A vehicle roof system and a method of controlling the vehicle roof system are provided. The vehicle roof system includes an opening-closing module that is provided on a roof of a vehicle and a loading module that is provided on the top of the opening-closing module. A locking mechanism is also provided within the loading module. The opening-closing module is slid in one direction or in the opposite direction to open or close the roof. The loading module has a loading space that is separated from an indoor space in the vehicle, with the opening-closing module disposed in between. The locking mechanism supports a weight of a load when in operation for locking and no longer supports the weight of the load when in operation for unlocking.

A vehicle roof system and a method of controlling the vehicle roof system are provided. The vehicle roof system includes an opening-closing module that is provided on a roof of a vehicle and a loading module that is provided on the top of the opening-closing module. A locking mechanism is also provided within the loading module. The opening-closing module is slid in one direction or in the opposite direction to open or close the roof. The loading module has a loading space that is separated from an indoor space in the vehicle, with the opening-closing module disposed in between. The locking mechanism supports a weight of a load when in operation for locking and no longer supports the weight of the load when in operation for unlocking.

A vehicle having a roof opening system having a lid element displaceable between a closed and opened position, displacement kinematics for displacing the lid element which are disposed on either side of a vertical longitudinal roof plane, each of the displacement kinematics having a guide rail, a front kinematic unit guided in the guide rail and a rear kinematic unit disposed in the guide rail, and a set of drive cables for the two kinematic units. The guide rail may have a first cable duct section for a first drive cable of the set of drive cables, the first drive cable being driven by a first drive motor and driving the front kinematic unit, and a second cable duct section for a second drive cable of the set of drive cables, the second drive cable being driven by a second drive motor and driving the rear kinematic unit.

An open roof construction for a vehicle comprises a panel for opening and closing an opening in the fixed roof of the vehicle by means of at least one lever assembly connected to the panel. A stationary frame is fitted in the opening of the fixed roof. A drive motor is placed in the vicinity of the rear edge of the opening and in the vicinity of a longitudinal center line of the opening. The drive motor comprises an output shaft having a center axis which is perpendicular to a center axis of a rotor shaft of the drive motor. The drive motor is connected to a motor support which is attached to the frame by means of vibration dampers. The motor support supports a separate gearbox which is capable of transferring the driving torque from the drive motor to the at least one lever assembly connected to the panel.

An open roof construction for a vehicle comprises a panel for opening and closing an opening in the fixed roof of the vehicle by means of at least one lever assembly connected to the panel. A stationary frame is fitted in the opening of the fixed roof. A drive motor is placed in the vicinity of the rear edge of the opening and in the vicinity of a longitudinal center line of the opening. The drive motor comprises an output shaft having a center axis which is perpendicular to a center axis of a rotor shaft of the drive motor. The drive motor is connected to a motor support which is attached to the frame by means of vibration dampers. The motor support supports a separate gearbox which is capable of transferring the driving torque from the drive motor to the at least one lever assembly connected to the panel.

A repeater may comprise: a first member; and at least one pattern formed on the first member and configured to provide at least one of an electric field and a magnetic field, which is incident from a wireless power transmitter onto a first surface of the first member, through a second surface of the first member, opposite to the first surface.

A repeater may comprise: a first member; and at least one pattern formed on the first member and configured to provide at least one of an electric field and a magnetic field, which is incident from a wireless power transmitter onto a first surface of the first member, through a second surface of the first member, opposite to the first surface.

An open roof construction for a vehicle comprises at least a movable lever to which, by means of a pin-like member, a slide shoe is connected that, for defining a movement of the movable lever, cooperates with and moves longitudinally along a guide. The pin-like member at a first end is connected to said lever and at a second end is connected to said slide shoe and the guide and slide shoe are provided with at least one pair of cooperating guide part and slide shoe part. The pin-like member at its second end is provided with an enlarged head configured to engage the slide shoe at a side thereof facing away from the lever. The dimensions of the enlarged head are such that, as seen in a direction from the enlarged head towards the lever, at least part of said enlarged head overlaps at least one guide part.

An assembly for moving a vehicle roof cover may have a mechanical component coupled to the cover; a carriage guided in a guide rail; and a deployment element which is extended in an elongate manner along a longitudinal axis. The mechanical component may be coupled to the deployment element at a first end of said deployment element, to transmit a movement of the carriage along a longitudinal direction in sections to the mechanical component. A locking pin may be arranged at a second end of the deployment element; the locking pin can be rotated about the longitudinal axis of the deployment element, movable between a first state and a second state, wherein the deployment element is locked in the first state preventing movement along the longitudinal direction relative to the carriage, and is locked in the second state preventing movement along the longitudinal direction relative to the guide rail.

A control unit for operating a moveably arranged closure member of an open roof assembly comprises at least one computing resource for executing a computing process. The control unit is configured to interrupt a running first computing process and to execute a second computing process for controlling at least a part of a closing movement of the closure member. The first computing process may be restarted when the closing movement is stopped.