In one aspect, a shutter assembly includes a shutter frame and a plurality of louvers supported by the frame. The shutter assembly also includes a louver drive assembly and a motor positioned within the frame. The motor is configured to rotationally drive a drive shaft extending within the frame. Additionally, the shutter assembly includes a clutch assembly rotationally coupled between the drive shaft and the louver drive assembly. The clutch assembly is configured to disengage or decouple the drive shaft from the louver drive assembly when a torque transmitted through the clutch assembly exceeds a given torque threshold.

A shutter panel for an architectural opening is provided. The shutter panel may include a frame and a louver rotatably coupled to the frame. The louver may be automatically closable based on an angular orientation of the louver. The shutter panel may include a closure device operably associated with the louver. The closure device may be actuated based on the angular orientation of the louver. The shutter panel may include a damping device operably associated with the louver. The damping device may be actuated based on the angular orientation of the louver. The shutter panel may include a tension device operably associated with the louver.

A shutter panel for an architectural opening is provided. The shutter panel may include a frame and a louver rotatably coupled to the frame. The louver may be automatically closable based on an angular orientation of the louver. The shutter panel may include a closure device operably associated with the louver. The closure device may be actuated based on the angular orientation of the louver. The shutter panel may include a damping device operably associated with the louver. The damping device may be actuated based on the angular orientation of the louver. The shutter panel may include a tension device operably associated with the louver.

A shutter assembly includes a frame with a pair of elongate side members and a pair of elongate cross members extending between the side members. The first side member includes an inwardly-facing frame surface in a region between the pair of cross members and further includes a frame-ledge extending inward beyond the inwardly-facing frame surface. The shutter assembly includes a shutter panel having a first stile pivotally coupled to the first side member of the frame, the shutter panel configured to swing between a closed position and an open position relative to the frame. The first stile includes a shutter recessed surface, and a shutter-ledge extending outwardly beyond the shutter recessed surface. For light-blocking purposes the shutter assembly is configured such that the shutter-ledge is positioned adjacent to the frame-ledge when the shutter panel is in the closed position.

A shutter assembly includes a frame with a pair of elongate side members and a pair of elongate cross members extending between the side members. The first side member includes an inwardly-facing frame surface in a region between the pair of cross members and further includes a frame-ledge extending inward beyond the inwardly-facing frame surface. The shutter assembly includes a shutter panel having a first stile pivotally coupled to the first side member of the frame, the shutter panel configured to swing between a closed position and an open position relative to the frame. The first stile includes a shutter recessed surface, and a shutter-ledge extending outwardly beyond the shutter recessed surface. For light-blocking purposes the shutter assembly is configured such that the shutter-ledge is positioned adjacent to the frame-ledge when the shutter panel is in the closed position.

A damper providing varying damping force is provided. The damper may include a housing and a rotary member rotatably received the housing. The rotary member may rotate within the housing between defined end points of travel to define an angular range of travel of the rotary member. An outermost surface of the rotary member may be spaced inwardly from an inner surface of the housing defined between the end points of travel to define a gap between the outermost surface of the rotary member and the inner surface of the housing throughout the angular range of travel. The gap may vary in dimension depending on a rotational position of the rotary member to provide varying damping rates within the angular range of travel of the rotary member.

A damper providing varying damping force is provided. The damper may include a housing and a rotary member rotatably received the housing. The rotary member may rotate within the housing between defined end points of travel to define an angular range of travel of the rotary member. An outermost surface of the rotary member may be spaced inwardly from an inner surface of the housing defined between the end points of travel to define a gap between the outermost surface of the rotary member and the inner surface of the housing throughout the angular range of travel. The gap may vary in dimension depending on a rotational position of the rotary member to provide varying damping rates within the angular range of travel of the rotary member.

The present invention is a gear driven louver shutter system, wherein each louver of the shutter system is attached to the end of a pinion on at least one end. A plurality of teeth of each pinion is engaged with a gear track disposed within each frame member. When one louver is adjusted, all the louvers in the shutter system will move accordingly, due to the movement of the gear strip rotating the pinions in that frame member at the same rate.

Embodiments of the present invention relates to a window system with improved safety in a structure in which a solar panel is projected and tilted, and more particularly, a project type solar window system with fall protector according to present invention includes a window frame; a project frame with an upper end hinged to an upper end of the window frame configured to be opened and closed in a project type with respect to the window frame; a solar panel provided inside the project frame; a project cylinder installed between the window frame and the project frame that allows the project frame to be opened and closed in a project type with respect to the window frame; a tilt cylinder installed on the project frame that allows the solar panel to be opened and closed by tilting with respect to the project frame; and a fall protecting chassis installed at rear end of the window frame.

Embodiments of the present invention relates to a window system with improved safety in a structure in which a solar panel is projected and tilted, and more particularly, a project type solar window system with fall protector according to present invention includes a window frame; a project frame with an upper end hinged to an upper end of the window frame configured to be opened and closed in a project type with respect to the window frame; a solar panel provided inside the project frame; a project cylinder installed between the window frame and the project frame that allows the project frame to be opened and closed in a project type with respect to the window frame; a tilt cylinder installed on the project frame that allows the solar panel to be opened and closed by tilting with respect to the project frame; and a fall protecting chassis installed at rear end of the window frame.