A window covering for natural illumination of building interiors by redirecting the incident daylight at angles that promote its deeper penetration into the interior space. The window covering comprises an optically transmissive, flexible polymeric sheet having a layered structure with a light diffusing output surface and a number of total internal reflection surfaces incorporated into its material. The total internal reflection surfaces are dimensioned such that the multi-layer sheet diffusely redirect at least a portion of light towards a direction which is generally not coincident with the incidence direction.

A curtain may include a blind shade stretched or contracted in a first direction to adjust transmittance of light, a base coupled to one end portion of the blind shade in the first direction thereof, and a transmittance adjusting device to adjust the transmittance of the light passing through the blind shade by pulling outward or releasing inward an other end portion of the blind shade in the first direction thereof, in the state that spacing from the base in the first direction is fixed.

A curtain may include a blind shade stretched or contracted in a first direction to adjust transmittance of light, a base coupled to one end portion of the blind shade in the first direction thereof, and a transmittance adjusting device to adjust the transmittance of the light passing through the blind shade by pulling outward or releasing inward an other end portion of the blind shade in the first direction thereof, in the state that spacing from the base in the first direction is fixed.

The present invention discloses a winding device includes a screen, a winding shaft for winding the screen, a housing portion for housing the winding shaft, and a fiber assembly that supports rotatably an end portion of the winding shaft. The present invention also discloses a winding device includes a screen, a winding shaft for winding the screen, the winding shaft having an opening at an end portion, a housing portion for housing the winding shaft, a fiber assembly that is in the opening of the winding shaft, the fiber assembly having a hole along a center line direction of the winding shaft, and a support shaft that is in the hole of the fiber assembly, the support shaft supporting the fiber assembly rotatably.

The present invention discloses a winding device includes a screen, a winding shaft for winding the screen, a housing portion for housing the winding shaft, and a fiber assembly that supports rotatably an end portion of the winding shaft. The present invention also discloses a winding device includes a screen, a winding shaft for winding the screen, the winding shaft having an opening at an end portion, a housing portion for housing the winding shaft, a fiber assembly that is in the opening of the winding shaft, the fiber assembly having a hole along a center line direction of the winding shaft, and a support shaft that is in the hole of the fiber assembly, the support shaft supporting the fiber assembly rotatably.

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 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.

In one aspect, a roller shade assembly for an architectural opening may generally include a first roller, a second roller and a looped shade extending around the first and second rollers. The looped shade may include at least one outer shade web forming a continuous loop around the rollers. In addition, the roller shade assembly may include an inner shade web configured to be wrapped around the first roller or the second roller such that the inner shade web is positioned within the continuous loop. The inner shade web may be coupled to the outer shade web(s) at a location along an inner perimeter of the continuous loop. Additionally, rotation of the first roller and/or the second roller in an unwinding direction may result in the inner shade web being unwound from the first roller or the second roller along the inner perimeter of the continuous loop.

In one aspect, a roller shade assembly for an architectural opening may generally include a first roller, a second roller and a looped shade extending around the first and second rollers. The looped shade may include at least one outer shade web forming a continuous loop around the rollers. In addition, the roller shade assembly may include an inner shade web configured to be wrapped around the first roller or the second roller such that the inner shade web is positioned within the continuous loop. The inner shade web may be coupled to the outer shade web(s) at a location along an inner perimeter of the continuous loop. Additionally, rotation of the first roller and/or the second roller in an unwinding direction may result in the inner shade web being unwound from the first roller or the second roller along the inner perimeter of the continuous loop.

A retractable window covering for natural illumination of building interiors by redirecting the incident daylight at angles that promote its deeper penetration into the interior space. The window covering comprises an optically transmissive, flexible polymeric sheet having reflective surfaces incorporated into its material and configured to redirect at least a portion of light propagating through the sheet towards a desired direction. The window covering is operable from a closed to an open position so as to increase or decrease the amount of redirected and/or admitted light.