A roof rail assembly for a motor vehicle having an open frame vehicle architecture includes a side air curtain fixedly coupled with a sports tube via a first fastener oriented at a first angle relative a horizontal transverse plane of the sports tube. A roof rail trim cover is coupled with the sports tube via a second fastener oriented at a second angle, wherein the first angle and the second angle are not parallel. A cover member depends from the roof rail trim cover and includes a plurality of parallel hinges integrally molded into the cover member. A releasable opening is disposed parallel to the plurality of parallel hinges. Activation of the side air curtain rotates the cover member about the plurality of parallel hinges to open the releasable opening to allow passage of side air curtain through an opening.

A roof rail assembly for a motor vehicle having an open frame vehicle architecture includes a side air curtain fixedly coupled with a sports tube via a first fastener oriented at a first angle relative a horizontal transverse plane of the sports tube. A roof rail trim cover is coupled with the sports tube via a second fastener oriented at a second angle, wherein the first angle and the second angle are not parallel. A cover member depends from the roof rail trim cover and includes a plurality of parallel hinges integrally molded into the cover member. A releasable opening is disposed parallel to the plurality of parallel hinges. Activation of the side air curtain rotates the cover member about the plurality of parallel hinges to open the releasable opening to allow passage of side air curtain through an opening.

A superposition interior component includes a base, an outer layer member, which covers the base, and a middle member, which is made of a soft plastic and disposed between the base and the outer layer member. The superposition interior component is formed by stacking the base, the middle member, and the outer layer member together. The middle member includes a plate-shaped body, first protrusions, and second protrusions. The first protrusions protrude from a first surface of the body, which faces the base. The second protrusions protrude from a second surface of the body, which faces the outer layer member.

A vehicle trim panel assembly includes a pillar trim panel, a grab handle extending from the pillar trim panel defining a corner between the pillar trim panel and the grab handle, and a ramp at the corner. The ramp is fixed relative to the pillar trim panel and the grab handle at the corner. The ramp is deformable relative to the grab handle.

A vehicle trim panel assembly includes a pillar trim panel, a grab handle extending from the pillar trim panel defining a corner between the pillar trim panel and the grab handle, and a ramp at the corner. The ramp is fixed relative to the pillar trim panel and the grab handle at the corner. The ramp is deformable relative to the grab handle.

A roof system for a vehicle includes a fixed roof element, forming a fixed roof segment of a vehicle roof bounding a passenger compartment and situated in a rear area of the vehicle roof, a roof opening and closing mechanism, which allows a relative movement of a movable roof element in relation to the fixed roof element and/or a relative movement of a movable roller blind in relation to the vehicle roof. The fixed roof element is designed as a single-piece roof element having at least one impact energy absorption section and at least one receiving section locally distinct from the impact energy absorption section for receiving electrical and/or mechanical function elements, by which or in the interplay of which with other function elements a movement of the movable roof element for opening and closing of the roof opening and/or driving the roller blind can be effectuated.

A roof system for a vehicle includes a fixed roof element, forming a fixed roof segment of a vehicle roof bounding a passenger compartment and situated in a rear area of the vehicle roof, a roof opening and closing mechanism, which allows a relative movement of a movable roof element in relation to the fixed roof element and/or a relative movement of a movable roller blind in relation to the vehicle roof. The fixed roof element is designed as a single-piece roof element having at least one impact energy absorption section and at least one receiving section locally distinct from the impact energy absorption section for receiving electrical and/or mechanical function elements, by which or in the interplay of which with other function elements a movement of the movable roof element for opening and closing of the roof opening and/or driving the roller blind can be effectuated.

The occupant protection device that protects an occupant boarding on a vehicle and includes: a base portion fixed to the vehicle; an operation portion connected to the base portion and configured to move back and forth between a first position serving as an initial position and a second position used to suppress movement of the occupant when inertial force acts on the occupant; and a control unit configured to perform movement control to move the operation portion from the first position to the second position. The operation portion is movable repeatedly from the first position to the second position through the movement control by returning to the first position after having moved from the first position to the second position. The occupant protection device includes an buffering means configured to buffer a collision impact on the occupant against the operation portion when the operation portion moves to the second position.

An embodiment vehicle panel assembly includes an inner panel configured to wrap a roof and opposite pillars of a vehicle body, the inner panel including a second inner assembly portion provided at pillar-side opposite side parts and a guide portion provided at an upper side of the second inner assembly portion, and an outer panel configured to be loaded from above the inner panel and coupled to the inner panel to wrap an outside of the inner panel, the outer panel including a second outer assembly portion provided at a side part, the second outer assembly portion configured to be guided downwards by the guide portion when loaded from above and facing the second inner assembly portion after loading, wherein the second outer assembly portion is fastened to the second inner assembly portion.

A vehicle cushioning member includes first and second bending portions including first and second convex-bending portions, and first and second concave-bending portions. The first and second convex-bending portions and the first and second concave-bending portions are formed perimetrically while switched from each other between the adjacent side walls. When a length from a top surface of the top plate to a flange portion is 100%, a length from the top surface to the first bending portion is 24% or more and 47% or less, a length from the first bending portion to the second bending portion is 34% or more and 49% or less, and a length from the second bending portion to a top-plate-side surface of the flange portion is 13% or more and 33% or less, concerning a height direction along the axis of a substantially polygonal tube.