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.

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 device for a vehicle roof may have a guide element with a slideway, a bolt which can be displaced relative to the guide element and can be guided thereby on the slideway. The bolt and the guide element have a common contact area which may be formed by a protrusion on the bolt and the slideway, the protrusion being configured to introduce a corresponding notch into the slideway during the displacement along the slideway.

A device for a vehicle roof may have a guide element with a slideway, a bolt which can be displaced relative to the guide element and can be guided thereby on the slideway. The bolt and the guide element have a common contact area which may be formed by a protrusion on the bolt and the slideway, the protrusion being configured to introduce a corresponding notch into the slideway during the displacement along the slideway.

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.

A mounting package includes a sunroof assembly, a roof crossbeam, and a hanger hanging the roof crossbeam underneath the sunroof assembly. The sunroof assembly includes a guiderail. The hanger includes a lower hook hooked with the roof crossbeam, and an upper hook hooked with the guiderail. The hanger is configured to flexibly accommodate multidirectional movement of the roof crossbeam relative to the guiderail. The multidirectional movement includes lifting movement of the roof crossbeam relative to the guiderail.

A mounting package includes a sunroof assembly, a roof crossbeam, and a hanger hanging the roof crossbeam underneath the sunroof assembly. The sunroof assembly includes a guiderail. The hanger includes a lower hook hooked with the roof crossbeam, and an upper hook hooked with the guiderail. The hanger is configured to flexibly accommodate multidirectional movement of the roof crossbeam relative to the guiderail. The multidirectional movement includes lifting movement of the roof crossbeam relative to the guiderail.

A mounting package includes a sunroof assembly, a roof crossbeam, and a hanger hanging the roof crossbeam underneath the sunroof assembly. The sunroof assembly includes a guiderail. The hanger includes a lower hook hooked with the roof crossbeam, and an upper hook hooked with the guiderail. The hanger is configured to flexibly accommodate multidirectional movement of the roof crossbeam relative to the guiderail. The multidirectional movement includes lifting movement of the roof crossbeam relative to the guiderail.

A support mechanism for an open-roof assembly, comprising a moveable panel, comprises at least one of a front flexible portion and a rear flexible portion. A guide assembly of the open-roof assembly comprises an elongated guide rail extending in a longitudinal direction, a front mechanism slideably arranged in the guide rail and a rear mechanism arranged in the guide rail. The front mechanism and the rear mechanism are provided with means for providing a relatively high mechanism stiffness, while the at least one of the front and rear flexible portions is provided with a relatively low bending stiffness in the width direction and with a relatively low rotational stiffness in respective main directions such that orientation deviations between the panel support assembly and the guide assembly result in larger rotational deformation in the at least one of the respective flexible portions than in the respective mechanisms.