An electromechanical actuator is integrated into a blackout or sun-shading device that includes a screen, top and bottom bars, and top and bottom winding shafts. The screen is between the bars. The top bar is connected to the top winding shaft by first cords. The bottom bar is connected to the bottom winding shaft by second cords. The electromechanical actuator includes first and second transmission devices and an electric motor that drives the shafts. The first transmission device connects to the motor and the top winding shaft and includes a first clutch. The second transmission device connects to the electric motor and the bottom winding shaft and includes a second clutch. When the motor is activated with only one clutch engaged, only one winding shaft is rotated. Moreover, when the motor is activated electrically and the clutches are engaged, the winding shafts are rotated by the motor.

A sun protection apparatus includes a shading device, including an upper bar, a lower bar and a screen disposed between the upper and lower bars. The apparatus also includes a motorized drive device, designed to deploy and fold away the screen, including a first electromechanical actuator, configured to move the upper bar, a second electromechanical actuator, configured to move the lower bar, and a control unit, configured to control the first and second actuators. The control unit controls the first actuator so as to move the upper bar then the second actuator so as to move the lower bar depending on the position and/or movement of the upper bar, or vice versa.

Embodiments generally relate to a screening element, screen assembly, and associated fixing systems, components and methods. Such embodiments can be used for exterior protection of windows and/or building facades, particularly in commercial buildings and the like. Some embodiments relate to a lightweight screening element, awning or louvre blade that can be readily fixed and applied to the exterior of buildings or built structures so as to provide a screen. Some embodiments relate to a screening element, comprising: an elongate panel defining a first portion and a second portion angled relative to the first portion; and at least one solar panel connected to the first portion of the elongate panel.

An actuating system for a window shade includes a rotary axle, a cord winding assembly and a limiting mechanism. The cord winding assembly is coupled to the rotary axle and is connected with a plurality of suspension cords, the rotary axle being rotatable to cause the cord winding assembly to wind and unwind the suspension cords for displacing a movable rail of a window shade. The limiting mechanism includes a latch coupled to one of the suspension cords, the latch being movable between a locking state for preventing rotation of the rotary axle and an unlocking state for rotation of the rotary axle, the limiting mechanism being configured so that tensioning and loosening of the one of the suspension cords causes the latch to switch between the locking state and the unlocking state.

A solar adjustment apparatus includes a control circuit, two optical encoders, two driving modules, and a power circuit. The control circuit is arranged in an upper rail, and the upper rail is fixed on the upper side of a door or window of a building or vehicle. The two driving modules pivot two spools at the same speed. One of the driving modules controls a height of a middle rail in vertical direction of the door or window through one of optical encoders and one of spools. The other driving module controls a height of a lower rail in vertical direction of the door or window through the other optical encoder and the other spool.

A pleated and honeycomb blinds system having first blinds that open and close by contacting under the upper profile, a middle profile that open and close by contacting under the first blinds, second blinds that open and close by contacting under the middle profile a rope that connects upper, middle and lower profiles by passing through the first blinds and the second blinds, and a rope fixing apparatus that allows the rope to be fixed to the upper profile and lower profile. The system includes a cover body connected to both ends of the middle profile to ensure the connection of the ropes to the middle profile, a connection element positioned mutually on the cover body, and a middle profile cover between the connection elements and having a pin that holds the ropes coming from the upper profile and the lower profile and moves them on it.

In one aspect, a covering for an architectural structure includes an upper rail, a bottom rail configured to be spaced apart from the upper rail, and an intermediate rail positioned between the upper rail and the bottom rail. The covering also includes a first shade panel supported between the upper rail and the intermediate rail that has a first shade configuration, and a second shade panel supported between the intermediate rail and the bottom rail that has a second shade configuration, with the second shade configuration differing from the first shade configuration.

A modular shade includes at least one module that consists of a head rail unit, a foot rail unit, at least one intermediate rail unit, and a plurality of slat components. A top slat may be coupled to the head rail unit and the intermediate rail unit, and a bottom slat component may be coupled to the intermediate rail unit and the foot rail unit. Further, additional intermediate rail units and intermediate slat components may be added to the module to alter the shape and size of the module, and the module may be coupled to one or more additional modules to change the overall shape and size of the modular shade.

A covering for an architectural opening including a first rail, a second rail moveable relative to the first rail, a third rail moveable relative to the first rail, and a lift assembly coupled to the first rail. The lift assembly includes a first drum rotatable about a first axis, a second drum rotatable about a second axis; a first lift cord coupled between the first drum and the second rail, and a second lift cord coupled between the second drum and the third rail. The first drum is offset from the second drum, and a portion of the first drum overlaps a portion of the second drum along a third axis that is perpendicular to the first axis and the second axis.

A modular shade includes at least one module that consists of a head rail unit, a foot rail unit, at least one intermediate rail unit, and a plurality of slat components. A top slat may be coupled to the head rail unit and the intermediate rail unit, and a bottom slat component may be coupled to the intermediate rail unit and the foot rail unit. Further, additional intermediate rail units and intermediate slat components may be added to the module to alter the shape and size of the module, and the module may be coupled to one or more additional modules to change the overall shape and size of the modular shade.