Anchor brackets/tethers may be used to reinforce a vehicle's resin rear door without substantially increasing the mass of the resin rear door. Such anchor brackets hold an interior trim panel(s) in place, and keep the interior trim panel(s) connected to the door structure or portion(s) thereof. The interior trim panel(s) can act as a protective interior shield that eliminates any exposure of the interior cabin/passenger compartment from any outer (and/or interior) door panel cracks/gaps that may be created during an adverse event. Moreover, conventional interior trim panels may, during a collision, break apart, the broken pieces becoming potentially dangerous projectiles. By being attached to the door structure and/or door componentry, the chance that the interior trim panel (or portions thereof) becoming a projectile is negated or at least lessened.

A vehicle door assembly includes a door structure, an interior latch handle a panel and an interference member. The interior latch handle is installed to an inboard area of an inner door panel of the door structure. The interior latch handle has a housing and a release lever supported to the housing for pivotal movement. The panel is fixed to the inner door panel. The interference member is fixed to the panel and extends toward the release lever. With the door structure in a non-deformed state the interference member is spaced apart from the release lever. With the door structure in a deformed state in response to an impact event proximate a central area of the door structure, the panel can deformed and moves the interference member toward one end of the release lever preventing movement of the release lever to an door opening orientation.

Provided is an armrest device that can be positioned in an appropriate position suitable for the build of the vehicle occupant. The armrest device comprises an interior member provided on an inboard side of a vehicle door, and an armrest main body supported by the interior member so as to be moveable between an initial position and a projecting position more inboard and forward than the initial position.

Stability of shock absorbing property of a shock absorber provided on a back surface of a door trim is improved. A shock absorber is attached on the back surface of the door trim, and absorbs impact applied to the door. A quadrangular tube element of the shock absorber has an end plate on a tube tip surface, and faces the back surface of the door trim. The quadrangular tube element has an approximate U shape in which three side surfaces are closed by an upper plate, a lower plate, and a front plate, and the remaining one side surface is opened.

A vehicle body structure includes a door, a latch mechanism and a secondary reinforcement member (an attenuation member). The door has an inner door panel and a reinforcement member installed thereto the inner door panel. The latch mechanism is installed the inner door panel such that in a latching orientation the latch mechanism retains the door in the closed orientation and in a release orientation the door can move to the open orientation. A rearward portion of the reinforcement member is outboard and level with a portion of the latch mechanism. The secondary reinforcement member is fixedly attached to a central area of the reinforcement member spaced apart from the rearward area of the inner door panel and spaced apart from a forward area of the inner door panel. In response to an impact event, the reinforcement member deforms and contacts the latch mechanism preventing movement of the latch mechanism.

A vehicle body structure includes a door, a latch mechanism and a secondary reinforcement member (an attenuation member). The door has an inner door panel and a reinforcement member installed thereto the inner door panel. The latch mechanism is installed the inner door panel such that in a latching orientation the latch mechanism retains the door in the closed orientation and in a release orientation the door can move to the open orientation. A rearward portion of the reinforcement member is outboard and level with a portion of the latch mechanism. The secondary reinforcement member is fixedly attached to a central area of the reinforcement member spaced apart from the rearward area of the inner door panel and spaced apart from a forward area of the inner door panel. In response to an impact event, the reinforcement member deforms and contacts the latch mechanism preventing movement of the latch mechanism.

A door system for a vehicle includes a vehicle body structure and a first door structure. The first door structure includes a first door beam extending between a lower part and an upper part of the vehicle body structure when the first door structure is closed. The first door beam includes a first engaging part arranged to interact with an essentially correspondingly shaped first receiving guide rail when the first door structure is in the closed position. The first receiving guide rail extends in a lateral direction of the vehicle body structure, aligned with an extension of a first cross member extending in a lateral direction of the vehicle body structure. Upon a side collision, the first door beam is arranged to engage with the first cross member and the receiving guide rail is arranged to prevent the first engaging part from moving in a vertical direction.

An impact absorbing structure for a vehicle wherein the impact absorbing structure includes a metal beam and a resin crash pad installed on a side of the metal beam where an external impact is received, the resin crash pad is installed within a range in a longitudinal direction of the metal beam, the range including a site including a longitudinal direction center of the metal beam and receives the external impact, the resin crash pad is composed of a thermoplastic resin composition, and the thermoplastic resin composition constituting the resin crash pad has a flexural modulus if 1 to 20 GPa as measured using an ISO test piece obtained by injection molding, a bending test is performed in accordance with ISO 178 at a strain rate of 2 mm/min in an atmosphere at a temperature of 23° C. and a humidity of 50% to measure the flexural modulus.

A vehicle having a sliding door arranged behind a body pillar, a frame around the door opening closeable by the sliding door, a rail system provided in the region of the sliding door connected fixedly to the vehicle and having upper and lower guide rails, sliding carriages provided on the sliding door connected to the sliding door via a respective supporting arm and guided displaceably on the guide rails, and side impact protection in the region of the sliding door. At least one of the sliding carriages or supporting arms is provided with a stop. In the event of a side impact, in which the outer vehicle wall is deformed in the direction of the vehicle interior, an abutment connected to the vehicle wall comes to bear against the stop of the sliding carriage or of the supporting arm, and the position of the sliding door is thereby blocked.

The reinforcement element for reinforcing the structure of a door of a vehicle extends along a main direction and comprises at least a main portion having a reinforcing cross-section (40) extending in a plane substantially perpendicular to the main direction. The reinforcing cross-section (40) includes at least four adjacent branches (42a, 42b, 42c, 42d, 42e, 42f, 42g ), each extending in different directions, two successive branches forming a non-zero angle, at least two of the non-zero angles being of opposite signs.