A vehicle includes: a hood; a cowl top placed rearward of the hood; a body structure disposed below the hood and the cowl top; and a shock absorber that is disposed between the hood and the body structure and is fixed to the body structure. At least one of the hood and the cowl top has a support portion facing a side surface of the shock absorber.

A vehicle includes a hood. The hood includes a hood outer and a hood inner. The hood inner has a plate shape, covers a lower surface of the hood outer, and is made of resin. A space is provided between the hood outer and the hood inner. The hood inner includes a shock absorbing portion that is bent so as to project toward the space. The shock absorbing portion has a central portion located at a center of the shock absorbing portion in a right-left direction of the vehicle and side portions located on respective sides of the central portion in the right-left direction. A thickness of the hood inner in the central portion is thicker than a thickness of the hood inner in the side portions.

A phase transformational cellular material, including a plurality of bistable cells, each respective bistable cell operationally connected to at least one other respective bistable cell. Each bistable cell enjoys a first stable phase and a second stable phase. The first stable phase is a first geometric configuration and the second stable phase is a second geometric configuration different from the first geometric configuration. An energy transaction is required to shift each respective cell between stable phases. A mechanical energy transaction is required to shift from the first to the second phase, while a thermal energy transaction is required to shift from the second to the first phase.

A vehicle is disclosed that includes a vehicle body and at least one sensor assembly that is supported on the vehicle body. The at least one sensor assembly is configured to detect an external object and includes a housing portion and a sensor that is supported within the housing portion such that the sensor is oriented at a fixed (e.g., downward) angle.

Provided is a vehicle front body structure comprising a port device (30) received in a housing (36) and mounted to a vehicle body under a front hood (7). A lid (58) is provided on the housing to selectively close a port opening (21) in the front hood, the lid being provided with a lid plate (59) that selectively closes the port opening, and a hinge arm (61) extending from the lid plate into the housing and rotatably connected to the housing via a hinge shaft (75) extending laterally.

A hood prop attaches to right and left side hoods and engages a receptacle plate attached to a fire wall. The hood prop includes a mounting plate attached to hood latch fasteners at a bottom rear position of each side hood. A mounting plate end of a prop arm is pivotally attached by a friction fit. The friction fit allows the arm to pivot on the rod but retain a position to reduce or eliminate any rattles. The arm includes at least one bend to align a firewall end of the prop arm with a receptacle reaching out from the receptacle plate.

A motor vehicle having a vehicle body, an engine compartment (10) housing an engine (12) and a bonnet seal arrangement (30, 34). The bonnet seal arrangement defines an opening (35) and is configured to deflect ram air received at the front of the motor vehicle (2) in use past the opening (35) to define a first air flow path, and draw air from the first air flow path through the opening (35) to define a second air flow path for supplying air to the intake duct orifice (42), the second air flow path being angled in a horizontal plane to the first air flow path.

The present disclosure provides a cargo rack for a utility vehicle. The cargo rack comprises a base structure, a front wall structure extending upward from the base structure and having a top edge, a pair of opposing sidewall structures, wherein each sidewall extends upward from the base structure and having a top edge, and a back wall structure extending upward from the base structure and having a top edge. The cargo rack base structure is structured to be disposed within a reservoir of a vehicle front body cowl such that the entirety of the cargo rack base structure is disposed within the cowl reservoir.

An engine hood drive for an engine hood system of a motor vehicle includes a drive unit for delivering a torque at a predetermined adjusting angle between a passive position and an active position. A drive lever is connected in a torque-transmitting manner to the drive unit for pivoting between the passive position and the active position and which has an actuating end. A driving slot has a guide receiver for the actuating end of the drive lever. The driving slot is pivotable about a flap hinge for an engine hood at a predetermined flap angle between a closed position and an open position. The driving slot is transferrable in the direction of the open position as a result of a pivoting movement of the drive lever from the direction of the passive position in the direction of the active position.

A latch travel mechanism for a closure panel of a vehicle, the mechanism comprising: a mounting plate for mounting a latch, the latch for retaining the closure panel in a closed position with respect to a body of the vehicle; a support plate coupled to the mounting plate, the support plate for connecting to a body of the vehicle; one or more linkages connected to the support plate at one end and connected to the mounting plate at another end, the one or more linkages providing said coupled to the mounting plate; a locking member mounted on the support plate and configured for retaining the mounting plate in a home position when coupled to the mounting plate and for decoupling from the mounting plate when operated; an actuation system coupled to the linkages for extending the linkages once the locking member is decoupled from the mounting plate, in order to move the mounting plate relative to the support plate from the home position to an extended position; wherein the latch is also moved from the home position to the extended position when mounted on the mounting plate.