A daylight redirecting window film formed by a flexible multi-layer film laminate with a total thickness of less than one millimeter and configured to be applied to an indoor-facing window surface of a building facade. The window film includes a pair of outer film substrates flanking a light redirecting core layer. The core layer includes a parallel array of channels defining total internal reflection (TIR) surfaces and linear optically transmissive structures protruding transversely thought the core layer and bonded to the outer film substrates. A light output surface of the outer film substrate which is disposed on an indoor-facing side of the laminate includes a two-dimensional pattern of light scattering microstructures which are configured to spread light at least in a plane that is perpendicular to the channels. The TIR surfaces intercept and reflect a portion of sunlight propagating through the core layer such that the window film redirects that portion of incident sunlight towards a plurality of divergent directions, forming relatively high bend angles.

A window shade may include a shade, a sliding base, a weight track, a first blocking unit, and two second blocking units. The shade has two mount bars respectively formed at an upper end and a lower end thereof, and the shade is connected to the sliding base and the weight track through the two mount bars. The position of the sliding base is limited by the first blocking unit while the second blocking units are configured to limit the position of the weight track. With the first blocking unit and the two second blocking units, the shade can be replaced easily, and also the structural stability of the window shade is improved.

A covering for a vertically-suspended architectural-structure covering is disclosed. The covering is formed from a plurality of assembled vanes suspended from a headrail assembly. Each assembled vane may be made via a strip process. Each vane including a strip of material (e.g., translucent fabric), and at least one slat (e.g., arcuate opaque material) coupled to the strip of material. For example, in one embodiment, the vanes may include first and second slats coupled to an intermediate strip of material on either side of the intermediate strip of material along the vertically extending side portions thereof, respectively. The first and second slats preferably each include a complementary curved surface so that when the assembled vanes are coupled to the headrail assembly, the first slat of a first assembled vane is coupled to or nested with the second slat of a second, adjacent assembled vane.

A covering for a vertically-suspended architectural-structure covering is disclosed. The covering is formed from a plurality of assembled vanes suspended from a headrail assembly. Each assembled vane may be made via a strip process. Each vane including a strip of material (e.g., translucent fabric), and at least one slat (e.g., arcuate opaque material) coupled to the strip of material. For example, in one embodiment, the vanes may include first and second slats coupled to an intermediate strip of material on either side of the intermediate strip of material along the vertically extending side portions thereof, respectively. The first and second slats preferably each include a complementary curved surface so that when the assembled vanes are coupled to the headrail assembly, the first slat of a first assembled vane is coupled to or nested with the second slat of a second, adjacent assembled vane.

A covering for an architectural opening has a dual cord operating system. The covering may include a head rail, blind panels depending from the head rail, and an operating system. The operating system may include a housing connected to the head rail, a first drive assembly rotatably mounted within the housing and operable to move the blind panels between an extended configuration and a retracted configuration, and a second drive assembly rotatably mounted within the housing and operable to move the blind panels between a closed configuration and an open configuration.

An optically transmissive light directing sheeting and daylight control structures employing the same. The light directing sheeting includes a core light redirecting layer employing TIR surfaces embedded into the sheeting and may further include one or more outer layers having light diffusing surface microstructures. The TIR surfaces intercept and reflect a portion of sunlight propagating through the core layer such that the light directing sheeting partially transmits and partially redirects the sunlight towards a plurality of divergent directions, forming relatively high bend angles.

A motor driven system for raising and lowering a window covering executes motor ramp trajectory speed control. The motor ramp trajectory limits acceleration of an external motor from the idle (stationary) state to full operating speed, and limits deceleration of the motor from full operating speed back to the idle state. This function reduces stresses on a continuous cord loop drive mechanism. A control system manages solar heating effects in response to sunlight entrance conditions such as system sensor outputs, external weather forecasts, and other data sources. The system automatically opens or close the window covering to increase or decrease admitted sunlight under appropriate conditions. The input interface of the control system includes a visual display and input axis, which are aligned vertically if the window covering mechanism raises and lowers the window covering, and are aligned horizontally if the window covering mechanism laterally opens and closes the window covering.

A multistate resistance adjusting device for a non-pull cord window blind includes a base, an adjusting unit, and an elastic member. The base has a bottom trough provided on the periphery thereof with positioning grooves. The adjusting unit has a control pin provided with a transmission portion rotatable and vertically movable on the base and a positioning portion provided on the outer peripheral surface of the transmission portion and connected with an adjusting rod. When the positioning portion is engaged with one of the positioning grooves, the control pin is disabled from rotating relative to the base and adjusting the resistance applied on the lift transmission cord. When the control pin is moved upwardly to separate the positioning portion thereof from the positioning groove, the control pin is rotatable relative to the base, and the resistance applied on the lift transmission cord is adjustable through the adjusting rod.

Aspects of the present disclosure are directed to apparatuses and related methods involving a screening apparatus and assembly. As may be implemented in accordance with one or more embodiments, an apparatus includes a plurality of panels, a frame and, for each panel, a locking mechanism coupled to the frame and a mechanical actuator connected to the panel and the frame. The locking mechanism locks the panel in place when engaged with the panel, and may do so at a different angle of rotation, relative to the other panels. The mechanical actuator positions the panel relative to the frame and offset from the other panels, and facilitates rotation of the panel about an axis of rotation that is fixed relative to the frame, in response to the panel being disengaged from the locking mechanism.

A blind made up of a plurality of customisable rigid slats enables the blind to be fitted snugly within any window opening or doorway as a result of the locking adjustability of the width of such slats. The slats each include a pair of elongate slat panels movable relative to one another between retracted and extended conditions, such that the operative width of the blind is greater in the extended condition than in the retracted condition. The blind further includes one or more fasteners, located at or near each of a pair of minor ends of the slat panels, for releasably fixing the pair of slat panels to one another in the retracted condition, the extended condition and/or any condition there between, thereby to operatively restrict relative movement between the slat panels in such condition.