An exemplary vehicle assembly vehicle assembly includes, among other things, a heat exchange module that manages thermal energy levels of a traction battery. An inlet conduit is configured to draw air to the heat exchange module from an area underneath a vehicle. An outlet conduit is configured to dispense air from the heat exchange module to the area underneath the vehicle. An exemplary thermal management method includes, among other things, to manage thermal energy within a traction battery of a vehicle, exchanging thermal energy between a fluid and air at a heat exchange module. The air is drawn to the heat exchange module from an area underneath the vehicle. The air is dispensed from the heat exchange module to the area underneath the vehicle.

A vehicle frame component for limiting the movement of the wheel of the vehicle toward the cab of a cab on frame vehicle including a base member welded to openings in the frame side rail and extending outwardly and located proximal the wheel structure. In one embodiment the vehicle frame component is located forward of the wheel and includes a tire puncture device to deflate the tire during an offset front impact and in a second embodiment the vehicle frame component is located rearward of the wheel. The vehicle frame component has particular utility during an offset front impact where the offset is less than approximately twenty-five percent (25%) of the width of the vehicle.

This disclosure relates to an electrified vehicle with a vibration isolator within a frame of the vehicle and a corresponding method. An electrified vehicle according to this disclosure includes a frame with a rail, a vibration isolator within the rail, and a battery pack connected to the rail by way of the vibration isolator. Among other benefits, mounting the vibration isolator within the rail increases the amount of available packaging space.

This disclosure details systems and methods for supporting and isolating vehicle body mounted battery packs from various vehicle loads. An exemplary electrified vehicle may include a frame, a battery support structure mounted to the frame, a battery pack, and one or more isolators. The battery pack is supported by the battery support structure but is not mechanically coupled to the frame. The isolator is mounted between the battery pack and the battery pack support structure for isolating the battery pack from loads that may be imparted on the frame and/or the battery support structure.

An opposed-piston engine is configured to fit in an engine compartment of a light-duty truck without compromising engine operations or the integrity of the engine compartment. The opposed-piston engine includes an air handling system and can be configured so that a cylinder assembly of the engine is tilted. The tilt of the cylinder assembly can allow for all of the components of the engine's air handling system to be located on one side of the opposed-piston engine. The air handling system of the opposed-piston engine can be configured with a cobra-head shaped intake duct assembly.

A top for a Jeep type vehicle is provided having a rear cargo area and parallel spaced roll bars. The top includes parallel spaced apart C pillars, each C pillar including front and rear vertical columns, the rear columns having a perpendicularly connected seat belt pass-through. The C pillars also have bottom plates connecting the front and rear columns that extend beyond the rear column. A top plate connects the front and rear columns together. The C pillars include pivotally connected sealing plates for sealing a top end of a rear door, the sealing plates being connected to the roll bars. A vertical rear window extending between said C pillar rear columns is provided, the rear window having a cutout portion for allowance of passage of a seat belt therethrough. A fabric cover providing a top deck extends over said front and rear seating portion of said vehicle and also covers the C pillars. A tonneau cover is provided for covering the rear cargo area providing a flat surface enclosure over the cargo area.

Methods, apparatus, systems and articles of manufacture are disclosed for electric motorized wheel assemblies. An example wheel assembly for use with an electric vehicle disclosed herein includes an electric motor, a suspension assembly, and a frame mounting interface to attach the wheel assembly to a frame of the electric vehicle.

This disclosure details systems and methods for supporting and isolating vehicle body mounted battery packs from various vehicle loads. An exemplary electrified vehicle may include a frame, a battery support structure mounted to the frame, a battery pack, and one or more isolators. The battery pack is supported by the battery support structure but is not mechanically coupled to the frame. The isolator is mounted between the battery pack and the battery pack support structure for isolating the battery pack from loads that may be imparted on the frame and/or the battery support structure.

An electrified vehicle assembly includes a frame that has a passenger side rail and a driver side rail. The assembly further includes a battery support plate and a battery pack. The battery support plate is secured to the passenger side rail and the driver side rail. The battery pack has a plurality of cross-members. To secure the battery pack to the battery support plate, mechanical fasteners each extend through an aperture in the battery support plate to engage one of the cross-members.

An electric vehicle includes a drive unit fitted to a rear axle of the electric vehicle to transmit drive power generated by a motor to rear wheels of the electric vehicle, an auxiliary electric device group including a plurality of auxiliary electric devices disposed in a cab area which is disposed under a cab of the electric vehicle and between side rails which constitute a ladder frame of the electric vehicle, a battery pack disposed between the drive unit and the auxiliary electric device group and between the side rails, a power distribution device disposed on an auxiliary electric device group side of the battery pack and between the side rails to distribute power from the battery pack to the auxiliary electric devices, and a drive power supply device disposed on a drive unit side of the battery pack to supply power from the battery pack to the motor.