A striker mounting structure is configured to mount a striker on a vehicle body. A hook fixed to a door is hooked to the striker. A reinforcement formed with an insertion hole may be attached to the vehicle body. An outer panel covering a reinforcement may include a striker mounting surface spaced from the reinforcement. A reinforcement member may be fixed to the striker and the striker mounting surface. Two or more connecting rods may extend from the reinforcement member. Each of the connecting rods may include locking portions, which are inserted in the insertion hole formed in the reinforcement.

A door assembly, of a vehicle that includes a first pillar structure and a second pillar structure, includes a door outer panel, a door inner panel coupled to and positioned inwardly of the door outer panel, and an impact beam positioned between the door outer panel and the door inner panel. The door impact beam includes a first end and an opposite second end, the first end overlaps the first pillar structure and the second end overlaps the second pillar structure. The door assembly further includes an inner bulkhead coupled to the door inner panel and positioned between the door inner panel and the first end of the impact beam, and an outer bulkhead coupled to the door inner panel and positioned between the inner bulkhead and the first end of the impact beam, the outer bulkhead overlaps a portion of the inner bulkhead.

A locking device is provided for a motor vehicle door. The locking device includes a body having a base, a stake, a lever, a gusset and a rotational axis. A method of locking a motor vehicle door closed in response to a side impact is also provided.

A vehicle door includes a first interlock coupled to an inner frame panel. A second interlock coupled to an inner trim panel. The first and second interlocks are separated to define a ready state. During an impact condition, the first and second interlocks selectively engage one another to define an impact state that resists deflection of the inner trim panel away from the inner frame panel.

A vehicle with improved bodyclosure impact performance may include a frame having an outer side and an inner side, the frame comprising a door opening, a door sill secured to the frame and extending along an edge of the door opening, the door sill extruded to comprise an elongate cavity; and a door secured to the frame and comprising an elongate protrusion, the door movable between an open position and a closed position, where the elongate cavity is positioned to receive the elongate protrusion when the door is in the closed position.

A door assembly, of a vehicle that includes a first pillar structure and a second pillar structure, includes a door outer panel, a door inner panel coupled to and positioned inwardly of the door outer panel, and an impact beam positioned between the door outer panel and the door inner panel. The door impact beam includes a first end and an opposite second end, the first end overlaps the first pillar structure and the second end overlaps the second pillar structure. The door assembly further includes an inner bulkhead coupled to the door inner panel and positioned between the door inner panel and the first end of the impact beam, and an outer bulkhead coupled to the door inner panel and positioned between the inner bulkhead and the first end of the impact beam, the outer bulkhead overlaps a portion of the inner bulkhead.

A vehicle lateral structure includes: a rocker extending in a longitudinal direction of a vehicle; and a side door existing along the rocker in a closed state in which the side door is closed, the side door including a lower region of the side door being located further from a center of the vehicle in a vehicle width direction than the rocker is in the vehicle width direction and a protrusion portion which protrudes toward the center of the vehicle in the vehicle width direction from a lower end portion of the lower region in a vertical direction of the vehicle.

A vehicle door includes a first interlock coupled to an inner frame panel. A second interlock coupled to an inner trim panel. The first and second interlocks are separated to define a ready state. During an impact condition, the first and second interlocks selectively engage one another to define an impact state that resists deflection of the inner trim panel away from the inner frame panel.

An apparatus for manufacturing a bracket-integrated double-layer door impact beam is provided. The apparatus includes a lower mold having a lower cavity formed with a base material molded to have a U-shaped cross section and a predetermined length. The base material is seated on the lower cavity. A lower electrode terminal is disposed in the lower mold to contact the base material. An upper mold has an upper cavity therein and is coupled with the lower mold to pressurize both end portions of the U-shaped cross section of the base material inward to form the base material with an O-shaped cross section. An upper electrode terminal is disposed in the upper mold to contact the base material.

A vehicle door includes an outer panel, an inner panel including an inner wall portion, a side wall portion, and a flange portion, an impact beam provided so to extend between the outer panel and the inner wall portion on a surface parallel to inner wall portion, and a bracket including a fixed portion, a joint portion, and a recessed portion. The recessed portion recesses toward an inner-panel side such that a tip end of the impact beam is distanced from the bracket. In an extending direction of the impact beam, a yield strength of a region from the fixed portion to a tip end position of the impact beam for a load applied from the outer panel-side is lower than a yield strength of a region from the tip end position of the impact beam to the joint portion for the load applied from the outer-panel side.