A supplemental load transfer system for a vehicle includes a vehicle kick-up cross-member and a door trim panel configured to attach to a vehicle door member. The door trim panel includes a pusher disposed to transfer an impact load to the kick-up cross-member. The pusher may be configured as a matrix formed by a plurality of columns and substantially orthogonal connecting ribs to define a plurality of receivers. One or more of the receivers may be at least partially filled with a load-transferring substrate. The one or more receivers may be disposed at a bottom portion of the pusher. One or more columns of the plurality of columns may be oriented whereby an impact-receiving end and an impact-transmitting end of the pusher define different surface areas.

A main body for a motor vehicle door which is produced by injection molding and has a frame, which has an upper reinforcing element, which has flanges that protrude from the upper reinforcing element. It is proposed for the upper reinforcing element to be integrally formed in one piece on the frame via at least two articulation elements in a manufacturing position in which said upper reinforcing element protrudes from the frame.

An outer body part assembly for a vehicle, including an outer skin and a support member fixed to the outer skin. The outer skin is attached on a structural module of the vehicle via the support member, the support member includes a main body and a flange edge arranged around the main body and connected with the outer skin, the main body is in the form of mesh structure and includes a contact portion for supporting the outer skin and a reinforcement rib projecting from the contact portion for reinforcing the contact portion. The assembly prevents the outer skin from sinking, benefiting from the lightweight of the main body of the mesh structure, and the main body meets the supporting strength requirements by enhancing the strength of the mesh structure with the reinforcement ribs. In addition, the mesh structure also provides an effective energy absorption in case of a crash.

A frame structure for a vehicle door and a method of manufacture thereof is disclosed. In particular, a vehicle side door includes at least two tubular parts which are flexurally deformed in the direction of their longitudinal extension and connected to each other to form a ring structure. The ring structure incorporated into a structural unit with the frame structure and a crash reinforcement in a vehicle door of a motor vehicle.

The invention relates to a vehicle door, in particular a sliding vehicle door, comprising an inner plastic moulded part, in particular reinforced, and oriented towards the vehicle interior and an outer plastic moulded part, in particular reinforced, oriented away from the vehicle interior. The inner plastic moulded part and the outer plastic moulded part are interconnected for forming the vehicle door.

A vehicle side portion structure includes a vehicle body side portion in which a door opening portion allowing an occupant to enter or leave a vehicle is formed, the vehicle body side portion being configured to include a center pillar dividing the door opening portion into front and rear portions, a slide door disposed such that the door opening portion is openable and closable, the slide door in a closed state being disposed across the center pillar in a front-rear direction of the vehicle, and an elongated reinforcing member disposed inside the slide door with a longitudinal direction of the reinforcing member directed in the front-rear direction of the vehicle and intersecting with the center pillar in side view of the vehicle in the state where the slide door is closed.

A utility vehicle includes a plurality of ground engaging members and a frame supported by the plurality of ground engaging members. The frame assembly extends generally along a longitudinal axis of the utility vehicle. The utility vehicle further includes a front seating section coupled to the frame. The front seating section is configured to support an operator and a first passenger. Additionally, the utility vehicle includes a rear seating section coupled to the frame. The rear seating section is configured to support a second passenger and a third passenger. The rear seating section has an angled panel configured as a dead pedal for the second and third passengers, and a portion of the rear seating section extends forwardly into the front seating section.

A vehicle door structure includes a reinforcing member that is extended along a side sill on an inner door panel side of a lower portion of an outer door panel. The reinforcing member has a first side surface that faces the side sill in the vehicle width direction, and a second side surface that extends from the first side surface to the outer door panel, and the first side surface and the second side surface are joined to the inner door panel.

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.

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.