A vehicle door includes a lower part and an upper part designed as a window frame. The upper part includes several frame elements, which are joined together by spraying plastic onto the frame elements.

There are provided a hinge pillar extending in a vehicle vertical direction, an apron reinforcement extending forward from the hinge pillar, a connecting member provided below the apron reinforcement and connecting the hinge pillar and the apron reinforcement in a brace shape, a dash panel provided in back of the connecting member and extending in a vehicle width direction, a wheel house provided in front of the dash panel, and an apron rear panel provided on an inward side, in the vehicle width direction, of and closely to the connecting member and connecting a rear portion of the wheel house and the dash panel.

An engine mount comprising a body having a cavity and a flange. The cavity comprises an opening having a central axis. The flange comprises bottom and top mounting surfaces and a centerline perpendicular to the central axis. The bottom mounting surface defines a first horizontal plane off-set from the central longitudinal axis. The flange further comprises a symmetric mounting hole pattern extending from the bottom mounting surface to the top mounting surface. The off-set and the symmetric mounting hole pattern allow a first use of the engine mount where the bottom surface of the flange is engaged directly with the engine mounting bracket and a second use of the engine mount where the top surface of the flange is engaged directly with the engine mounting bracket so that a different type of engine may be mounted.

A vehicle body assembly includes a first door sill arrangement and a second door sill arrangement for a motor vehicle. The first door sill arrangement includes a first bodywork section, a first anchoring device for anchoring a seatbelt in the first bodywork section, and a belt tensioner for tightening the seatbelt. The belt tensioner is in operative connection with the first anchoring device. A first trim element covers the first bodywork section. The second door sill arrangement includes a second bodywork section, a second anchoring device for anchoring the seatbelt in the second bodywork section and a second trim element, which covers the second bodywork section.

The invention relates to an air guide (10) particularly for a cooling module (12) of a front-end module (11) of a vehicle with an air guide body (20) which comprises an air inlet opening (21) and an air outlet opening (22) in order to guide air from the outside to the inside with regard to the vehicle. To this end, the invention provides that the air guide body (20) is configured from such a material (30) that the air guide body (20) can be transferred in the mounting state (I) and in the transport state (II) wherein the air guide body (20) assumes a significantly greater volume in the mounting state (I) than in the transporting state (II).

A fuel filler tube housing assembly constructed in accordance to one example of the present disclosure includes a fuel filler neck and a filler extension tube. The fuel filler neck housing includes a first mounting structure operable to support a check valve. The fuel filler extension tube is fixed to the fuel filler neck housing and has a second mounting structure substantially similar to the first mounting structure and thereby also operable to support the check valve.

A method of making a side step of a vehicle includes a bracket that is mounted to a vehicle body and an insert main body that bears weight of passengers. The bracket and the insert main body are integrally provided by using a CFT material through insert-molding, and an injection molding resin is coupled to all over the insert main body where the bracket is coupled through insert-molding so as to form a main frame of the side step.

A work vehicle includes a prime mover unit disposed in a front part of the vehicle body, a driving part located in a rear part of the vehicle body, a battery disposed between the prime mover unit and the driving part, a base frame disposed in a lower part of the vehicle body and a center pillar that extends upward from the base frame. The prime mover unit includes a radiator disposed immediately forward of the center pillar. The driving part includes a steering wheel disposed above the battery. The center pillar is an integrated structure by welding a partition made of a steel plate and partitions a storage space formed in the front part of the vehicle body into a front space adjacent the prime mover unit and a rear space adjacent the battery, a first supporting member made of a steel plate and supports the partition from below, a second supporting member made of a steel plate and supports the radiator from below, a third supporting member made of a steel plate and supports the steering wheel, and a mounting platform made of a steel plate and on which the battery is mounted.

A saddle type vehicle includes an engine that is disposed between front and rear wheels and is mounted on a vehicle frame. The vehicle includes: a rear fender at least partially covering the rear wheel from above; and an air cleaner disposed between the rear fender and the engine; wherein the air cleaner is fixed to the rear fender.

Powered retractable vehicle step assist systems and methods are provided. The steps systems are configured for installation (e.g., after market installation) and use with a vehicle. The system can include a stepping member movable between a retracted position and a deployed position with respect to the vehicle. The system can further include a vehicle interface configured to electronically communicate with an existing communication bus of the vehicle, such as through a connection with an existing electronics port of the vehicle. A controller of the step system can be configured to process information received from the vehicle interface and, based at least partly on the processing of the information, cause movement of the stepping member between the retracted position and the deployed position.