In a sunroof device, each support member and each driving shoe include a pressing portion and an elastic body, respectively, that, when the driving shoe moves from a first position toward a second position, come close to each other and, when the driving shoe is positioned between the second position and a third position, come into contact with each other. When the driving shoe is positioned between the second position and the third position, the pressing portion presses the elastic body in a direction perpendicular to a width direction. A length in the width direction of the elastic body is longer than the pressing portion.

A top of a convertible vehicle having a top linkage which can be displaced between a closed position, in which the top covers a vehicle interior, and a storage position, in which the vehicle interior is uncovered, and which has a linkage arrangement on either side of a vertical longitudinal center plane of the top, each linkage arrangement having a link and a cable guide disposed on the link and serving to guide a tensioning cable. The cable guide may have two shells defining a passage opening and being in contact with the link from opposite sides.

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 assembly is configured for covering or at least partly uncovering an opening in a vehicle roof. The open-roof assembly comprises a frame defining the opening, a moveably arranged closure member and a pressure-sensitive sensor device. The open-roof assembly comprises a closed state, in which the closure member covers the opening in the vehicle roof, and an open state, in which the closure member uncovers the roof opening at least partly. The pressure-sensitive sensor device is arranged between the closure member and the frame for detecting presence of an object between the closure member and the frame, at least when the closure member is moving from the open state towards the closed state. The pressure-sensitive sensor device extends over a device length and is configured to detect a location of a local pressure, which local pressure is exerted locally on the pressure-sensitive sensor device, along the device length.

A method for positioning a movably arranged panel comprises the steps of determining a panel braking distance based on a physical property of the moveable panel and a physical property of at least one of a drive assembly and a drive motor. The panel braking distance corresponds to a distance covered by the moveable panel in a period of time starting from a decision to switch off the drive motor until stand-still of the moveable panel. The drive motor is switched off when an expected stop position is within a predetermined range around a desired stop position.

A vehicle apparatus configured to selectively position and enclose an opening formed in at least one panel of a vehicle includes a sliding panel and a positioning mechanism. The sliding panel includes an electrical device in communication with a control circuit of the vehicle and the positioning mechanism is configured to slidably position the sliding panel along a positioning track between an open position and a closed position. A control connection is configured to transmit control signals between the control circuit of the vehicle and the electrical device. The control connection extends from a portion of the vehicle to a connection interface of the electrical device, and the connection apparatus is configured to communicate a control signal to adjust an operating state of the electrical device in both the open position and the closed position.

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 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 tonneau cover configured to cover a cargo box of a vehicle, comprising: (a) opposing side rails configured to attach to opposing sides of the cargo box; (b) a slat extending between and supported by the opposing siderails, wherein the slat is configured to move along the siderails; and (c) a drive system that drives the slat and moves the slat along the side rails from a closed position where the slat covers an interior of the cargo box, to an open position where the interior of the cargo box is exposed, wherein the drive system is controlled wirelessly by a remote device, by a sensor located along the cargo box, or both.

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.