Window covering

Abstract: A system for the automatic regulation of daylight admitted into a room, specifically intended for daylighting applications. A preferred embodiment, system 10, consisting of a conventional control unit 11, a conventional exterior brightness sensor 12, and a conventional electronically controlled window covering 13, operates to block direct solar radiation while admitting substantial diffuse illumination. Control unit 11, brightness sensor 12, and window covering 13 are interconnected in a known manner to enable control unit 11 to register the brightness of the external illumination, and to actuate window covering 13. Control unit 11 consists of a conventional microcontroller 14, a conventional real-time clock/calendar 15, and a conventional Non-Volatile Memory (NVM) 16. Microcontroller 14, clock/calendar 15, and NVM 16 are interconnected in a known manner to enable microcontroller 14 to register the output of clock/calendar 15, and to exchange data with NVM 16. NVM 16 holds pre-stored data which defines a desired setting of window covering 13 as a function of the time of the day and the day of the year, for the prevailing latitude, longitude, and window azimuth orientation. In the preferred embodiment, this desired setting is one which will block the admission of incident direct solar radiation, while still admitting substantial diffuse illumination. Microcontroller 14 periodically registers the exterior brightness as measured by sensor 12, registers the data stored in NVM 16, estimates a desired setting of window covering 14 on the basis of these data, and actuates window covering 13 to the desired setting.

Abstract: A fabric light control window covering in which fabric vanes are adhesively bonded between two sheer fabric sheets such that relative movement between the sheer fabric sheets in a direction perpendicular to the longitudinal direction of the fabric vanes changes the angle of the fabric vanes and, thus, controls the amount of light admitted through the shade. The vanes are bonded to the sheer fabric sheets in a manner which tends to bias the sheer fabric sheets together to the nonlight admitting position. Also, disclosed are methods and apparatus for manufacturing the above window covering. The method features linear application of adhesive to the vane material which provides for a uniform appearance in the finished product. A heat setting process and apparatus is disclosed in which the bonded layers of sheer fabrics and vanes are fed between belts over hot and cool surfaces, under uniform tension and pressure. This provides for heat setting of the layers of the window covering to a uniform temperature-size relationship without inducing wrinkles or distortion into the fabric during heat setting.

Abstract: A wireless battery-operated window covering assembly is disclosed. The window covering has a head rail in which all the components are housed. These include a battery pack, an interface module including an IR receiver and a manual switch, a processor board including control circuitry, motor, drive gear, and a rotatably mounted reel on which lift cords wind and unwind a collapsible shade. The circuitry allows for dual-mode IR receiver operation and a multi-sensor polling scheme, both of which are configured to prolong battery life. Included among these sensors is a lift cord detector which gauges shade status to control the raising and lowering of the shade, and a rotation sensor which, in conjunction with internal registers and counters keeps track of travel limits and shade position.

Abstract: A wireless battery-operated window covering assembly is disclosed. The window covering has a head rail in which all the components are housed. These include a battery pack, an interface module including an IR receiver and a manual switch, a processor board including control circuitry, motor, drive gear, and a rotatably mounted reel on which lift cords wind and unwind a collapsible shade. The circuitry allows for dual-mode IR receiver operation and a multi-sensor polling scheme, both of which are configured to prolong battery life. Included among these sensors is a lift cord detector which gauges shade status to control the raising and lowering of the shade, and a rotation sensor which, in conjunction with internal registers and counters keeps track of travel limits and shade position.