An automated vehicle sunscreen comprises a deployable sunscreen secured within the headliner region of an automobile vehicle's interior. The sunscreen may be deployed mechanically by means of a motor in communication with the automobile vehicle's power source. Controls for the sunscreen may be disposed upon the dashboard of the automobile vehicle.

A device and a method for controlling a shading system of vehicle windows. A camera system detects image data of the head of a driver. The image data is evaluated to determine a gaze direction of the driver either as a function of a current pose of the head or body position of the driver ascertained based on the image data or as a function of eye positions of the driver determined based on image data. The shading system is controlled when the determined current gaze direction is looking in an interior rear view mirror, in the direction of the rear window, in the direction of one of the side windows, a reverse gear of the vehicle is set/activated, and the vehicle is in operation/activated. The control involves suspending or switching off a current shading/darkening of the rear window or of the side window in the gaze direction of the driver.

An improved retractable screen and doorframe assembly for a vehicle is presented. The novel construction is provided wherein the window and the retractable screen reside in the housing of a vehicle doorframe once the retractable screen and window are deployed. A plurality of axially connected wheel sets residing within an inner frame track facilitates the frictionless movement of the retractable screen in a horizontal direction and secures movement of the same as it is recoiled in a backward disposition onto the screen storage reel of a screen cartridge. Forward movement is further facilitated with a positive magnetic border that quickly advances with positive magnetic force towards the doorframe assembly having a negative magnetic rod being provided therein.

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 pneumatic shade includes a plurality of slats, a plurality of first fold members, and a plurality of second fold members. Each slat is elongated and includes and spans laterally between opposite longitudinal edges. Each of the first- and second-fold members are elongated and co-extend longitudinally with the slats. Each first fold member is attached to longitudinal edges of the respective adjacent slats. Each second fold member is attached to longitudinal edges of respective adjacent slats and are alternatingly orientated with respect to the first fold members such that each slat spans laterally between a respective first fold member and second fold member. Each of the first fold members and the second fold members are adapted to move between a folded state and an unfolded state upon application of pressurized air.

A shade arrangement for vehicles, in particular for a side window of a car door, the shade arrangement including a roll up blind web that is movable from a pulled in position into a shading pulled out position; a winding shaft at which the roll up blind web is attached with a first edge; a pull out profile at which the roll up blind web is attached with a second edge; a first drive which actuates the winding shaft for rolling up the roll up blind web; a lifting rod which is removably attachable at the pull out profile; a second drive through which the lifting rod arranged at the pull out profile moves the roll up blind web in a linear motion between the pulled in position and the pulled out position.

A shade arrangement for vehicles, in particular for a side window of a car door, the shade arrangement including a roll up blind web that is movable from a pulled in position into a shading pulled out position; a winding shaft at which the roll up blind web is attached with a first edge; a pull out profile at which the roll up blind web is attached with a second edge; a first drive which actuates the winding shaft for rolling up the roll up blind web; a lifting rod which is removably attachable at the pull out profile; a second drive through which the lifting rod arranged at the pull out profile moves the roll up blind web by a linear movement between the pulled in position and the pulled out position.

An automated sunshade assembly includes a cylinder positioned within a dashboard of a vehicle has the cylinder extending along a windshield of the vehicle. The cylinder has a slot extending into an interior of the cylinder and the slot being directed toward the windshield. A rod being rotatably disposed within the cylinder and a pair of drive units each of the drive units engages the rod for rotating the rod in a first direction or a second direction. A shield is rolled around the rod and the shield extends outwardly through the slot in the cylinder such that the shield is directed toward the windshield. The shield being driven upwardly to cover the windshield and the shield is retracted into the cylinder for storage. Furthermore, the shield is comprised of an opaque material to inhibit sunlight from passing into the vehicle from the windshield when the shield covers the windshield.

A drive device for a shade for vehicles, the drive device comprising a slider that is movable between a first position and a second position; a rope at which the slider is attached and configured to move the slider between the first position and the second position; a rod mounted at the slider and supported by the slider along a movement path of the rod; a deflection device that deflects the rope coming out of the slider in a first direction into a second opposite direction and that is arranged laterally from the movement path of the rod; a housing in which the deflection device is arranged; a support or guide tube in which the slider is movable and which is arranged at the housing; and a return device which displaces the rope that is deflected into the opposite direction in a direction towards the movement path of the rod.