Abstract: A self-contained system for protecting building penetrations is disclosed. The system can include a housing containing a take-up roll and a screen made from a flexible, strong fabric-like material suitable for resisting high winds, driving rain, and wind-driven missiles. The system can further comprise a deflector or roller to maintain the angle of deployment of the screen. The system can further include a weight bar attached to the end of the screen to assist in deploying the screen. The system can further comprise a dual pulley system to assist in deploying the screen and to hold the screen in the deployed position. The system can include wipers to clean the screen as it is retracted into the enclosure. The system can further comprise an integrated or separate light control, or “black-out” screen. The system enclosures can comprise various hinged covers to facilitate service, repair, and storage.
Abstract: A system for protecting building penetrations is disclosed. The system can include a screen comprising flexible, strong fabric-like material suitable for resisting high winds, driving rain, and wind-driven missiles. The screen can further include loops sewn, or otherwise manufactured, into the span sides of the screen. The system can further include one or more retention channels having an internal hem rod. The loops in the screens can slide over the hem rod to guide and retain the screen in the retention channels. The hem rod can include a tapered end and a loop opener to facilitate the loops sliding over the end of the hem rod. The system can further include an enclosure for housing a take-up roll and a powered or manual rotating system. The system can include a deflection device to enable the screen to unroll off the take-up roll smoothly and vertically.
Abstract: A self-contained system for protecting building penetrations is disclosed. The system can include a housing containing a take-up roll and a screen made from a flexible, strong fabric-like material suitable for resisting high winds, driving rain, and wind-driven missiles. The system can further comprise a deflector or roller to maintain the angle of deployment of the screen. The system can further include a weight bar attached to the end of the screen to assist in deploying the screen. The system can further comprise a dual pulley system to assist in deploying the screen and to hold the screen in the deployed position. The system can include wipers to clean the screen as it is retracted into the enclosure. The system can further comprise an integrated or separate light control, or “black-out” screen. The system enclosures can comprise various hinged covers to facilitate service, repair, and storage.
Abstract: A system for protecting building penetrations is disclosed. The system can include a screen comprising flexible, strong fabric-like material suitable for resisting high winds, driving rain, and wind-driven missiles. The screen can further include loops sewn, or otherwise manufactured, into the span sides of the screen. The system can further include one or more retention channels having an internal hem rod. The loops in the screens can slide over the hem rod to guide and retain the screen in the retention channels. The hem rod can include a tapered end and a loop opener to facilitate the loops sliding over the end of the hem rod. The system can further include an enclosure for housing a take-up roll and a powered or manual rotating system. The system can include a deflection device to enable the screen to unroll off the take-up roll smoothly and vertically.