A front vehicle-body structure of a vehicle ensures good vehicle appearance and ease in operating a bonnet without increasing the vehicle body weight. The front vehicle-body structure includes a bonnet including outer and inner panels, a hinge supporting the bonnet such that the bonnet can open and close, and a damper member urging the bonnet. The inner panel includes front and rear frame portions, and a pair of side frame portions respectively connecting left and right ends of the front and rear frame portions and each including a hinge mounting portion and a damper mounting portion for mounting the damper member frontward of the hinge mounting portion. The side frame portion includes a convex first bead portion formed partially in a curved shape between the hinge mounting portion and the damper mounting portion and extending back and forth from the hinge mounting portion to the damper mounting portion.

A vehicle body structure defines a vehicle longitudinal direction and a vehicle lateral direction perpendicular to the vehicle longitudinal direction and includes a rear sill structure. The rear sill assembly at least partially defines a rear opening of the vehicle body structure. The rear sill assembly extends in the vehicle lateral direction. The rear sill assembly includes a first body panel and a second body panel. The first body panel extends from a first side of the rear opening to a second side of the rear opening. The second body panel overlays a portion of the first body panel. The second body panel has a main section that includes a plurality of recessed rib portions that extend in directions that define an acute angle relative to the vehicle longitudinal direction.

A vehicle body structure defines a vehicle longitudinal direction and a vehicle lateral direction perpendicular to the vehicle longitudinal direction and includes a rear sill structure. The rear sill assembly at least partially defines a rear opening of the vehicle body structure. The rear sill assembly extends in the vehicle lateral direction. The rear sill assembly includes a first body panel and a second body panel. The first body panel extends from a first side of the rear opening to a second side of the rear opening. The second body panel overlays a portion of the first body panel. The second body panel has a main section that includes a plurality of recessed rib portions that extend in directions that define an acute angle relative to the vehicle longitudinal direction.

Disclosed is a high-integration-level plastic tail door, comprising a tail door upper outer plate, a tail light, a tail door lower outer plate, an inner plate, and a high brake light, wherein the tail door upper outer plate, as a whole, is integrated with a spoiler, a tail door windshield, a windscreen decorating member, and a high brake light cover; the tail door upper outer plate is of two layers and is formed by means of double-shot molding, with a first layer being a transparent layer and a second layer being a black non-transparent layer; a first open hole is provided at the position of the high brake light in a black non-transparent layer area; a second open hole is provided in the middle of the tail door windshield; and a hardened coating is arranged on the outer layer of the transparent layer.

Disclosed is a high-integration-level plastic tail door, comprising a tail door upper outer plate, a tail light, a tail door lower outer plate, an inner plate, and a high brake light, wherein the tail door upper outer plate, as a whole, is integrated with a spoiler, a tail door windshield, a windscreen decorating member, and a high brake light cover; the tail door upper outer plate is of two layers and is formed by means of double-shot molding, with a first layer being a transparent layer and a second layer being a black non-transparent layer; a first open hole is provided at the position of the high brake light in a black non-transparent layer area; a second open hole is provided in the middle of the tail door windshield; and a hardened coating is arranged on the outer layer of the transparent layer.

A vehicle hood lift mechanism is disclosed, including a central member extending between a vehicle and a hood. The central member is pivotally engaged with the hood via a first hinge. A central portion is pivotally engaged via a second hinge to the central member. The central portion includes a lower and upper member each joined at the second hinge. The lower member includes a distal end pivotally engaged to a lower member via a third hinge and the upper member includes a distal end pivotally engage to a second arm via a fourth hinge. The first arm extends between the distal end of the lower member to the hood and the second arm extends between the distal end of the upper member and the engine compartment. The vehicle hood lift mechanism allows the hood to be maintained in a horizontal plane when in a raised and lowered position.

A vehicle hood lift mechanism is disclosed, including a central member extending between a vehicle and a hood. The central member is pivotally engaged with the hood via a first hinge. A central portion is pivotally engaged via a second hinge to the central member. The central portion includes a lower and upper member each joined at the second hinge. The lower member includes a distal end pivotally engaged to a lower member via a third hinge and the upper member includes a distal end pivotally engage to a second arm via a fourth hinge. The first arm extends between the distal end of the lower member to the hood and the second arm extends between the distal end of the upper member and the engine compartment. The vehicle hood lift mechanism allows the hood to be maintained in a horizontal plane when in a raised and lowered position.

A front vehicle-body structure controls inward breakage of an apron reinforcement in the event of a small overlap collision, without increasing weight. Embodiments include a pair of right and left apron reinforcements extending in a vehicle front-rear direction; and a pair of right and left hinge pillars respectively connected to rear ends of the pair of apron reinforcements. A reinforcement outer member of the apron reinforcement includes a linear portion extending in the vehicle front-rear direction from a rear end of the apron reinforcement connected to the hinge pillar to an intermediate portion of the apron reinforcement. A horizontal bead, provided as a deformation facilitating portion to facilitate deformation toward an inside of a vehicle body, is disposed on an outer surface portion positioned on a vehicle-width-direction outer side of the linear portion, the horizontal bead having a reduced longitudinal rigidity toward a front side in the vehicle front-rear direction.

A front vehicle-body structure controls inward breakage of an apron reinforcement in the event of a small overlap collision, without increasing weight. Embodiments include a pair of right and left apron reinforcements extending in a vehicle front-rear direction; and a pair of right and left hinge pillars respectively connected to rear ends of the pair of apron reinforcements. A reinforcement outer member of the apron reinforcement includes a linear portion extending in the vehicle front-rear direction from a rear end of the apron reinforcement connected to the hinge pillar to an intermediate portion of the apron reinforcement. A horizontal bead, provided as a deformation facilitating portion to facilitate deformation toward an inside of a vehicle body, is disposed on an outer surface portion positioned on a vehicle-width-direction outer side of the linear portion, the horizontal bead having a reduced longitudinal rigidity toward a front side in the vehicle front-rear direction.

A vehicle hood lock device includes a base including a groove for entry of a striker, a latch that pivots between a restraining position and a release position, a locking lever engaging the latch, a torsion spring causing the latch to pivot in a direction toward the release position, and a sub-plate fixed to the base by a latch pin supporting the latch and a locking pin supporting the locking lever. The torsion spring includes a cylindrical portion. The sub-plate integrally includes a basal portion, a circumferential wall portion rising up from the basal portion in a pivot axis direction of the latch, facing the cylindrical portion in a radial direction thereof and restricting movement of the torsion spring in the radial direction, and a brim portion protruding outward in the radial direction from the circumferential wall portion and restricting movement of the torsion spring in the pivot axis direction.