A method for the operation of a motorized flap arrangement of a motor vehicle, wherein the flap arrangement has a flap which is pivotable with respect to a motor vehicle body, wherein the flap arrangement has a back-driveable drive arrangement for the motorized adjustment of the flap and a control arrangement for controlling the drive arrangement. It is proposed that an, in particular gravitationally induced, predetermined flap deflection is detected by means of the control arrangement from a de-energized intermediate position of the flap in a monitoring routine and, in response to the detection of the predetermined flap deflection, a holding routine is triggered in which the drive arrangement is adjusted to a flap-holding position in a holding control circuit.

An object moving mechanism includes: a supporting device that supports a back door; and a driving device that moves the back door. The driving device includes: a driving motor; an operating member that operates in a forward and backward direction by drive of the driving motor; and a driving-device-side energizing member that energizes the back door. The supporting device includes: the third connecting portion that connects to the operating member; a driven member that is driven by an operation of the operating member; a supporting-device-side energizing member that energizes the driven member; and a regulation mechanism that restrains or allows movement of the driven member. The regulation mechanism allows the driven member to be driven by operating force of the operating member by the drive of driving device, and restrains the driven member from being driven by movement of the operating member with energizing force of the supporting-device-side energizing member.

Double door system (1) comprising an understriking door leaf (2), an overstriking door leaf (3), a first door operator (11) adapted to move the understriking door leaf (2) between an open and a closed position, a second door operator (12) adapted to move the overstriking door leaf (3) between an open and a closed position, a mechanical brake arrangement (100) and an electric coordination system (90).

A door drive device for adjusting and/or locking a vehicle door relative to a vehicle body including an adjustment member, a drive element operatively coupled to the adjustment member such that the adjustment member is movable with respect to the drive element for moving the vehicle door, a sensor device for measuring a measuring quantity indicative of a movement of the vehicle door to provide a sensor signal, a brake device operatively connected to the drive element for braking a movement of the vehicle door, and a control device for controlling operation of the door drive device. The control device is configured to compute, from the sensor signal obtained from the sensor device, an acceleration value indicative of an acceleration of the vehicle door and evaluate the acceleration value to distinguish movement of the vehicle door caused by a gravity force from movement caused by a user action.

The proposed solution in particular relates to a method for adjusting an adjusting part (1) on a vehicle (F), wherein an adjustment of the adjusting part (1) is controlled by using an electronic detection device (2) which detects a potential obstacle in an adjustment path of the adjusting part (1) on the basis of at least one first measured value and generates at least one control signal (r(t)) for controlling the adjustment of the adjusting part (1). At least over a defined time period, a curve of the control signal (r(t)) and/or of the first measured value as well as a curve of at least one second measured value (a(t), i(t), v(t)) changing significantly on collision of the adjusting part (1) with an obstacle are stored so as to be read out and correlated with each other for a subsequent plausibility check.

A method for operating a flap assembly of a motor vehicle, a drive assembly for the motorized adjustment of the flap, a motor vehicle lock, and a flap sensor assembly for identifying a flap position, wherein the drive assembly has at least one drive which is restorably movement-coupled to the flap, with an electric drive motor, wherein the motor vehicle lock fixes the flap in a closed position in a main locked state, wherein the drive motor is activated by a drive control system of the drive assembly depending on the identified flap position. It is proposed that when the identified flap position reaches a predetermined braking initiation position situated before an end position in a movement procedure of the flap, the drive motor is activated in a braking routine by the drive control system in such a way that the drive assembly produces a motorized braking effect.

Embodiments of systems and methods for operating a power tailgate system involve a vehicle that includes a tailgate, a motor connected with the tailgate for interdependent movement, and a motor circuit for the motor. The embodiments include, upon the initiation of a driving event in the vehicle, identifying that the tailgate is unclosed. The embodiments further include, in response to identifying that the tailgate is unclosed, upon the initiation of the driving event, irrespective of whether the tailgate is moving or not moving, checking the tailgate against movement during the driving event, wherein checking the tailgate against movement includes operating the motor circuit to electrically brake the motor.

A method for pivoting a leaf from a closed position at an opening angle of 0° to an open position at an opening angle of greater than 0° and/or from the open position at the opening angle of greater than 0° to the closed position at the opening angle of 0° by a leaf torque, wherein the leaf toque has a manual torque, generated by a person, and a drive torque, wherein the drive torque is generated by a drive device with a drive module, a closer module and a controller module. The drive module has an electric machine having a stator and a rotor, wherein the closer module has an, in particular mechanical, energy storage, wherein the controller module has a controller device, wherein the drive torque has a machine torque generated by the electric machine and a closer torque generated by the closer module.

Provided is a single-axis hinge with a damper mechanism and a catch mechanism for allowing either one of a first member and a second member to be attached to a portion having a small attachment space. The single-axis hinge (2) includes the first member (11) attached to the main body, and the second member (12) which is attached to the door and can rotate with respect to the first member (11) around a shaft (13) facing a vertical direction. The catch mechanism (6) has a spring (8) and gives rotational force in a closing direction to the door in the vicinity of a closed position. The damper mechanism (7) has a linear damper (9) and damps rotation of the door when the door is closed. The catch mechanism (6) and the damper mechanism (7) are disposed on either one of the first member (11) and the second member (12).

An access control system for restricting access through a passageway includes a shaft rotatable about a central axis; a barrier fixed to the shaft to rotate therewith; and a brake assembly. The brake assembly includes a sun gear rotatable about the central axis, a carrier, and a ring gear, wherein one of the carrier or the ring gear is fixed against rotation and the other of the carrier or ring gear is connected to the shaft to rotate therewith. A plurality of planet gears are rotatably connected to the carrier, each planet gear being disposed between and engaging with each of the sun gear and the ring gear. The armature of an electromagnetic brake comprising an electromagnet and an armature is connected to or integral with the sun gear to rotate therewith. At least one of the electromagnet or the armature is moveable between an operative and an inoperative position.