A radiant heating and blocking shade system for a sunroof of a vehicle includes a first roller configured to be mounted adjacent to one end of a sunroof of a vehicle. A second roller is mounted adjacent to the first roller between the first roller and the sunroof. A radiant heating shade is at least partially wound around the first roller. The radiant heating shade has a deployed position and a retracted position. A blocking shade is at least partially wound around the second roller. The blocking shade has a deployed position and a retracted position. The blocking shade is arranged parallel to and spaced from the radiant heating shade between the radiant heating shade and the sunroof when the blocking shade and the radiant heating shade are in the deployed position.

A retractable truck bed closure is disclosed herein. The retractable truck bed closure comprises a pair of frames that extend across a truck bed between sidewalls of the truck bed. The closure may be moved between a stored configuration and an extended configuration along the pair of frames to open, and close, a portion of the truck bed, respectively. The frames may be attachable to the truck, or may be integrated into portions of the truck, such as the sidewalls of the truck bed or the rear of the cab of the truck.

A sunroof panel and sunshade assembly system includes a moveable sunroof panel operable to selectively move to a first closed position within a sunroof opening of a vehicle and a sunshade operable to selectively move to a second closed position within the sunroof opening. The sunshade includes a leading-edge portion and a spring force displacement member within the leading-edge portion of the sunshade, wherein the spring force displacement member is operable to deform when the sunshade contacts an obstruction while the sunshade is moving. The system further includes an electric machine providing motive force to the sunshade and a computerized sunroof panel and sunshade controller. The controller operates programming to monitor operation of the electric machine, determine a presence of the obstruction based upon the monitored operation, and command the electric machine to stop and reverse the sunshade based upon the determined presence.

A sunroof panel and sunshade assembly system includes a moveable sunroof panel operable to selectively move to a first closed position within a sunroof opening of a vehicle and a sunshade operable to selectively move to a second closed position within the sunroof opening. The sunshade includes a leading-edge portion and a spring force displacement member within the leading-edge portion of the sunshade, wherein the spring force displacement member is operable to deform when the sunshade contacts an obstruction while the sunshade is moving. The system further includes an electric machine providing motive force to the sunshade and a computerized sunroof panel and sunshade controller. The controller operates programming to monitor operation of the electric machine, determine a presence of the obstruction based upon the monitored operation, and command the electric machine to stop and reverse the sunshade based upon the determined presence.

An optical device includes a first outer substrate; a second outer substrate disposed opposite to the first outer substrate; and an active liquid crystal film or a polarizer, wherein the active liquid crystal film or the polarizer is encapsulated by an encapsulating agent between the first and second outer substrates and wherein a shrinkable film adjacent to any one of the first and second outer substrates is further included. The optical device is capable of varying transmittance. The optical device can be used for various applications such as an eyewear, for example, sunglasses or AR (augmented reality) or VR (virtual reality) eyewears, an outer wall of a building or a sunroof for a vehicle.

A radiant heating and blocking shade system for a sunroof of a vehicle includes a first roller configured to be mounted adjacent to one end of a sunroof of a vehicle. A second roller is mounted adjacent to the first roller between the first roller and the sunroof. A radiant heating shade is at least partially wound around the first roller. The radiant heating shade has a deployed position and a retracted position. A blocking shade is at least partially wound around the second roller. The blocking shade has a deployed position and a retracted position. The blocking shade is arranged parallel to and spaced from the radiant heating shade between the radiant heating shade and the sunroof when the blocking shade and the radiant heating shade are in the deployed position.

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.

One general aspect includes a deployable containment system for a vehicle roof panel, the system including: a pair of guide channels proximate to an opening through the vehicle roof panel, each guide channel of the pair having a first end and a second end; a housing mounted to the first end of the pair of guide channels. The deployable containment system also includes a shield configured to deploy from the housing and travel along the pair of guide channels so as to cover at least a portion of the opening. The deployable containment system also includes an actuator disposed proximate to the pair of guide channels, the actuator configured to deploy the shield from the housing after a deployment event.

An open roof construction for a vehicle having a roof opening in its fixed roof includes a panel for opening and closing the roof opening. An operating mechanism on each side of the passage opening supports and moves the panel. A bracket on the panel and a support on the operating mechanism each have a plurality of holes and a screw for each pair of holes to attach the bracket to the panel support. At least one pair of holes is provided with a funnel which guides a screwdriver to the respective screw. At least one pair of holes is before or behind the passage opening when the panel is closed. The frame has a mounting opening for the screwdriver is in the same transverse plane as said at least one pair of holes to fasten the screw of said at least one pair of holes.

A vehicle sunshade including a foldable screen dimensioned for mounted coverage of a vehicle roof top opening with a leading edge dimensioned for removable attachment to a front periphery of the opening and a rear portion adapted for removable mounted engagement with a corresponding rear portion of the opening and having a magnetic coupling portion extending in a width direction from opposing side edges in substantially parallel alignment to the leading edge such that magnetic coupling of the magnetic coupling strip with the leading edge detachably affixes the sunshade to cover the opening and an interposed live hinge having a front panel flexibly pivotable about a hinge line thereby providing a taut and continuous planar surface when the magnetic coupling portion is coupled and enabling the front panel to fold back over an abutted surface of the rear panel when the magnetic coupling strip is decoupled.