A front vehicle-body structure may include a pair of front side members each disposed in a vehicle length direction at both sides of a front vehicle-body, a pair of mounting brackets each engaged with a corresponding front side member among the pair of front side members and disposed to protrude from an internal panel of the corresponding front side member in a width direction of the vehicle to face each other, a cross bar having an upper surface, a front surface, and a rear surface, having a cross-section having an open bottom side and an open lateral end portion, and engaged with the mounting bracket in a vehicle height direction thereof, and an engagement unit of engaging the cross bar to the pair of mounting brackets with a predetermined gap between the pair of front side members and the lateral end portion of the cross bar.

A vehicle may include a CVT unit or a power source which requires ambient air. An air inlet for an air intake system coupled to the CVT unit or the power source which requires ambient air may be provided in a side of a cargo carrying portion of the vehicle. The vehicle may include a rear radius arm suspension.

A vehicle may include a CVT unit or a power source which requires ambient air. An air inlet for an air intake system coupled to the CVT unit or the power source which requires ambient air may be provided in a side of a cargo carrying portion of the vehicle. The vehicle may include a rear radius arm suspension.

The invention relates to a bracket for supporting an electric motor on a chassis of a vehicle. The bracket includes a first half shell defining a first half space and a second half shell defining a second half space. In embodiments, the first half shell and the second half shell are made from a plastic material, which may in particular comprise a polymer material. In embodiments, the first half shell and the second half shell are fixed to each other, such as by welding, such that the first half shell and the second half shell define a cavity within the bracket that includes the first half space and the second half space.

A vehicle may include a CVT unit or a power source which requires ambient air. An air inlet for an air intake system coupled to the CVT unit or the power source which requires ambient air may be provided in a side of a cargo carrying portion of the vehicle. The vehicle may include a rear radius arm suspension.

A vehicle battery tray includes a floor assembly that has elongated tray sections that attach together at lateral edge portions of adjacent tray sections to form a floor structure that supports vehicle batteries contained in the vehicle battery tray. The elongated tray sections each have a substantially consistent cross-sectional shape that extends longitudinally along a length of the respective tray section. A first tray section includes a first attachment feature at the lateral edge portion thereof and a second tray section includes a second attachment feature at the lateral edge portion thereof that corresponds with the first attachment feature. The first and second attachment features engage together at a longitudinal seam between the lateral edge portions of the first and second tray sections, such as to align upper surfaces of the first and second tray sections.

A bumper system (4) for a motor vehicle comprising a cross beam (1) which is globally orientated in a transverse direction (Y), said cross beam comprising a front wall (6) adapted to receive a crash impact force and a rear wall (5) opposed and spaced from said front wall, at least one absorber (2), at least an intermediate component (3) to attach the absorber (2) to the cross beam (1), said intermediate component (3) being connected to the rear wall (5) through a first contact area (10), distant from a longitudinal axis (LL), by an internal component distance, called L.sub.in, and an external component distance, called L.sub.out, which corresponds respectively to the minimum and maximum distance between said first contact area (10) and the longitudinal axis (LL), said longitudinal axis (LL) passing at mid width of the cross beam and being perpendicular to the transverse direction (Y), said intermediate component (3) being connected to the absorber (2) through a second contact area (20) distant from the longitudinal axis (LL) by an internal profile distance, called D.sub.in, and an external profile distance, called D.sub.out, which corresponds respectively to the minimum and maximum distance between the second contact (20) area and the longitudinal axis (LL), wherein a part of the intermediate component distant from the longitudinal axis (LL) by a distance comprised between L.sub.out and D.sub.out has a smaller bending stiffness (S.sub.interm) about a vertical axis (Z) than a part of the cross beam distant from the longitudinal axis (LL) by a distance comprised between L.sub.out and D.sub.in (S.sub.cross), said vertical axis (Z) being perpendicular to the transverse direction (Y) and the longitudinal axis (LL).

A vehicle body structure may include a front pillar extending in a height direction of a vehicle and positioned in front along a longitudinal direction of the vehicle. A rear pillar extends in the height direction and is positioned in rear along the longitudinal direction of the vehicle. Roof side members extend in the longitudinal direction of the vehicle and are disposed on the left and right sides along a width direction of the vehicle. At least one roof rail extends along the width direction of the vehicle and connecting the roof side members of the left and right sides. The front pillar includes a front pillar inner member and a front pillar outer reinforcing member. A front end portion of the roof side member along the longitudinal direction of the vehicle is inserted between the front pillar inner member the front pillar outer reinforcing member.

A rear vehicle-body structure of a vehicle capable of increasing the support rigidity of a rear suspension and the transmission efficiency of a rear-end collision load to the vehicle front side. A side sill has an upper closed cross-section portion. The upper closed cross-section portion includes a closed cross-sectional space extending in the vehicle front-rear direction. A linear connecting frame connecting a rear end of the upper closed cross-section portion to a rear side housing is between the rear end of the upper closed cross-section portion and the rear side housing. The connecting frame is inclined to be closer to a vehicle lower side as the connecting frame approaches the vehicle front side. The upper closed cross-section portion is inclined to be closer to an upper side as the upper closed cross-section portion approaches a vehicle rear side to correspond to an inclination angle of the connecting frame.

A vehicle may include a CVT unit or a power source which requires ambient air. An air inlet for an air intake system coupled to the CVT unit or the power source which requires ambient air may be provided in a side of a cargo carrying portion of the vehicle. The vehicle may include a rear radius arm suspension.