterior plane. The primary recess includes a primary recess interior side defining a primary recess interior plane and a primary recess exterior side defining a primary recess exterior plane. The primary recess interior plane is recessed from the interior plane in a direction toward the exterior plane. The secondary recess includes a secondary recess interior side defining a secondary recess interior plane and a secondary recess exterior side defining a secondary recess exterior plane. A distance between the secondary recess interior plane and the interior plane is greater than a distance between the primary recess interior plane and the interior plane. The secondary recess exterior plane is non-coplanar with the exterior plane.

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 utility raceway for a commercial cargo body. The utility raceway includes an interior defined between a first side, a second side, a third side opposite the first side, and a fourth side opposite the second side. The utility raceway also includes a plurality of internal utility cavities separated by at least one vertically-oriented flange extending between the first and third sides, a first living hinge formed between the first side and the second side, and a second living hinge formed between the second side and the third side. The first side is pivotable relative to the second side about the first living hinge and the third side is pivotable relative to the second side about the second living hinge.