A vehicle includes a chassis, a cab coupled to the chassis, a cargo body coupled to the chassis and positioned rearward of the cab, a door coupled to the cab and selectively repositionable relative to the chassis between an open position and a closed position, and a door lock assembly configured to selectively prevent movement of the door from the closed position to the open position. The door lock assembly defines a key aperture configured to receive a key. The door lock assembly is coupled to the cab, and wherein the key aperture is positioned forward of the door.

A tractor including an engine hood, engine frames, a lock unit, an operation wire, and a cover member. The lock unit deters the engine hood from being opened. The operation wire is coupled to the lock unit, and is configured to allow unlocking of the lock unit through a release operation of its operable part. The operable part is arranged outward of the engine frames relative to a right-left direction and exposed to the exterior. The cover member covers the operation wire so as to disable manual operation of the operation wire, while allowing operation of the operation wire at least by using a predetermined release tool, the cover member having an opening portion shaped along a movement locus of the operable part of the operation wire.

The present invention provides a shock-absorbing member including: an exterior material 110 for an automobile; a first reinforcing member 122 that is disposed adjacent to the exterior material 110 and whose cross section orthogonal to the extending direction has a height, in the direction orthogonal to the exterior material 110, that is greater than the width in the S direction along the exterior material 110; a second reinforcing member 124 that is disposed adjacent to the exterior material 110 and whose cross section orthogonal to the extending direction has a height, in the direction orthogonal to the exterior material 110, that is greater than the width in the direction along the exterior material 110; an intersecting part where the first reinforcing member 122 and the second reinforcing member intersect and overlap; and a joint that joins the first reinforcing member 122 and the second reinforcing member 124 at the intersection.

A hood for a vehicle having a latch support bar that extends transversely to the longitudinal direction of the vehicle. The latch support bar is arranged on the inner side of the hood in the front region in the direction of travel. The latch support bar is arranged symmetrically with respect to the outer skin of the hood. The latch support bar has a latch element. The latch element produces a detachable connection of the hood to the vehicle, which can be detached by an operating element. The latch support bar is connected to the hood at a minimum of two fastening points spaced as far apart from one another as possible in order to reliably absorb lateral applications of force. In this way, reliable retention of the hood is advantageously ensured.

A vehicle includes a chassis, a cargo body coupled to the chassis, a cargo support member, and a shelf assembly. The cargo support member is mounted to an outer wall of the cargo body and is disposed within the cargo body. The shelf assembly includes a tray and a strap. The tray is hingedly coupled to the cargo support member. The strap is coupled to the tray and the cargo support member. The strap is adjustable to reposition a forward end of the tray.

A hood for a vehicle is movable between an open position and a closed position for covering a vehicle compartment. The hood includes a hood body having an exterior facing surface and an interior facing surface. A first bracket attached to the interior facing surface of the hood body includes a bottom end having a downward opening slot a rotatable hinge attached to the vehicle in the vehicle compartment for moving the hood body between the open position and the closed position. A second bracket is attached to the vehicle in the vehicle compartment. The second bracket is attached to a distal end of the rotatable hinge and includes a weld stud extending laterally from a side of the second bracket. The first bracket is seated on the weld stud during installation of the hood.

A vehicle includes a power source detachable from the vehicle. The power source is configured to supply power to the vehicle and a remote device. The vehicle includes a front trunk configured to store the power source. The front trunk or at least a portion of the front trunk may be advantageously removable from the vehicle along with the power source. A backup battery may be located in a vehicle's front trunk, where the front trunk and/or the backup battery may be detached from the vehicle itself. The power source may be removable from the front trunk. The power source may then be transported to and placed at a desired or a convenient location to power otherwise difficult to reach remote devices if the power source were to be fixed to the vehicle, such as users who camp off the grid and need power separate from running their vehicle.

Systems and methods are presented herein for providing a reinforcement structure to reduce a Head Impact Criteria value associated with an object impacting a hood assembly that comprises the reinforcement structure. The reinforcement structure is arranged between an outer hood structure and an inner hood structure. The reinforcements structure comprises a main reinforcement and a reinforcement extension configured to extend laterally away from the main reinforcement. The reinforcement extension comprises a rib structure configured to accommodate an upper profile of a rigid front fascia feature and a rear flange configured to extend rearward over the rigid front fascia feature. The reinforcement extension is structured to be stiff enough to deform in a manner that reduces the amount of time an impacting structure reaches a peak acceleration value while also reducing the achievable peak acceleration value.

A latching mechanism for facilitating opening and closing of a closure panel of a vehicle, comprising: a first latch mounted in a first location, the first location positioned on a first side of the vehicle, the first latch coupling the closure panel to the body of the vehicle when engaged with a corresponding first mating latch component; a second latch mounted in a second location, the second location positioned on a second side of the vehicle, the second latch coupling the closure panel to the body of the vehicle when engaged with a corresponding second mating latch component; wherein one of the first latch and the second latch is maintained in a latched state and the other of the first latch and the second latch is in an unlatched state when the closure panel is moved between an open position and a closed position.

A vehicle includes a chassis, a body, and a door assembly. The body is supported by the chassis, and defines a driver compartment and a cargo compartment. The driver compartment has a cab opening and the cargo compartment has a cargo opening. The door assembly is coupled to the body and provides selective access into the driver compartment and into the cargo compartment through the cab opening and cargo opening, respectively. The door assembly includes a first door and a second door. The first door is movable between a first position extending across the cab opening and a second position extending across a portion of the cab opening. The second door is movable between a third position extending across the cargo opening and a fourth position extending across a portion of the cab opening.