An apparatus and method for improving the safety and performance of an automobile in crash events is disclosed. The apparatus includes a front crash pad, rear crash pad, and a connection beam. Both crash pads and the connection beam are coupled to an automobile in such fashion as to absorb and dissipate energy by converting kinetic energy into strain energy.

Systems and apparatus for a vehicle for improving occupant safety and covering a service hole of a door of the vehicle. The system includes a substantially flat body portion configured to cover the service hole. The system also includes a plurality of energy absorbers disposed across the body portion, each energy absorber having a top portion and one or more side walls surrounding the top portion and defining a cavity, each energy absorber having a closed end at the top portion and an open end opposite the closed end, each energy absorber configured to absorb energy and collapse when force is exerted by an object on the top portion, the object moving from the closed end toward the open end.

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.

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.

An apparatus and method for improving the safety and performance of an automobile in crash events is disclosed. The safety device includes first and second crash pad regions and a connecting member region disposed between the first and second crash pad regions. At least a portion of the connecting member region is arranged to move in one of an upward and downward direction at the initial moment of a crash to absorb crash energy. The safety device is arranged to collapse on itself upon continuation of the crash. In some embodiments, the safety device collapses in a horizontal direction upon continuation of the crash.

The disclosure relates to a crash structure for a motor vehicle, the crash structure being, in a starting state, at a minimum spacing of greater than zero from a door hinge of a vehicle door of the motor vehicle, and the crash structure being in contact with at least one contact region which is assigned to the door hinge in a crash state after a partial overlap crash by way of passing into an operative connection with a wheel of the motor vehicle, and forming a deflector surface for the deflection of the wheel.

Provided is an armrest device that can be positioned in an appropriate position suitable for the build of the vehicle occupant. The armrest device (10) comprises an interior member (1) provided on an inboard side of a vehicle door, and an armrest main body (9) 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.

A vehicle side door includes: a door main body; a mirror stay fixed to the door main body so as to be at least partially placed outwardly from the door main body, the mirror stay including a support portion placed outwardly from the door main body; and a mirror unit including a mirror holder supported by the support portion, and a mirror supported by the mirror holder, wherein: the door main body includes an outer panel constituting an outer face of the door main body, an inner panel placed inwardly from the outer panel and fixed to the outer panel, and a reinforcing member fixed to the inner panel or the outer panel; and the mirror stay is fixed to the reinforcing member.

A vehicle includes a vehicle door assembly including a door handle assembly and a door latch assembly that includes a door latch device operatively connected to the door handle assembly using a latch release lever that moves along a travel path to place the door latch device in an unlatched configuration. A latch release blocking structure is located within an interior volume of the vehicle door assembly. The latch release blocking structure includes a first leg that is mounted to a support portion. An overhang portion is connected to the first leg. The overhang portion extends over at least a portion of the travel path of the latch release lever. A second leg extends from the overhang portion toward the support portion to a free end that is spaced from the mounting structure providing a gap along the travel path of the latch release lever.

A vehicle door structure that can displace inward a region directly above a lower end of a door built-in center pillar while preventing displacement of a door lower surface to absorb lateral collision energy immediately after lateral collision is provided. In the vehicle door structure including a door built-in center pillar extending from an upper end to a lower end at a front end in a rear door of a biparting door system, a reinforcement is provided on a door lower surface below the door built-in center pillar, a part of the lower end of the door built-in center pillar is mounted to the reinforcement, and a low rigidity portion having lower rigidity than an upper part the door built-in center pillar is provided directly above the lower end of the door built-in center pillar.