A door curtain assembly having a sub-curtain unit is provided and includes a main fabric that is wound in a trim of a vehicle door; and a main shade bar that is installed in an upper end of the main fabric and fixed to a hook provided in the door when the main fabric is deployed. A sub-curtain part is additionally deployed after the main curtain part is deployed. The sub-curtain part includes a sub-housing having a first side hinge-coupled to the door and a second side interlocked with ascending or descending of the main shade bar. Additionally, a sub-fabric is wound in the sub-housing and a sub-shade bar is installed in an end portion of the sub-fabric in a length direction of the sub-housing.

The present invention relates to a roller blind system for a vehicle roof, comprising two roller blind assemblies, wherein he roller blind web of the first roller blind assembly is designed to be longer in the extension direction than the roller blind web of the second roller blind assembly. At least one compression-resistant drive cable is provided, a first section of which is firmly attached to a pulling hoop of the first roller blind assembly and a second section of which can be detachably engaged with a pulling hoop of the second roller blind assembly. According to the invention, a locking mechanism is provided, which has an elastically deformable clip-on connection, by means of which the second section of the drive cable can be detachably engaged with the pulling hoop of the second roller blind assembly.

The invention relates to a device (12) for ventilating the interior of a motor vehicle, preferably a rooflight device, for a motor vehicle. The device (12) has a frame (16) with a ventilation opening (44), a first rotating element (28) for rolling up and rolling down a first roller blind (30), and a second rotating element (32) for rolling up and rolling down a second roller blind (34). The first rotating element (28) and the second rotating element (32) lie at least partially overlappingly on the same side in relation to the ventilation opening (44) and in relation to a vertical axis. The device (12) can thus preferably be designed with a particularly shallow depth in order not to restrict the headroom.

A shading device includes a shading curtain and a drawing device. The shading curtain includes a first and second shading layer that have at least two types of light transmission areas with different light transmission properties. The drawing device includes a first and second drawing member. The first drawing member is connected with the first shading layer and is configured to draw the first shading layer. The second drawing member is connected with the second shading layer and is configured to draw the second shading layer. The first and second drawing members are movable relative to each other between a first relative position and a second relative position. The first and the second shading layers parallelly move relative to each other. In the first relative position, the shading curtain has a first light transmission property, and in the second relative position, the shading curtain has a second light transmission property.

The present disclosure relates to a bidirectional window screen for a vehicle, which can be independently deployed forward and backward, respectively, while moving in a longitudinal direction of a vehicle. The bidirectional window screen for the vehicle includes a guide having upper and lower ends installed on a frame and a roll screen wound around the inside of the guide to be withdrawn from the guide or stored in the guide, in which the guide is slidable in a longitudinal direction of a vehicle.

A shading system for a split side window of a vehicle, including a main shading structure held on a main winding shaft for movement between a stowed position and a shading position, and an auxiliary shading structure which is held on an auxiliary winding shaft for movement between a stowed position and a shading position. The main shading structure has a main pull-out profile on an end region and the auxiliary shading structure has an auxiliary pull-out element on an end region which are lengthwise displaceable in vehicle-fixed guiding tracks for displacement between the stowed and shading positions. The main pull-out profile and the auxiliary pull-out element are guided on one side in adjacent guiding tracks extending in parallel to each other, and the main pull-out profile is associated with a drag device entraining the auxiliary pull-out element during a longitudinal displacement from the stowed position to the shading position.

An automobile windshield shade system of multiple retractable sun visors is disclosed. The system includes a base, the base dimensioned to fit around an automobile sun visor and attaching thereto; a first sun visor tube, the first sun visor tube connected to the base by a first telescoping slide rail and containing a first retractable sun visor; a second sun visor tube, the second sun visor tube connected to the base by a second telescoping slide rail and containing a second retractable sun visor; and a third sun visor tube, the third sun visor tube connected to the base and containing a third retractable sun visor. The second sun visor tube extends along the second telescoping slide rail linearly to distance from the automobile sun visor. The first sun visor tube extends along the first telescoping slide rail linearly to a distance beyond the second sun visor tube. The third sun visor tube remains in a static relationship with the automobile sun visor. The system is deployed by two movements by a user. The first movement extends the first sun visor tube, which engages the second sun visor tube and extends it also. The second movement pulls the second retractable sun visor downward, bringing with it by its connection through rings to the first and third retractable sun visors.

A sunshade for a roof in vehicle, a vehicle, and a method for sun shading in a vehicle are provided. The sunshade includes a freely positionable sunshade element for the partial blocking of sunlight, which by sliding in a translucent opening in the roof can be positioned in such a manner that dazzling a person in the vehicle by sunlight irradiating through the opening can be prevented.

A car window screen system including a front window screen member, a rear window screen member and a side window screen member. The front window screen member including a first panel and a first plurality of magnets. The first plurality of magnets are attached to a front surface of the first panel for attaching the front window screen member to the car's front window by connecting the first plurality of magnets to a plurality of mating magnets installed along the interior perimeter surface of the car's front window. The rear window including a second panel and a second plurality of magnets. The second plurality of magnets are attached to a front surface of the second panel for attaching the rear window screen member to the car's rear window by connecting the second plurality of magnets to a plurality of mating magnets installed along the interior perimeter surface of the car's rear window. The side window screen member includes a third panel and a third plurality of magnets. The third plurality of magnets are attached to a front surface of the third panel for attaching the side window screen member to the car's side window by connecting the third plurality of magnets to a plurality of mating magnets installed along the interior perimeter surface of the car's side window.

A blinding arrangement for shielding a vehicle front windshield. The blinding arrangement includes at least one blinding system which includes a cassette, a spannable blinding body which can be moved out of and into the cassette, a horizontal upper guide rail for guiding the spannable blinding body in a horizontal direction, and a cassette locking arrangement. The horizontal upper guide rail is fixedly mounted above the vehicle front windscreen. The cassette pivots within a cassette pivot plane between a horizontal non-use position in which the cassette is arranged parallel to the horizontal upper guide rail and a lowered use position in which the cassette is arranged perpendicular to the horizontal upper guide rail. The cassette locking arrangement locks the cassette in the horizontal non-use position.