In an illustrative embodiment, a panel assembly for partitioning a trailer cargo space is provided including a first insulated panel and a second insulated panel, each insulated panel including a first side vertical edge having a connecting edge, and a second side vertical edge having a connecting edge. One of the insulated panels includes one or more spaced apart vertical cut lines proximate the first side vertical edge, where, when a given cut line is cleaved, the cleaved cut line is configured to form a new second side vertical edge having a connecting edge. A first mating extrusion may secure with a second side vertical edge of the first insulated panel, and a second mating extrusion may secure with a first side vertical edge of the second insulated panel where, upon mating the first and second mating extrusions, an insulated wall is formed.

A wing lock structure includes: a block provided to a side gate, and provided with a plurality of convex portions that are convex in a width direction of a vehicle and concave portions that are concave in the width direction of the vehicle in a longitudinal direction of the vehicle; a wing plate provided at a predetermined portion of a wing side panel facing the block in a closed state and having irregularities corresponding to the concave portions and the convex portions on a surface that comes into contact with the block; and a pressure contact portion that presses the wing plate to bring the wing plate and the block into contact by pressure.

A wing lock structure includes: a block provided to a side gate, and provided with a plurality of convex portions that are convex in a width direction of a vehicle and concave portions that are concave in the width direction of the vehicle in a longitudinal direction of the vehicle; a wing plate provided at a predetermined portion of a wing side panel facing the block in a closed state and having irregularities corresponding to the concave portions and the convex portions on a surface that comes into contact with the block; and a pressure contact portion that presses the wing plate to bring the wing plate and the block into contact by pressure.

A support frame assembly configured to strengthen an upper frame portion of a frame of a vehicle, comprising a first frame member having a first end and a second end, and a second frame member having a first end and a second end, wherein both the first ends of the first and second frame members are configured to couple to a front half of the frame and the second ends of the first and second frame members are configured to couple to the front half of the frame to strengthen the upper frame portion, at least one of the first and second ends of each of the first and second frame members including at least one mechanically coupled joint configured for coupling each of the first and second frame members to the front half of the frame.

A rolling tarp locking system comprising a bow including a cam plate defining a cam profile having a proximal end and a distal end; and a locking assembly including an arm configured to move between a locked position and an unlocked position, the arm having a follower configured to move relative to the cam profile of cam plate from the proximal end and to the distal end such that when the arm moves from the unlocked position to the locked position the bow is pulled toward the locking assembly to a fixed position.

A load structure may include a first honeycomb layer, a second honeycomb layer, and/or an attachment feature. The second honeycomb layer may be connected to the first honeycomb layer. The attachment feature may be connected to at least one of the first honeycomb layer or the second honeycomb layer. A method of manufacturing a load structure may include providing a first honeycomb layer, a second honeycomb layer, and an attachment feature, disposing an adhesive layer onto at least one of the first honeycomb layer or the second honeycomb layer, connecting an attachment feature to the first honeycomb layer or the second honeycomb layer, and/or disposing the first honeycomb layer onto the second honeycomb layer.

A vehicle includes a vehicle frame, a vehicle body and elastic seal. The vehicle body is supported on the vehicle frame. The vehicle body has a cabin and a cargo box. The cabin houses one or more vehicle seats of the vehicle. The cabin and the cargo box are separately mounted on the vehicle frame and being separated by a gap. The elastic seal movably connects the cabin and the cargo box and covers the gap.

A towable vehicle including a chassis, at least two wheels and a suspension assembly supporting each wheel. The suspension assembly includes a swing arm pivotally mounted to the chassis, an axle mounted proximate an end of the swing arm, the wheel being mounted on the axle, at least one shock absorber extending from the chassis to the swing arm, an airbag swing arm mounting pivotally coupled to the swing arm, an airbag chassis mounting coupled to the chassis, an airbag coupled to the airbag swing arm and airbag chassis mountings so that inflation of the airbag allows a suspension height to be adjusted over an operating range and a pivot arm pivotally mounted to the chassis and the airbag swing arm mounting to maintain an orientation of the airbag swing arm mounting over the operating range.

A vehicle for transporting cargo includes a front end unit having a front wheel, a rear end unit having a rear wheel, and a carrying unit on which the cargo is loaded and which is interposed between the front end unit and the rear end unit so that the front end unit and the rear end unit are coupled to each other via the carrying unit. The carrying unit is configured to be separated from the front end unit and the rear end unit in a direction intersecting a direction in which the vehicle travels and to be coupled to the front end unit and the rear end unit while the front end unit and the rear end unit are stationary.

A vehicle for transporting cargo includes a front end unit having a front wheel, a rear end unit having a rear wheel, and a carrying unit on which the cargo is loaded and which is interposed between the front end unit and the rear end unit so that the front end unit and the rear end unit are coupled to each other via the carrying unit. The carrying unit is configured to be separated from the front end unit and the rear end unit in a direction intersecting a direction in which the vehicle travels and to be coupled to the front end unit and the rear end unit while the front end unit and the rear end unit are stationary.