A panel unit includes an interconnected first and second pair of juxtaposed panels, a spacer joining together opposing inner faces of the pairs of panels about a periphery of the interconnected pair to define common air space therebetween, first and second blind assemblies positioned in the air space between the first and second pair of panels respectively, a first drive shaft coupled to a first set of louvers of the first blind assembly and a second drive shaft coupled to a second set of louvers of the second blind assembly, an actuator connected to the first drive shaft, and an interface structure rotationally fixing together opposing ends the first and second drive shafts, wherein the first drive shaft is responsive to actuation of the actuator to axially rotate and thereby cause simultaneous rotation of the first and second sets of louvers between the open and closed positions thereof.

An impact resistant operable blind includes a sealed impact resistant unit including a first glass layer and a second laminated glass layer spaced from the first glass layer and defining a sealed chamber therebetween. The second laminated glass layer includes a first heat strengthened glass layer laminated to a second heat strengthened glass layer by an interlayer. A blind unit is disposed within the sealed chamber and includes a tiltrod supported at a top of the sealed chamber and supporting a plurality of ladder strings that support a plurality of slats.

A tensioning mechanism for a blind assembly is contemplated. The mechanism includes one or more constant force springs affixed to a frame member so as to hold a belt driver and gear assembly in sufficient tension to translate axial movements of an operator into rotational force sufficient to raise or lower the blind (i.e., sun-blocking elements).

A self-locking balance weight-type insulated glass assembly has two panes of glass with an inner cavity and a blinds assembly therein. The blinds assembly comprises a head rail, a slat assembly hung on the head rail, a bottom rail, a privacy fascia and a hollow side rail. The head rail has a hollow inner cavity with a rotary rod assembly and a rotary rod locking device therein. The slat assembly, the bottom rail and the rotary rod assembly are connected through a pull cord for controlling slats to rise or fall and a ladder cord for controlling the slats to turn. The rotary rod locking device has an end connected to the rotary rod assembly and an end connected to a gear box. An external magnetic operator is magnetically coupled to an internal magnetic operator arranged outside the inner cavity formed by the panes of glass.

The present invention relates to an insulated glazing unit (1) adapted to be inserted in a door or window comprising a frame (2); at least two partially or totally transparent panes (4) associated with said frame (2) to define a gap (5); screening means (6) inserted in said gap (5) and adapted to be alternated at least between a retracted configuration in which they allow the passage of light through said gap (5) and a deployed configuration in which they at least partially block the passage of light in said gap (5); actuator means (8) comprising an electric motor (8a) operably associated with said screening means (6) to alternate them at least between the retracted configuration and the deployed configuration; power supply means (13) operably connected to said actuator means (8) and comprising a stationary portion (14) and a moving portion (15) adapted to be electrically connected/disconnected to/from said stationary portion (14), a control unit (9) in signal communication with said electric motor (8a) of said actuator means (8), said control unit (9) being configured to switch said electric motor (8a) on and off. The insulated glazing unit (1) is characterized in that it comprises an active electronic circuit (12) in signal communication with said control unit (9) and at least configured to store identification data of said control unit (9), said active electronic circuit (12) being associated with said stationary portion (14) of said power supply means (13).

A driving device is for a window blind. The driving device includes a mounting frame disposed between parallel first and second plates of the window blind, and first and second transmission members. The first transmission member has an inner magnetic portion and a worm portion. The inner magnetic portion is adapted to be disposed adjacent to the first plate, and is rotatable under influence of a magnetic force from a side of the first plate. The worm portion is co-rotatably connected to the inner magnetic portion. The second transmission member has a worm gear portion meshing with the worm portion, and a driving rod connected to the window blind so as to be driven rotatably by the first transmission member to operate the window blind.

A louver-blind double glazed window unit comprises a frame structure defining first and second faces of the unit, and outer side and inner sides. A first window is mounted to the first face of the unit and a second window is mounted to the second face of the unit. An inner chamber is defined between the frame structure and the first and second windows. A plurality of louver members extends within the chamber and are pivotally mounted to the frame. An actuator assembly is positioned within the chamber and is in operative communication with the plurality of louver members for imparting a pivot movement thereto between open and closed positions. An inner magnet is positioned at the inner side of the frame structure. An external manual operator is movably positioned on the outer side of the frame structure and comprises an outer magnet interfacing with the inner magnet via the frame structure for magnetic communication therewith. A movement of the external manual operator along a length of the outer side of the frame causes the inner magnet to move in tandem with the outer magnet actuating the actuator assembly to impart the pivot movement to the plurality of louver members.

An insulative glazing panel includes a frame provided between first and second glazing panes and at least one blind assembly. The frame includes first and second generally parallel sides and third and fourth generally parallel sides generally perpendicular to and spacing apart the first and second sides. The at least one blind assembly is pivotably mounted between the first and second sides and has a pivot axis parallel with the third and fourth sides, a flexible, reflective base sheet having first and second ends each with a spacing block and a flexible, reflective top sheet spaced from the base sheet by the spacing blocks to which first and second ends of the top sheet are attached.

A follower arrangement, operatively coupled to a plurality of slats of a blind assembly via a flexible cord, for raising and lowering the plurality of slats via the flexible cord, may include a housing defining a first opening therethrough, a ferromagnetic or paramagnetic counterweight to act against a weight of the plurality of slats of the blind assembly to reduce forces required to be applied to the follower arrangement to raise or lower the slats, and at least one magnet received within the first opening defined through the housing and magnetically attached to the counterweight to magnetically secure the housing to the counterweight.

Disclosed is a hollow louver top operating system comprising a rotating mechanism configured to open and close louver blades of a curtain; and a lifting mechanism configured to lift the curtain up and down, wherein the rotating mechanism comprises a rotating rope and a top rotating controller, and the rotating rope is connected between the top rotating controller and a first side of the curtain, wherein the lifting mechanism comprises a lifting rope and a top lifting controller, and the lifting rope is connected between the top lifting controller and a second side of the curtain, and wherein the top rotating controller and the top lifting controller are disposed in an upper frame portion of the window frame.