A shading blind for a roof window of a motor vehicle is disclosed, having two guide rails, a roller blind element which has two lateral, flexible guide structures with which it is guided in the guide rails, and a receiving space for the roller blind element, the roller blind element being adjustable between an extended position in which it is largely located outside the receiving space, and a retracted position in which it is largely located in the receiving space, wherein the receiving space, measured in the adjustment direction of the roller blind element, has a length which is approximately half of the adjustment path between the extended and the retracted positions, the height of the receiving space, measured perpendicularly to the plane of the roller blind element located between the guide rails, is such that when the roller blind element is deflected in the receiving space by approximately 180, the guide structures are only elastically deformed and a rear edge of the roller blind element is permanently attached in the receiving space.

A motorized shade assembly is provided having a discontinuous web extending between two rollers, one of which is motorized and the other is tensioned or biased toward rotation away from the other roller. The roller motor can be mounted inside of one of the rollers, and the tensioning device, such as a torsion spring, can be mounted inside of the other roller. The web includes a shade portion and a strap portion, with a rigid draw bar at the junction of those portions. Rotation of the rollers causes the strap portion to wrap over one of the rollers as the shade portion unwraps from the other roller. The shade assembly can be positioned between an inclined or curved vehicle window and an interior shroud for the window, such as found with a cab-over window of a Class B motorhome. The draw bar and fasteners connecting the strap to the draw bar facilitate movement of the shade when in contact with the shroud. Friction reducing tape or surface treatment on the periphery of the window opening in the shroud can also facilitate movement of the shade when in contact with the shroud. Motor actuation can be hardwired to a desired location within the vehicle, or wirelessly controlled by the user, as with an RF device.

A protective device including a flexible fabric shiftable longitudinally between different functional positions, and provided on opposite side edges with respective stiffening strips guided in a manner shiftable longitudinally in vehicle-mounted guide tracks. A pull-out profile which extends transversely with respect to the longitudinal shifting direction of the fabric and is connected to an end region thereof. The pull-out profile is guided in the vehicle-mounted guide tracks by guide elements, and each stiffening strip is fastened on the end side to a respective guide element. Each stiffening strip has at least three receptacles provided one behind another in the longitudinal shifting direction, and the guide element is assigned at least three profiling portions spaced apart from one another in the longitudinal shifting direction and projecting into the receptacles in a form-fitting manner transversely with respect to the longitudinal shifting direction.

An open roof construction for a vehicle comprises a rollo assembly. The rollo assembly comprises a rollo screen and a winding shaft for the rollo screen which is rotatable around a stationary axis of rotation. The rollo screen firstly extends in a first direction, next around a reversal member and finally back in an opposite second direction and ends at a rollo screen edge which is attached to a stationary member. The rollo screen has two longitudinal edges which, when the rollo screen is wound off, are brought into engagement with holding members. The longitudinal edges of the rollo screen each comprise a hooking member insertable into a holding groove and hook behind a narrow entrance thereof. A reversal member is provided with a device acting on at least one of the hooking member and holding groove to enable the hooking member to enter and exit the holding groove.

A roller blind for shading a transparent vehicle section having a roller blind web which can be wound up to form a roller blind reel and which is guided in a guide rail at each of its lateral edges on either side of a longitudinal center plane of the roller blind, and two driving means, each of which is guided in a guide track of one of the guide rails. Each driving means is formed by a toothed belt which has a substantially rectangular cross-section and a toothing on at least one side whose teeth run at least approximately parallel to the plane of the unwound roller blind web in the transverse direction of the respective guide rail, the roller blind web being pressed between the toothed belt underside having the toothing and a bottom of the guide track and being deflected in the guide track by the toothed belt.

A roller blind arrangement for a motor vehicle for shading a transparent vehicle section having a roller blind web which can be wound up to form a roller blind winding and is guided at its lateral edges in relation to a vertical longitudinal center plane of the roller blind in each case in a guide rail, as well as a drive device having a drive pinion which drives two driving means each of which is guided in a guide track of one of the guide rails. The driving means are each designed as a toothed belt which has an essentially rectangular cross section and comprises a toothing on at least one side, the teeth of said toothing extending at least approximately perpendicular to the plane of the unwound roller blind web between a lower side of the toothed belt and an upper side of the toothed belt.

A roller blind for shading a transparent vehicle section having a roller blind web which can be wound up to form a roller blind reel and which is guided in a guide rail at each of its lateral edges on either side of a longitudinal center plane of the roller blind, and two driving means, each of which is guided in a guide track of one of the guide rails. Each driving means is formed by a toothed belt which has a substantially rectangular cross-section and a toothing on at least one side whose teeth run at least approximately parallel to the plane of the unwound roller blind web in the transverse direction of the respective guide rail, the roller blind web being pressed between the toothed belt underside having the toothing and a bottom of the guide track and being deflected in the guide track by the toothed belt.

A rotating shaft movement structure for a door curtain is provided. The rotating shaft movement structure includes a shaft that is mounted to a door trim panel at a position adjacent to a window glass of a vehicle and the door curtain is wound around the shaft. A stationary cover is disposed at an end of the shaft and includes a slit into which the end of the shaft is inserted. The shaft is vertically movable as the end of the shaft slides in the slit, whereby variation in assembly between the left and right sides of the door curtain may be compensated.

A roller blind arrangement for a motor vehicle for shading a transparent vehicle section having a roller blind web which can be wound up to form a roller blind winding and is guided at its lateral edges in relation to a vertical longitudinal center plane of the roller blind in each case in a guide rail, as well as a drive device having a drive pinion which drives two driving means each of which is guided in a guide track of one of the guide rails. The driving means are each designed as a toothed belt which has an essentially rectangular cross section and comprises a toothing on at least one side, the teeth of said toothing extending at least approximately perpendicular to the plane of the unwound roller blind web between a lower side of the toothed belt and an upper side of the toothed belt.

A screen system for use in a window of a vehicle. The screen system comprises a screen, a spool mounted to a leading edge of the screen, a housing configured to be mounted at a first edge of the window, and one or more bands that are operatively connected to the screen and configured to apply a biasing force to the screen. The screen is movable between a retracted position and an extended position. The retracted position comprises the screen rolled onto the spool with the screen and the spool positioned in the housing at the first edge of the window. The extended position comprises the screen extending across the window with the leading edge positioned at a second edge of the window and the first edge positioned at the first edge of the window and with the one or more bands extending across the window and applying the biasing force to the screen.