A shading device for a vehicle roof includes at least one shading length that can be rolled up for shading a light-permeable and/or open area of the vehicle roof, a tension bow that is movably mounted in a direction of travel (V), to which the shading length-is fastened, a drive mechanism that can be operated by a drive motor to move the tension and a control unit for activating the drive motor. The shading device includes at least one opposing force element for restricting a traveling movement of the tension bow, and the control unit is designed to activate the drive motor based on an opposing force when the tension bow reaches an end position (P1, P2) defined by the stop element.

A wind deflector for a sliding roof system has a pivotable upper bracket in the raised state of the wind deflector, a pivotable lower bracket in the raised state of the wind deflector, a first elastic raising element, and a flow deflecting part which is fastened to central webs of the brackets and bridges the space between the central webs in the raised state of the wind deflector. The flow deflecting part extends obliquely upwards and opposite to the direction of travel between the central webs. The first elastic raising element is associated with the upper bracket and is configured to urge the upper bracket into the pivoted-up position. A sliding roof system is furthermore shown.

A wind deflector for a sliding roof system has a pivotable upper bracket in the raised state of the wind deflector, a pivotable lower bracket in the raised state of the wind deflector, a first elastic raising element, and a flow deflecting part which is fastened to central webs of the brackets and bridges the space between the central webs in the raised state of the wind deflector. The flow deflecting part extends obliquely upwards and opposite to the direction of travel between the central webs. The first elastic raising element is associated with the upper bracket and is configured to urge the upper bracket into the pivoted-up position. A sliding roof system is furthermore shown.

A perimeter frame for a sunshade module includes a sunshade opening, a guiderail, and a housing. The guiderail includes an end face, and a guideway, a mounting flange, and an attachment channel extending therefrom. The guideway opens inwardly to the sunshade opening, the mounting flange projects outwardly away from the sunshade opening, and the attachment channel opens downwardly from therebetween. The housing includes a guiderail adaptor. The guiderail adaptor is inserted into the attachment channel, secured to the attachment channel using a fastener installed from above the attachment channel, and engages the attachment channel from below.

A perimeter frame for a sunshade module includes a sunshade opening, a guiderail, and a housing. The guiderail includes an end face, and a guideway, a mounting flange, and an attachment channel extending therefrom. The guideway opens inwardly to the sunshade opening, the mounting flange projects outwardly away from the sunshade opening, and the attachment channel opens downwardly from therebetween. The housing includes a guiderail adaptor. The guiderail adaptor is inserted into the attachment channel, secured to the attachment channel using a fastener installed from above the attachment channel, and engages the attachment channel from below.

A drive system including a guide rail assembly fixed to a roof module and including a control mechanism movable in the guide rail assembly and operatively connected to the roof part in order to move the moveable roof part between a closed position, a ventilation position, and an open position. The control mechanism has a drive slide connected to a drive transmission section. A tilting claw is provided on the drive slide, and a wall section of the guide rail assembly is provided with at least one latching profiled section positioned in the region of the guide rail assembly and facing the drive slide. The drive slide is positioned in the guide rail assembly region in the open position of the moveable roof part, and interacts with the tilting claw in a form-fitting manner when the drive slide is tilted.

A drive system including a guide rail assembly fixed to a roof module and including a control mechanism movable in the guide rail assembly and operatively connected to the roof part in order to move the moveable roof part between a closed position, a ventilation position, and an open position. The control mechanism has a drive slide connected to a drive transmission section. A tilting claw is provided on the drive slide, and a wall section of the guide rail assembly is provided with at least one latching profiled section positioned in the region of the guide rail assembly and facing the drive slide. The drive slide is positioned in the guide rail assembly region in the open position of the moveable roof part, and interacts with the tilting claw in a form-fitting manner when the drive slide is tilted.

A sunroof device is disclosed. A sunroof device includes a movable panel on a roof of a vehicle; a guide rail including one or more holes; a deflector holder including a first restriction portion, a second restriction portion, and a rotation center, wherein a first tip of the first restriction portion connecting to a first hole of the one or more holes; a second tip of the second restriction portion including a first claw, the first claw connecting to a second hole of the one or more holes; a third tip of the second restriction portion including a second claw, the second claw connecting to a third hole of the one or more holes, the second hole and the third hole including a front portion, a middle portion, and a rear portion, wherein a first width of the middle portion is smaller than a second width of the rear portion; the first width is smaller than a third width of the front portion; and an inner surface between the front portion and the middle portion includes an inclination.

A sunroof device is disclosed. A sunroof device includes a movable panel on a roof of a vehicle; a guide rail including one or more holes; a deflector holder including a first restriction portion, a second restriction portion, and a rotation center, wherein a first tip of the first restriction portion connecting to a first hole of the one or more holes; a second tip of the second restriction portion including a first claw, the first claw connecting to a second hole of the one or more holes; a third tip of the second restriction portion including a second claw, the second claw connecting to a third hole of the one or more holes, the second hole and the third hole including a front portion, a middle portion, and a rear portion, wherein a first width of the middle portion is smaller than a second width of the rear portion; the first width is smaller than a third width of the front portion; and an inner surface between the front portion and the middle portion includes an inclination.

A drive circuit for driving an electro-optical device like an optically switchable glazing, e.g. a glass panel provided with a PDLC or SPD layer, comprises a set of input terminals for receiving an alternating input voltage at a first frequency; a set of output terminals for supplying an alternating output voltage at a second frequency; a control circuit generating a control signal dependent on an input signal, the input signal representing a charge state of the electro-optical device; and a current-direction circuit for controlling a current-flow direction of an electrical current in response to the control signal. The control circuit and the current-direction circuit are thereby configured to control the second frequency such that the electro-optical device is prevented from degradation, while keeping an energy consumption low.