A vehicle door system includes at least one sliding door which is arranged on the side and can be displaced out from the B-pillar. A securing system is provided for latching the sliding door on the B-pillar in the case of an external impact against the B-pillar occurring obliquely from the front. The securing system can block the at least one sliding door from opening in response to the external impact. The securing system includes a catchment claw that engages a securing hook to hold the at least one sliding door to the B-pillar.

A passenger motor vehicle includes a body, a side door movable between a closed position and an open position, a side door fixing element, and a body stop element. The side door fixing element is disposed on the side door and the body stop element is disposed above the side door fixing element in a vertical direction of the passenger motor vehicle when the side door is in the closed position. The side door fixing element and the body stop element have an offset relative to each other in a transverse direction of the passenger motor vehicle when the side door is in the closed position. The side door is reshapeable as a result of an impact on the side door such that the side door fixing element is displaceable against the body stop element.

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.

The present disclosure relates to a vehicle having a body, a first vehicle door, and a second vehicle door arranged behind the first vehicle door in a vehicle longitudinal direction. The first and second vehicle doors are each movably coupled to the body such that the first and second vehicle doors are movable between a closed position and an open position in a sliding-pivoting manner. The vehicle includes at least one passive locking device that interlockingly connects one of the first and second vehicle doors to the body of the vehicle when set at the closed position to form a vehicle pillar of the body of the vehicle.

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 in a closed position. A first bracket is attached to a lower end of the first door beam by at least one fastening means. The first bracket is arranged to run in a first guide rail arranged in the vehicle body structure. The first guide rail includes a first recession. The first bracket includes a first protrusion arranged at a bottom end of the first bracket. Upon a roof crush, the first protrusion and the first recession in the first guide rail is arranged to engage to prevent separation of the first door structure from the vehicle body structure.

A reinforcing structure of an automobile exterior panel improving performance in absorbing an impact load, the reinforcing structure of an automobile exterior panel comprising an outer panel 110 of a sheet shape, a reinforcing member 120 arranged at a vehicle inner side from the outer panel 110, an inner panel 135 of a sheet shape arranged at a vehicle inner side from the reinforcing member 120, and a support member 140 provided at a vehicle outer side from the inner panel 135 and supporting the reinforcing member 120 from a vehicle inner side, the support member 140 comprised of tube-shaped member having axial centers directed from the vehicle inner side toward the vehicle outer side.

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.

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.

A vehicle door assembly includes an inner door panel that partially defines a cavity therein, a door handle assembly, a main reinforcing bracket, a first reinforcing bracket and a vibration absorbing member. The first reinforcing bracket has an upper end fixedly attached to the main reinforcing bracket and to a rearward area of the inner door panel within the cavity below the door handle assembly. The vibration absorbing member has an outboard surface, an inboard surface and a main projection that extends forward from the main body. The main projection is fixed to the first reinforcing bracket such that the main body is rearward of the first reinforcing bracket. The outboard surface is shaped and dimensioned to correspond to the overall shape of the inboard portion of the door handle assembly.

A vehicle body side structure includes: a side sill extending in a longitudinal direction of a vehicle at a side bottom of the vehicle and having a recess sagging inward in a width direction of the vehicle; a door being hollow, having a door bottom portion disposed so as to overlap the side sill when seen from a side, and being arranged at an outer side of the side sill in the width direction; and a force transferring member having a projection protruding inward in the width direction, being disposed in a hollow interior of the door bottom portion, and being configured to transfer force acting inward in the width direction to the side sill.