An assembly for a sunroof can include a rail extending in a length direction of a vehicle, a bracket beneath a sunroof panel, an adapter coupled to the bracket, and a drive mechanism connected to a part of the bracket. Movement of the drive mechanism along the rail moves the bracket between a first position in which the sunroof is closed and a second position in which the sunroof is open. A catch device can slide along the rail relative to the adapter and includes a channel extending through a structure of the catch device to receive the adapter when the bracket is in the first position. When the adapter is in the channel, the structure is configured to engage the adapter to maintain the bracket in the first position and resist deflection of the bracket.

An assembly for a sunroof can include a rail extending in a length direction of a vehicle, a bracket beneath a sunroof panel, an adapter coupled to the bracket, and a drive mechanism connected to a part of the bracket. Movement of the drive mechanism along the rail moves the bracket between a first position in which the sunroof is closed and a second position in which the sunroof is open. A catch device can slide along the rail relative to the adapter and includes a channel extending through a structure of the catch device to receive the adapter when the bracket is in the first position. When the adapter is in the channel, the structure is configured to engage the adapter to maintain the bracket in the first position and resist deflection of the bracket.

A vehicle includes a roof, an opening in the roof, and a window that is located forward from the opening, wherein the window has an upper end and the window is free from non-translucent structures near the upper end. A movable panel is connected to the roof for movement forward and rearward relative to the roof between a closed position and an open position. A seal is connected to the movable panel. The seal engages the window when the movable panel is in the closed position and the seal is disengaged from the window when the movable panel is in the open position.

A sliding roof system for a motor vehicle comprises a front lifting mechanism and a rear lifting mechanism which are assigned to a front and a rear edge respectively of a cover of the sliding roof system, as well as a connecting element which is arranged between the front and the rear lifting mechanisms. The connecting element is formed as a connecting plate which is displaceable transverse to its direction of extension and in its plane of extension between an actuation position and a catch position.

An assembly for a vehicle roof cover, wherein the cover can be moved from a closed position for closing a roof opening into an open position for at least partially releasing the roof opening. The assembly may have: a cover carrier for carrying the cover, a positionally fixed guide rail, and a carriage mounted so as to be displaceable in the guide rail along an opening direction. The cover carrier has a positionally fixed slotted guide to which the carriage may be coupled in the closed position, such that a deployment of the cover along a vertical direction (Z direction) is blocked in the closed position. The cover carrier has a locking apparatus configured so that a movement of the cover carrier along the vertical direction (Z direction) is limited in the closed position.

A closing device for opening and closing an opening in a vehicle is disclosed. The closing device comprises a closing system, having a closing body (SK) that is fitted on the vehicle (FZ) in a movable manner and is configured to open and close the opening (O), a drive device (AV) that is operatively connected to the closing body (SK) and is configured to move the closing body (SK), and a transmission system (US) that is arranged between the closing body (SK) and the drive device (AV) and is configured to transmit a drive force generated by the drive device (AV) to the closing body (SK). The closing system (SLS) has a closing system spring rate (FRSLS) that characterizes an overall elasticity of the closing body (SLS), of the drive device (AV) and of the transmission system (US). The closing device (SV) also comprises a force transmission spring unit (KUFE) that is configured to pick up the drive force transmitted from the drive device (AV) to the closing body (SK). The force transmission spring unit (KUFE) has a force transmission spring rate (FRKUFE) that is lower than the closing system spring rate (FRSLS).

A sliding roof system for a motor vehicle comprises a front lifting mechanism and a rear lifting mechanism which are assigned to a front and a rear edge respectively of a cover of the sliding roof system, wherein the front lifting mechanism has a guide rail with a lifting slotted guide for a cover-side lifting slider as well as a controlling carriage which is displaceable along the guide rail in order to control the movement of the cover. The controlling carriage has a controlling slotted guide for a cover-side controlling slider, and the controlling slotted guide is provided in a slotted guide component which is pivotably attached to the controlling carriage.

An open roof assembly for use in a vehicle roof of a vehicle comprises a moveably arranged closure member for selectively covering or at least partially exposing an opening in the vehicle roof. Further, an electric motor operatively coupled to the closure member is provided for moving the closure member. A control unit is operatively coupled to the electric motor for controlling the closure member. The control unit is configured to control a position of the closure member during normal driving conditions, and to release control of the position of the closure member, when a vehicle acceleration exceeds a predetermined acceleration threshold. Thus, upon a high force on the closure member, induced by the high acceleration and weight of the closure member, damage may be prevented by absorbing the high forces in a motion of the closure member and a resistance of the electric motor.

An open roof construction for a vehicle having a roof opening in a roof part, comprising a panel, and a first device for moving the rear side of the panel towards a raised position relative to the closed position and above an adjoining roof part. The control slide and the lifting member are guided by a guide rail having grooves and extending in longitudinal direction alongside the opening and below the adjoining roof part. A support lever cooperates with the control slide and supports the panel in positions in which it is above the adjoining roof part. The support lever is guided in the guide rail and is adapted to also pass through the passage opening. The support lever takes over support of the panel from an intermediate guide connection of the lifting lever and the intermediate guide connection is then disengaged from the guide curve in the control slide.

An open roof construction for a vehicle having at least one opening in the fixed roof, includes a stationary part for attachment to the roof. It carries at least two guide rails alongside the roof opening. At least one closure having a front and a rear side is supported by an operating mechanism guided on the guide rails. The closure is adjustable between a closed position, in which it closes the roof opening, and an open position in which it is at least partly moved out of the roof opening. The operating mechanism includes at least one first support member adjustably supporting the closure near its front side, and at least adjustable second support members adjustably supporting the closure a distance behind the front side. Each support member includes two separate drive sources to be able to adjust each support member independently in horizontal and vertical direction.