A tool for placement of markings that provides a method of installing window shades and window blinds easily, accurately, and in a manner that saves time and energy. The tool for placement of markings presents novel structures and features that allow for easy, fast and accurate installation of blinds and shades.

A high efficiency daylight directing structure for application on fenestration deploys closely spaced macroscopic bars of transparent resin to eliminate different forms of glare. The spaced apart surfaces provide for efficient reflection of selective incident light, by TIR or metallic surfaces, via the ultra-smooth native surfaces from a mold or casting process. A close spacing is readily obtained in various attachment methods to boost efficiency. The fabrication method allows selective deposition of absorbing layers, such as by of painting/printing between alternating native optical surface to provide one way transparency at high angles of incidence. The bars are supported on at least one common planar surface by transparent support member with an optical quality adhesive material filling any imperfection in the bars common planar surface that form in fabrication.

A high efficiency daylight directing structure for application on fenestration deploys closely spaced macroscopic bars of transparent resin to eliminate different forms of glare. The spaced apart surfaces provide for efficient reflection of selective incident light, by TIR or metallic surfaces, via the ultra-smooth native surfaces from a mold or casting process. A close spacing is readily obtained in various attachment methods to boost efficiency. The fabrication method allows selective deposition of absorbing layers, such as by of painting/printing between alternating native optical surface to provide one way transparency at high angles of incidence. The bars are supported on at least one common planar surface by transparent support member with an optical quality adhesive material filling any imperfection in the bars common planar surface that form in fabrication.

A covering for an architectural opening includes a first rail, a second rail adjustably connected to the first rail, and a magnetic retention assembly configured to removably connect the first and second rails. The magnetic retention assembly includes a magnet coupled to one of the first rail or the second rail, and a receiver coupled to the other of the second rail or the first rail, the receiver configured to form a magnetic connection with the magnet.

A covering for an architectural opening includes a first rail, a second rail adjustably connected to the first rail, and a magnetic retention assembly configured to removably connect the first and second rails. The magnetic retention assembly includes a magnet coupled to one of the first rail or the second rail, and a receiver coupled to the other of the second rail or the first rail, the receiver configured to form a magnetic connection with the magnet.

An apparatus for installing a window covering is disclosed. In one embodiment, such an apparatus includes a stationary portion for attachment to an end of a headrail of a window covering, and a moveable portion to contact an inside of a window casing. A threaded member is provided that, when rotated, translates the moveable portion relative to the stationary portion. A manual actuator is provided to rotate the threaded member. In certain embodiments, the actuator is a thumb wheel configured to rotate the threaded member. In other embodiments, the actuator is a lever arm, such as a ratcheting lever arm, configured to rotate the threaded member. A corresponding method is also disclosed and claimed herein.

An architectural covering with an operable vane having a fabric backing is provided. The vane may include a vane fabric and a backing material connected to the vane fabric by a layer of adhesive. The backing material may increase a machine-direction stiffness of the vane while slightly affecting a cross-direction stiffness of the vane. As such, the vane may have increased stiffness in its machine direction while simultaneously remaining flexible in its cross direction.

An architectural covering with an operable vane having a fabric backing is provided. The vane may include a vane fabric and a backing material connected to the vane fabric by a layer of adhesive. The backing material may increase a machine-direction stiffness of the vane while slightly affecting a cross-direction stiffness of the vane. As such, the vane may have increased stiffness in its machine direction while simultaneously remaining flexible in its cross direction.

A rail for an architectural covering is provided. The rail may be associated with a shade material of a covering. An adjustment device may be positioned at least partially within the rail. A plurality of lift cords may be associated with the adjustment device. The adjustment device may adjust an effective length of each of the lift cords to adjust a position of the rail within an architectural opening.

A rail for an architectural covering is provided. The rail may be associated with a shade material of a covering. An adjustment device may be positioned at least partially within the rail. A plurality of lift cords may be associated with the adjustment device. The adjustment device may adjust an effective length of each of the lift cords to adjust a position of the rail within an architectural opening.