A headlight-affixing structure for affixing a headlight positioned above a front bumper to a vehicle by using a headlight bracket. When viewed from the front, the headlight bracket is substantially formed into an L-shape and comprises a horizontal section extending in the vehicle-width direction along the lower edge of the headlight, and an upright section extending upward from an end of the horizontal section on the inside thereof in the vehicle-width direction. The upright section of the headlight bracket is provided with an upper affixing part for affixing the upper section of the headlight by using a downward-facing fastening member. The middle-outside section of the horizontal section is provided with a lower affixing part for affixing the lower section of the headlight by using an upward-facing fastening member.

A structure for fastening an engine mount is provided and includes an engine bracket that is mounted on an engine body coupled to a first end of a support bracket and a second end of the support bracket is connected to the engine mount. The support bracket has a bolt aperture that receives a center bolt protruding from an upper surface of the engine mount. The support bracket is placed on a mounting seat on the upper surface of the engine mount. The mounting seat is recessed downward from the upper surface of the engine mount. The height difference between an engine side portion and an engine mount side portion is reduced to a depth of the recession of the mounting seat. The rigidity and NVH performance are improved and a weight of the support bracket is reduced by omitting the damper.

A vehicle body structure using carbon fiber reinforced plastics (CFRP) may include a cowl member extending along a width direction of a vehicle, a front pillar extending along a height direction of the vehicle, and a cowl side member of which an inner side is coupled to a front end of the cowl member and an outer side is coupled to the front pillar member.

A frame structure of a vehicle includes: a first member composed of a metal plate, and a second member composed of a metal plate having a thickness thinner than that of the first member, the second member integrally connected to the first member by welding. The connection portion between the first member and the second member has an inclined surface configured to obliquely connect an upper surface of the first member and an upper surface of the second member such that the upper surface of the second member is positioned to be lowered than the upper surface of the first member in a gradual manner.

The present disclosure relates to a power battery pack, an energy storage device, an electric vehicle. The power battery pack includes an accommodating device and a plurality of cells, the accommodating device includes a plurality of accommodating regions, and each accommodating region has a first side edge and a second side edge and cells disposed between the first side edge and the second side edge. A distance between the first side edge and the second side edge along a first direction varies with different accommodating regions, each cell includes a first end and a second end, and a distance between the first end and the second end matches a distance between a corresponding first side edge and a corresponding second side edge.

A vehicle body assembly is described herein, including a first structural component and a second structural component. The first structural component may be a roof component or a side panel, and include a first part including a first metal and a second part including a second metal different than the first metal. The second part is formed on a peripheral edge portion of the first part and defines a mounting flange for the first structural component. The second part is joined to the first part via an ultrasonic additive manufacturing (UAM) interface. The second structural component is including the second metal and is joined to the second part at the mounting flange via a resistance spot weld (RSW) joint.

A tonneau cover access panel assembly connectable to a vehicle that eliminates the need for side rails to both locate and tension a tonneau cover. The assembly also reduces weight and complexity. The assembly incorporates a readily accessible rear latching system that reduces or eliminates interference with the tonneau cover during operation. The assembly also incorporates a tonneau cover tensioning system. The tension seals out environmental elements and holds the tonneau cover and locating bows in place. The assembly holds the tonneau in the closed tension state keeping the tonneau cover secured and tight until the cover is opened by an operator. The assembly is movable between a closed position and a fully open/stowable position and any intermediate positions. The assembly is also movable between at least a first open position and the deployed position for more limiting access to the cargo bed of the vehicle when desired.

A tonneau cover access panel assembly connectable to a vehicle that eliminates the need for side rails to both locate and tension a tonneau cover. The assembly also reduces weight and complexity. The assembly incorporates a readily accessible rear latching system that reduces or eliminates interference with the tonneau cover during operation. The assembly also incorporates a tonneau cover tensioning system. The tension seals out environmental elements and holds the tonneau cover and locating bows in place. The assembly holds the tonneau in the closed tension state keeping the tonneau cover secured and tight until the cover is opened by an operator. The assembly is movable between a closed position and a fully open/stowable position and any intermediate positions. The assembly is also movable between at least a first open position and the deployed position for more limiting access to the cargo bed of the vehicle when desired.

An apparatus for manufacturing a pipe for a cowl crossbar disposed inside a vehicle body in a lateral direction, includes an extruder configured to receive a pipe material and extrude the pipe material; and a compression molding machine, configured to compress the pipe material extruded and form the pipe, comprising a hydraulic cylinder configured to form a hollow part at a center of the pipe material in a longitudinal direction.

A cargo support system and cargo support rails therefor are provided. The cargo support rails include a tubular wall extending along a longitudinal axis between opposite ends. The tubular wall includes a plurality of carbon fibers and a fibrous mat bonded to one another by a cured resin.