A method and an assembly for pivoting a movable component having a drive device with an electric drive motor in order to influence a pivoting of the component between a first setting and a second setting. A position sensor detects a position measure for a setting of the component and a speed parameter for a displacement speed of the component. During a displacement of the component with the speed parameter, an electrical setpoint current intensity for the electric drive motor is ascertained, and an associated setpoint voltage is set. The setpoint voltage is increased if a current intensity flowing through the drive motor is lower than the electrical setpoint current intensity, and the setpoint voltage is reduced if the current intensity flowing through the drive motor is higher than the electrical setpoint current intensity.

The presently disclosed subject matter concerns an accommodating door configured to be connected to a vehicle body, and a support cradle. The accommodating door has an inside face which defines an accommodation space configured for accommodating the support cradle. The support cradle in turn is configured to support a mobility aid device within a support compartment thereof.

A multi-axis hinge mechanism for a vehicle door. The multi-axis hinge mechanism moves the vehicle door laterally and vertically by means of multiple axial rotations. An actuator pivots the door hinges attaching the door to the vehicle to move the door away from the vehicle while a set of gears translates the motion of the actuator into a vertical rotation of the door.

In at least some implementations, a vehicle door includes a first section having a first void, a second section having a first projection, a first intermediate member received within the first void and having an inner surface that defines an interior, wherein the first projection is received within the interior, and a first coupler coupled to the first projection. The interior of the first intermediate member has at least a portion that is larger than the portion of the first projection received within that portion of the interior to permit movement of the first projection relative to the intermediate member. The first coupler is coupled to the intermediate member to maintain the position of the first projection relative to the first section. In this way, the position of the second section may be adjusted relative to the first section and the adjusted position can be maintained.

There are provided a hinge pillar having a closed-cross section extending in a vehicle vertical direction, a side door body comprising a door outer and a door inner, a door trim provided to cover the door inner from a cabin inside, and a stay damper arranged between the door inner and the door trim such that the stay damper extends rearwardly from a front end thereof which is attached to the hinge pillar and to a rear end thereof which is attached to the door inner.

The invention relates to an accommodating door configured to be connected to a vehicle body, and a support cradle. The accommodating door has an inside face which defines an accommodation space configured for accommodating the support cradle. The support cradle in turn is configured to support a mobility aid device within a support compartment thereof.

A power door device includes: a motor actuator to open/close a vehicle door; a controller to control driving of the motor actuator and include an abnormal state dealing unit; an information unit to acquire information about a vertical vehicle acceleration, and a motor load for the motor actuator; and a diagnostic unit to generate an abnormal signal when the motor load exceeds a predetermined load threshold and when the vertical acceleration does not exceed an predetermined acceleration threshold. When the motor load exceeds the load threshold and the vertical vehicle acceleration does not exceed a predetermined acceleration threshold, the diagnostic unit diagnoses an abnormality generates the abnormal signal. The abnormal state dealing unit performs the abnormal dealing control including stop movement during the door opening/closing in response to the abnormal signal.

A door assembly includes a door that turns between a fully-closed position and a fully-open position to open or close a door opening, and hinges that support a front edge portion of the door and are provided such that the trajectory of the center of gravity of the door when the door turns from the fully-closed position to the fully-open position is curved upwardly in an up-down direction and the highest point of the trajectory is positioned between both ends of the trajectory.

An embodiment is a vehicle door opening and closing apparatus. The vehicle door opening and closing apparatus including a vehicle door, a rail mounted on a vehicle body, a roller unit mounted on the vehicle door, the roller unit configured to move along the rail and allow the vehicle door to open and close in a mode selected from a swing mode and a sliding mode, and a hold lock mounted on the vehicle body, the hold lock including a passing rod configured to releasably hold the roller unit in a predetermined position.

A door component for pivoting a movable door of a motor vehicle has a drive with an electric drive motor in order to influence a pivoting of the door between a closed setting and an open setting. A position measure for an angular setting of the door leaf and a speed parameter for an angular speed of the door leaf are detected by a position sensor. During a pivoting of the door leaf with the speed parameter, an electrical setpoint current intensity for the electric drive motor is ascertained, and an associated setpoint voltage is set. Then the current intensity flowing through the drive motor is ascertained. The setpoint voltage is increased if the current intensity is lower than the electrical setpoint current intensity, and the setpoint voltage is decreased if the current intensity is higher than the electrical setpoint current intensity.