A door assembly, of a vehicle that includes a first pillar structure and a second pillar structure, includes a door outer panel, a door inner panel coupled to and positioned inwardly of the door outer panel, and an impact beam positioned between the door outer panel and the door inner panel. The door impact beam includes a first end and an opposite second end, the first end overlaps the first pillar structure and the second end overlaps the second pillar structure. The door assembly further includes an inner bulkhead coupled to the door inner panel and positioned between the door inner panel and the first end of the impact beam, and an outer bulkhead coupled to the door inner panel and positioned between the inner bulkhead and the first end of the impact beam, the outer bulkhead overlaps a portion of the inner bulkhead.

A noise insulating support panel is provided for a structural assembly and includes a base substrate component and at least one localized stiffening reinforcement feature. The reinforcement feature generally extends across the base substrate component in a length direction aligned with, i.e., substantially parallel to, or substantially perpendicular to, a direction of airflow exhibiting turbulent pressure onto the base substrate component. The reinforcement feature cooperates with the base substrate component to minimize energy transmission through the base substrate component. If the base substrate component is a body panel, the reinforcement feature may be a stiffening rib member; if laminated glass, the reinforcement feature is located within an interlayer disposed between glass layers. The interlayer may include a first region including polyvinyl butyral having a first stiffness, and a second region including polyvinyl butyral having a second, lower stiffness. The reinforcement feature may also be an edge stiffening treatment.

It is provided a carrier device for a motor vehicle having a base carrier which is substantially formed by an organo sheet and which extends along a main plane. The base carrier has at least one separation on which a material region is molded out from the main plane while forming at least one free space, such that said material region is spaced apart from an adjacent region of the base carrier by at least one portion, wherein the at least one free space is at least partially filled with an injection of thermoplastic material and/or with a separate insert element, such that the portion of the molded-out material region and the adjacent region are connected to one another thereby.

A door of a vehicle may include a door internal panel; a door external panel mounted outside a passenger compartment with respect to the door internal panel, detachably coupled to the door internal panel, and made of a lightweight material than the door internal panel; and a reinforcement member mounted between the door external panel and the door internal panel and fastened to the door external panel and the door internal panel to increase rigidity, reducing weight and cost of the door of the vehicle and easily replacing the door external panel.

A door module for a motor vehicle door having a module carrier which is formed substantially by organic sheet, a longitudinally extending channel which is formed integrally in the organic sheet of the module carrier, an insertion opening which extends along the direction of extent of the channel and via which a reinforcement element of the motor vehicle door is insertable into the channel, and at least one functional element which is fixed to the module carrier and which crosses the channel and thereby partially covers the longitudinally extending insertion opening thereof. In the organic sheet of the module carrier, there is formed an elastically deformable bending region which enables the channel to be bent open at least in sections, and/or enables the channel to be bent away from the functional element, in order to open up the insertion opening of the channel for the insertion of the reinforcement element.

It is provided a module carrier for a door module of a motor vehicle door, wherein at least one functional element is to be fixed to the module carrier. The module carrier is formed substantially by an organic sheet and is delimited by an encircling outer edge with at least one sealing element. On the module carrier, there is provided a multiplicity of interfaces firstly for fixing the module carrier to a door structure of a motor vehicle door and secondly for connecting the at least one functional element and/or further components of the door module to the module carrier.

A vehicle door assembly includes an outer door panel that is fixed to an outer periphery of an inner door panel such that the inner door panel and the outer door panel define a door cavity therebetween. A support bracket is attached to a forward area of the inner door panel within the door cavity. A reinforcing panel is attached to the support bracket within the door cavity. A window opening support panel is attached to the support bracket, the reinforcing panel and the inner door panel within the door cavity. A side view mirror is located along an exterior side of the outer door panel. The side view mirror includes at least one fastener that extends through the window opening support panel and the reinforcing panel thereby attaching the side view mirror thereto.

A door assembly, of a vehicle that includes a first pillar structure and a second pillar structure, includes a door outer panel, a door inner panel coupled to and positioned inwardly of the door outer panel, and an impact beam positioned between the door outer panel and the door inner panel. The door impact beam includes a first end and an opposite second end, the first end overlaps the first pillar structure and the second end overlaps the second pillar structure. The door assembly further includes an inner bulkhead coupled to the door inner panel and positioned between the door inner panel and the first end of the impact beam, and an outer bulkhead coupled to the door inner panel and positioned between the inner bulkhead and the first end of the impact beam, the outer bulkhead overlaps a portion of the inner bulkhead.

It is provided a door module for a motor vehicle door, having a module carrier which is formed substantially by organic sheet, an attachment region of the module carrier, which is surrounded by a stamped protuberance of the organic sheet, a window regulator drive, arranged in the attachment region, of a motor vehicle window regulator, and at least one flexible traction mechanism proceeding from the window regulator drive and coupled thereto, which traction mechanism extends along the module carrier. In the attachment region of the module carrier, a longitudinally extending stiffening region is formed, which is formed at least partially as a stamped protuberance of the organic sheet and which runs along the direction of extent of a section of the flexible traction mechanism.

A vehicle side door internally includes an impact beam which extends along a longitudinal axis of a door. The impact beam is attached to a door inner panel via an outer extension. An inner extension is attached inside the outer extension. A distance along thickness of the door between the inner extension and the impact beam is shorter in a close proximity section than in a longitudinally neighboring area. Because the load received by the inner extension via the close proximity section is transferred to joint portions connecting to the outer extension, the load received by the outer extension from the impact beam is dispersed.