A solar powered smart window includes a light diffuser configured to convert an incident direct solar radiation to a diffusive light toward interior direction, a light diffuser positioner, a driving mechanism, a solar panel, and a control unit. The control unit moved the light diffuser from a predetermined opened position to a closed position and to hold the light diffuser at the closed position with latch mechanism, when the output power of the solar panel exceeds a threshold for over a duration time. The controller releases the latch mechanism and to cause the light diffuser to return to the predetermined opened position when the output power lowers below threshold for over the duration time. A method includes storing a predetermined condition, monitoring the output power, comparing the output power with the predetermined conditions, making decision whether a positional transition is necessary, and causing the transitional transition or maintaining current position.

The present invention relates to a large-sized external awning system which includes a winch provided at an upper story, a rooftop or the ground of a high-rise building, two guide wires spaced apart at a predetermined distance to be provided in parallel, a plurality of raising and lowering rods provided with wire-passing holes through which the guide wires pass such that the raising and lowering rods are raised and lowered along the guide wires, and an awning coupled to the raising and lowering rods and unfolded so as to block the sunlight when the raising and lowering rods are spaced apart from each other.

A child safety barrier system includes a plurality of elongated panel sections having a predetermined height and width. At least one support joint is connected between two of the plurality of panel sections to support the plurality of panels in a freestanding vertical orientation to form a panel assembly. A pair of telescoping anchors are positioned along each end of the panel assembly. Each of the telescoping anchors including a header assembly along the top end having an omnidirectional joint for positioning a malleable header block against the ceiling of a building in a plurality of different orientations.

An improved bi-fold shutter that includes a more efficient coupling mechanism at a hinge point suited to facilitate opening and closing the bi-fold shutter with greater ease. In one embodiment, the shutter may be designed for a window such that the shutter, when closed, is relatively close to the face of the associated window, and when open, forms an awning or overhang. The shutter includes an improved coupling mechanism at a hinge point between a first shutter portion and a second shutter portion. The improved hinge point shifts a direction of force needed to maneuver the shutter when moving the shutter from one position to another. The shift in opening and closing force directions improves the efficiency by which the shutter can be operated. In some embodiments, the shutter may be hand-operated. In other embodiments, the shutter may be powered.

An improved bi-fold shutter that includes a more efficient coupling mechanism at a hinge point suited to facilitate opening and closing the bi-fold shutter with greater ease. In one embodiment, the shutter may be designed for a window such that the shutter, when closed, is relatively close to the face of the associated window, and when open, forms an awning or overhang. The shutter includes an improved coupling mechanism at a hinge point between a first shutter portion and a second shutter portion. The improved hinge point shifts a direction of force needed to maneuver the shutter when moving the shutter from one position to another. The shift in opening and closing force directions improves the efficiency by which the shutter can be operated. In some embodiments, the shutter may be hand-operated. In other embodiments, the shutter may be powered.

A combination awning and shutter (1) having at least two panels (4, 5, 15, 16, 17) of substantially rectangular configuration foldably attached along contiguous sides so that when folded together and supported by support rods (8) or scissor hinges (18) and brackets (19) can be maintained in an angular awning position and when unfolded act as a storm or security shutter over a window or door opening and further securable by the support rods secured in eye bolts (11) on each side of an opening.

A door and window floodproofing assembly for preventing flood waters from entering a building includes an inflatable sealer apparatus and a battery cover apparatus. The inflatable sealer apparatus comprises a sealer body having a sealer front side, a sealer back side, and a sealer perimeter defining a sealer inside. The sealer inside is inflatable and dimensioned to fit within a door jamb or a window frame. A sealer flap is flexibly coupled to the sealer perimeter adjacent the sealer back side. The battery cover apparatus comprises a panel having a panel front side, a panel back side, and a panel perimeter. A plurality of latches is coupled to the panel front side adjacent the panel perimeter. A plurality of receivers is selectively engageable with the plurality of latches. Each receiver is coupled to the door jamb or the window frame.

A solar powered smart window includes a light diffuser configured to convert an incident direct solar radiation to a diffusive light toward interior direction, a light diffuser positioner, a driving mechanism, a solar panel, and a control unit. The control unit moved the light diffuser from a predetermined opened position to a closed position and to hold the light diffuser at the closed position with latch mechanism, when the output power of the solar panel exceeds a threshold for over a duration time. The controller releases the latch mechanism and to cause the light diffuser to return to the predetermined opened position when the output power lowers below threshold for over the duration time. A method includes storing a predetermined condition, monitoring the output power, comparing the output power with the predetermined conditions, making decision whether a positional transition is necessary, and causing the transitional transition or maintaining current position.

A solar powered smart window includes a light diffuser configured to convert an incident direct solar radiation to a diffusive light toward interior direction, a light diffuser positioner, a driving mechanism, a solar panel, and a control unit. The control unit moved the light diffuser from a predetermined opened position to a closed position and to hold the light diffuser at the closed position with latch mechanism, when the output power of the solar panel exceeds a threshold for over a duration time. The controller releases the latch mechanism and to cause the light diffuser to return to the predetermined opened position when the output power lowers below threshold for over the duration time. A method includes storing a predetermined condition, monitoring the output power, comparing the output power with the predetermined conditions, making decision whether a positional transition is necessary, and causing the transitional transition or maintaining current position.

A shutter system for a window or door is disclosed that includes at least one panel. The at least one panel includes: an inner frame; an outer frame configured for connection to the inner frame; a drive train that is supported by the inner frame; and a plurality of louvers that are connected to the drive train such that operation of the drive train moves the plurality of louvers between open and closed positions. The inner frame includes first segments each defining a longitudinal axis and a plurality of corner stakes that extend between and connecting the first segments. The outer frame includes second segments each defining a longitudinal axis and a plurality of brackets extending between and connecting the second segments.