A door structure includes a safety device arranged on a surface of the door structure facing a pillar of a vehicle body, wherein the safety device includes: a case member having an opening which opens to the pillar; a slide pin configured to slide from an initial position to a protruded position, in a direction from the case member toward the pillar; and a stopper configured to fix the slide pin in the protruded position when the slide pin has slid to the protruded position.

There are provided a vehicle-body frame member forming an opening portion for entrance at a vehicle side part and a front side door provided so as to open and close the opening portion. The vehicle-body frame member comprises a side sill, the front side door comprises a door panel portion provided with an inner lower portion which overlaps with the side sill in a vehicle wide view and reinforcement portions provided at two side-portions of a peripheral part of the door panel portion which are continuous and include the inner lower portion such that the reinforcement portions overlap with the vehicle-body frame member in a vehicle side view.

An opening and closing device includes an upper arm and a lower arm spaced apart in an up-and-down direction and extend between a vehicle door and a vehicle body, a connecting member configured to connect a first end portion of the upper arm and a first end portion of the lower arm, a body-side upper hinge and a body-side lower hinge attached to the vehicle body so as to be spaced apart in the up-and-down direction and support the connecting member rotatably, a door-side upper hinge attached to an inner panel of the vehicle door to support a second end portion of the upper arm rotatably, and a door-side lower hinge attached to the inner panel of the vehicle door to support a second end portion of the lower arm rotatably.

A vehicle door structure includes an inner panel, an outer panel, a guard beam and a reinforcing member. The guard beam extends laterally in a cavity between the inner and outer panels. The reinforcing member disposed in the cavity and being positioned on a floor of the vehicle door structure below the guard beam.

A door has a latch mechanism, a reinforcement bracket and a jamming bracket within a cavity of the door. The latch mechanism retains the door in a closed orientation and in response to operation of the latch mechanism the door is released for movement to an open orientation. The reinforcement bracket is fixedly attached to structures of the vehicle door. The jamming bracket is fixed to the reinforcement bracket and has a locking portion that extends to an area adjacent to a release lever of the latch mechanism. With the door in a non-deformed state, the release lever is movable between a door opened orientation and a door closed orientation. In response to deformation of the door resulting from an exterior impact force, the locking portion of the jamming bracket moves toward the release lever preventing the release lever from moving to the door opened orientation.

A vehicle includes a vehicle body and a reinforcing patch. The vehicle body component defines a cavity. The reinforcing patch is disposed within and attached to the vehicle body component. The reinforcing patch includes a substrate and a reinforcing body attached to the substrate. The reinforcing body has a first tab, a second tab, and a first slit between the first and second tabs. The slit is at least partially filled by the substrate.

A core layer suitable for a multilayer composite including at least one surface layer and one core layer, the surface layer arranged to at least partially cover the core layer and be fixedly connected thereto, wherein the core layer has elements composed of wood, which elements have plate-like regions arranged in zig-zag-shaped fashion, wherein a plate-like zig region of an element with an adjoining plate-like zag region of the element form a common edge between them, in such a way that the wood element of zig-zag-shaped form is formed, wherein elements of zig-zag-shaped form are arranged in the core layer such that two such edges of two different elements cross one another at a non-zero angle, and wherein the two elements are fixedly connected to one another at the crossing point. In one embodiment, a wood element of zig-zag-shaped form may be adhesively bonded to a planar wood element.

This disclosure is directed to audio actuator assemblies that include bridging brackets for mounting audio actuators inside vehicle body components. In some embodiments, the vehicle body component is a door that includes a reinforcement beam. The bridging bracket is mountable to the reinforcement beam in order to secure the audio actuator in place inside the vehicle body component in a manner that allows the audio actuator to vibrate adjacent surfaces of the vehicle body component for radiating sound signals.

The present application relates to a reinforcement element (30) arranged to be attached to a profile (10) for forming a B-pillar for a vehicle, which profile (10) is arranged with attachment areas (22, 24) for door hinges, characterised in that the reinforcement element (30) is designed with two elongated strips (32, 34) of material, wherein the strips (32, 34) are inter-connected at least at one attachment area (22) for door hinges when the reinforcement element (30) is attached to profile (10), wherein the profile (10) is hat-shaped with a central flange (12) and two sides (14, 6), and wherein each strip (32, 34) is attached to the transition area (36, 38) between the central flange (12) and a side (14, 16). The present application also 10 relates to a B-pillar provided with the reinforcement element as well as a method of manufacturing a B-pillar with the reinforcement element.

A stiffening structure for an automotive door panel part according to the present invention includes a door outer panel 3 made of a metal sheet curved along a height direction, and in which a character line 3a is formed; and an impact beam 5 disposed at an inner surface side of the door outer panel 3. The stiffening structure improves tensile rigidity of the door outer panel 3 by attaching a stiffening member 7 made of resin to the inner surface of the door outer panel 3. The stiffening member 7 includes vertical bone portions 9 extending in a streak shape from the impact beam 5 to the character line 3a along a curve of the door outer panel 3. The vertical bone portions 9 are arranged at a predetermined interval in a front-rear direction of the door outer panel 3, and outer surface of the vertical bone portions 9 is bonded to the inner surface of the door outer panel 3.