A vehicle door includes a first interlock coupled to an inner frame panel. A second interlock coupled to an inner trim panel. The first and second interlocks are separated to define a ready state. During an impact condition, the first and second interlocks selectively engage one another to define an impact state that resists deflection of the inner trim panel away from the inner frame panel.

Some embodiments are directed to a door lining assembly for use with a vehicle having a vehicle interior, a vehicle door, and weather-stripping configured to facilitate sealing of the door in a closed position. The door lining assembly can include a front portion connected to a lower section of the vehicle door. The front portion can include a flange that is connected to the weather-stripping. The door lining assembly can also include an elongated transition portion that extends in a vehicle longitudinal direction and is attached to the front portion and the lower section of the vehicle door. The transition portion can be structured to have a gradually varying depth in a lateral direction of the vehicle, such that one end of the transition portion that is connected to the front portion extends further into the vehicle interior than the opposite longitudinal end.

Some embodiments are directed to a door lining assembly for use with a vehicle that defines a vehicle exterior and a vehicle passenger compartment. The door lining assembly can include a base assembly including an outboard base that defines a substantially planar upper surface that extends obliquely relative to a transverse direction of the vehicle so as to face upwardly toward the vehicle exterior. The base assembly can also include an inboard base that defines a substantially planar upper surface that extends obliquely relative to the upper surface of the outboard base downward toward the vehicle passenger compartment. The outboard and inboard bases can be joined together to form a peak that is the vertically highest portion of the base assembly. A unitary topcoat can cover the upper surfaces of the outboard and inboard bases.

The invention relates to an inner face of a motor vehicle door, more particularly the insert, more particularly the trim strip of the inner face, wherein the inner face, the insert or the trim strip has a reinforcement arranged in or on the material, more particularly in or on the plastic of the inner face, of the insert or of the trim strip, said reinforcement consisting of a textile, a metal profile, a metal foil, a plastic profile or a plastic film.

A protective shell protects an interior door panel of a vehicle having an inner face with a protruding door pull defining a door well for receiving a user's fingers and a door sill leading to a window opening. The protective shell has a deformable sheet of hard plastic with an exposed side and a reverse side, the reverse side being profiled to fit over the inner face of the vehicle door interior panel. An outwardly directed top surface portion rests on the door sill. A protrusion on the exposed side of the deformable sheet encloses the vehicle door pull. A locking well extends downwardly from an upper ledge of the door pull and is responsive to downward pressure on the upper ledge to fit snugly into the door well to hold the protective shell securely in position on the interior door panel.

A multilayer damping material for damping a vibrating surface comprising: at least one constraining layer; at least one dissipating layer; and at least one kinetic spacer layer comprising multiple spacer elements. The kinetic spacer layer is arranged between the constraining layer and the vibrating surface, when used for damping the vibrating surface. Each spacer element has opposite ends. At least one end of each of the multiple spacer elements is embedded in, bonded to, in contact with, or in close proximity to the dissipating layer, such that energy is dissipated within the multilayer damping material, through movement of the at least one end of each of the multiple spacer elements.

A vehicle interior component with a heater/heating element is disclosed. The component may comprise an assembly with the heating element produced in a mold tool by a process comprising assembling the heating element between a cover layer and a fiber layer to provide a pre-form assembly; consolidating the pre-form assembly (e.g. including trimming/compressing and/or heating); forming the pre-form assembly in the mold tool into a compression-formed body with a shape; applying a cover to the compression-formed body to provide a compression-formed panel. The compression-formed panel may be provided with the shape and an external surface provided by the cover. The texture/feel at the external surface of the compression-formed panel for the component may obscure the presence of the heating element within the component. The component may comprise a console; floor console; tunnel console; armrest; instrument panel; door; door panel; trim component; or panel.

A wireless doorsill plate with changeable display information and power-saving mechanism includes a baseplate, a battery module, a radio frequency module, a display module and an energy-saving module. A circuit board is provided on the baseplate, the battery module is disposed on the baseplate and electrically connected to the circuit board, and the battery module is used to generate an electric power. The radio frequency module is disposed on the circuit board and used to receive an activation signal to generate a wireless signal. The display module is assembled on the circuit board and has a backlight unit connected to the battery module. The energy-saving module is disposed on the circuit board and electrically connected to the battery module. According to the wireless signal the energy-saving module reduces the electric power generated by the battery module in order to turn on the backlight unit.

A frame structure of a vehicle includes: a first member composed of a metal plate, and a second member composed of a metal plate having a thickness thinner than that of the first member, the second member integrally connected to the first member by welding. The connection portion between the first member and the second member has an inclined surface configured to obliquely connect an upper surface of the first member and an upper surface of the second member such that the upper surface of the second member is positioned to be lowered than the upper surface of the first member in a gradual manner.

A vehicle door assembly including a door panel. A support member is coupled to the door panel. The support member has an edge defining an opening in a top portion thereof. The support member defines at least one flange extending into the opening from the edge. A switch bezel is disposed at least partially within the opening. The switch bezel includes at least one retaining feature configured to slidably engage the at least one flange. A cover member coupled to a side portion of the support member.