A motor vehicle having a crash energy-absorption device includes a body, an electric hybrid drive or electric drive with an electrical machine and a vehicle battery, and an axle support. A support of the axle support is provided between the body-in-white of the motor vehicle and the axle support and/or a crash cross-beam for the axle support is provided.

A shading device for a vehicle, having a roller blind web and a winding shaft for winding unwinding the roller blind web in an extension direction. The guide rails are arranged opposite one another and each have a guide channel extending in the extension direction, wherein the roller blind web is guided in a displaceable manner in the extension direction on opposite sides in the guide channels of the guide rail while being wound and unwound and extends between the guide rails such that the roller blind web is guided out of each guide channel along a deflection region in the direction of the respectively other guide channel, wherein the roller blind web bears on the associated guide rail in the respective deflection region, wherein in that each guide rail is configured in the deflection region such that at least partial linear contact is formed by the roller blind web.

An arrangement for a vehicle roof has a roof element designed to be coupled to the vehicle roof and to provide a predetermined functionality. The arrangement further has a thread-free film element which is formed by calendering and is coupled to the roof element such that the predetermined functionality is obtained.

A first body cross-member is disposed on body mounts and fixed to the body mounts through outer brackets and mount bolts that are fastening members. A battery and a cooling blower that is a battery accessory provided on an outer side of the battery in a vehicle width direction are installed on a vehicle body, between a pair of rockers. The rockers have a closed cross-sectional structure, and a brace that is a reinforcing member is housed in a battery flanking portion of each rocker that is a portion corresponding to the cooling blower in position in a vehicle front-rear direction.

The invention relates to an arrangement for operating an electric motor, for example an electric motor for actuating a roof component, in a vehicle. Therein, the electric motor is electrically connected via at least two control lines with a motor control unit. The motor control unit is configured to control the electric motor by means of pulse width modulation. The motor control unit is configured to operate a first one of the two drive lines as an inactive line, and to operate a second one of the two drive lines as an active line during control of the electric motor. A switching module associated with the electric motor is configured to connect a terminal of the pole housing of the electric motor with the drive line which is operated as the inactive line during operation of the electric motor. The invention further relates to an electric motor as well as to a method of operating an electric motor, for example an electric motor for actuating a roof component, in a vehicle.

A roof assembly for a vehicle includes a roof with a light admitting portion and a sunshade assembly fixed to the roof. The sunshade assembly includes a guide device fixed to the roof, a deployable shade device having a sliding support coupled to the guide device, and a sun visor. The sun visor includes an end carried by the sliding support and extensible between a retracted and a deployed configuration, restraining elements to keep the sun visor in the deployed configuration, and a locking seat adjoined to an end of the guide device to receive the sliding support when the sun visor is in the deployed configuration. The sliding support is movable within the locking seat between an incoming position and a locking position, in which the deployable shade device cooperates in contact with the restraining elements to prevent the sliding support from escaping from the locking seat.

A tandem drive device for at least one adjustable vehicle part, in particular for a sliding roof system, preferably comprising at least two sliding roof elements such as, for example, a glass roof and a roller shutter, wherein the tandem drive device includes at least a first drive system having a first gear mechanism and a first drive motor, and a second drive system having a second gear mechanism and a second drive motor, as well as a common control circuit for the first drive motor and the second drive motor, wherein the first gear mechanism and the second gear mechanism as well as the control circuit are accommodated in a common housing.

A device for reinforcing a structural element in a motor vehicle including a reinforcing element, which has a longitudinal axis and which can be arranged in a cavity of the structural element. The reinforcing element includes walls which extend substantially in the direction of the longitudinal axis. The reinforcing element additionally includes at least one open side, which likewise extends in the direction of the longitudinal axis. The walls directly adjoining the open side are designed in a convergent manner in that extensions of said adjoining walls running in the direction of the open side and perpendicularly to the longitudinal axis intersect.

The present invention relates to a vehicle body part including a battery system carrier integrally formed in a vehicle body to include a plurality of battery cells, a vehicle battery system integrally with the vehicle body part, and an integrated battery system vehicle including the same.

A vehicle lower portion structure includes side rails respectively disposed on right and left sides and extending along a longitudinal direction, and further includes a cab mount bracket fixed to an outer side of each of the side rails in a vehicle width direction, in which a vehicle body is secured above the cab mount bracket. The vehicle lower portion structure further includes a connector disposed on an upper side of the cab mount bracket and configured to connect the cab mount bracket to the vehicle body, in which at least one of a wire harness and a brake pipe is arranged outside of at least one of the side rails in the vehicle width direction in a region located inward of the connector in the vehicle width direction and upward of the cab mount bracket.