A vehicle door assembly includes an inner door panel, a pillar panel and a first cushioning pad. The inner door panel has an attachment area, a first edge portion and a second edge portion, with the first edge portion defining hinge attachment locations. The pillar panel is fixedly attached to at least the second edge portion and the attachment area such that the inner door panel and the pillar panel define a hollow B-pillar structure. The pillar panel further includes an offset portion that is spaced apart from a central portion of the attachment area of the inner door panel such that the attachment area and the offset portion define a recessed area therebetween. The first cushioning pad has a main body installed within the recessed area between the offset portion of the pillar panel and the inner door panel.

A vehicle door assembly includes an inner door panel, a pillar panel and a first cushioning pad. The inner door panel has an attachment area, a first edge portion and a second edge portion, with the first edge portion defining hinge attachment locations. The pillar panel is fixedly attached to at least the second edge portion and the attachment area such that the inner door panel and the pillar panel define a hollow B-pillar structure. The pillar panel further includes an offset portion that is spaced apart from a central portion of the attachment area of the inner door panel such that the attachment area and the offset portion define a recessed area therebetween. The first cushioning pad has a main body installed within the recessed area between the offset portion of the pillar panel and the inner door panel.

A power closure latch assembly with a manually actuatable release and reset feature is provided. The release feature allows the latch assembly to be mechanically released from within a cabin of the vehicle such that a vehicle closure panel can be opened, while the reset feature allows the latch assembly to be manually and mechanically reset from within the cabin of the vehicle to allow the vehicle closure panel to be closed and latched.

A vehicle door includes a window and further includes window glass, an outer panel made of resin, and a belt molding. The outer panel is placed outwardly in the vehicle width direction from the window glass and faces the window glass in at least part of the peripheral edge of the opening. The belt molding is fixed to the inner surface of the outer panel facing the window glass and seals a gap between the window glass and the outer panel. The belt molding includes a base member and a belt molding body. The base member is bonded to the inner surface of the outer panel and has an attachment surface facing the window glass. The belt molding body is supported on the attachment surface of the base member via a plurality of fixed points provided such that the fixed points are distanced from each other.

A vehicle door structure includes an inner panel, an outer panel, a guard beam and a reinforcing member. The guard beam extends laterally in a cavity between the inner and outer panels. The reinforcing member disposed in the cavity and being positioned on a floor of the vehicle door structure below the guard beam.

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 carrier module for a motor vehicle door assembly having inner and outer panels defining a door panel structure with the inner panel having an opening for selective access to an internal door cavity between the inner and outer panels is provided. The carrier including an outer periphery configured for attachment to the inner panel to substantially close off the opening, and at least one reinforcement member fixed to the carrier, the at least one reinforcement member being formed of a material having a resistance to loading that is greater than a resistance to loading of a material of the carrier.

A vehicle having an exoskeleton exterior panel that provides crash resistance is described. The exterior panel may be formed from a monolithic metal sheet and attached to an exterior portion of the vehicle frame, and the exterior panel does not comprise an additional support structure. At least one component may be directly attached to the exterior panel, and the exterior panel may bear the load of the at least one component. Methods of manufacturing the vehicle are also described.

An automotive panel assembly according to an exemplary aspect of the present disclosure includes a first panel, a second panel, and a flange of the first panel folded over an edge region of the second panel to hem together the first and second panels. The flange of the first panel includes a textured geometry that interlocks with a textured geometry of the edge region.

Provided is a configuration that makes up for a lack of tensile rigidity and a lack of collision properties at the same time. [Solution] An automotive exterior panel according to the present invention: an exterior material 110; and a reinforcing member 120 that is in contact along an automobile inside surface of the exterior material 110 and of which a second moment of area in a direction orthogonal to the exterior material is less than or equal to 15,000 mm4 in a cross section orthogonal to a longitudinal direction of the 10 reinforcing member. By this configuration, the second moment of area in a direction orthogonal to the longitudinal direction of the reinforcing member 120 is made less than or equal to 15,000 mm4, and hence a lack of tensile rigidity can be made up for at the same time.