Interactive occupant-tracking fan for indoor comfort and energy conservation

What is claimed is: 1 . An occupant-tracking fan apparatus, comprising: (a) at least one source of forced air; (b) a movable support configured for multi-axis positioning of the forced air source; and (c) a controller with a sensor configured for controlling the moveable support to direct forced air toward a target detected by the sensor. 2 . An apparatus as recited in claim 1 , wherein said source of forced air comprises a fan and a directional nozzle with an intake and an output, wherein air from the fan is emitted from the nozzle towards the target. 3 . An apparatus as recited in claim 2 , wherein said directional nozzle further comprises an air filter. 4 . An apparatus as recited in claim 1 , further comprising a suspension mount coupled to the moveable support, wherein said moveable support is secured to a building ceiling above room occupants by the suspension mount. 5 . An apparatus as recited in claim 1 , further comprising a planar base sized to be incorporated in a suspended ceiling grid, said moveable support mounted to the planar base, wherein said moveable support and air source are positioned above room occupants. 6 . An apparatus as recited in claim 1 , wherein said moveable support comprises: (a) an anchor bracket; (b) a fan bracket axially coupled to the anchor bracket and to the source of forced air; and (c) means for axial rotation of the fan bracket and the source of forced air; (d) wherein said fan bracket is configured to rotate about a vertical axis; and (e) wherein said source of forced air axially coupled to the fan bracket is configured to rotate about a horizontal axis. 7 . An apparatus as recited in claim 1 , wherein said sensor comprises one or an array of sensors selected from the group of sensors consisting of a camera, an infrared camera and an ultrasonic rangefinder. 8 . An apparatus as recited in claim 1 , wherein said controller comprises: (a) a computer processor operably coupled to the movable support and to the sensors; and (b) programming in a non-transitory computer readable medium and executable on the computer processor for performing steps comprising: (i) acquiring sensor data from the sensors; (ii) analyzing acquired sensor data to identify targets and target locations; and (iii) controlling the moveable support to direct an air stream to an identified target. 9 . An apparatus as recited in claim 8 , wherein said programming further performs the step comprising controlling the settings of heating or cooling systems of a building. 10 . An apparatus as recited in claim 1 , wherein said controller further comprises a remote control interface, and wherein actuation and settings of the apparatus can be controlled remotely. 11 . An apparatus as recited in claim 10 , wherein said remote control comprises a radio frequency identification tag and sensor, and wherein air source actuation and settings of the apparatus can be controlled automatically. 12 . An apparatus as recited in claim 10 , wherein said remote control comprises gesture recognition sensors and programming, and wherein actuation and settings of the apparatus can be controlled remotely by designated gestures of an occupant. 13 . An apparatus as recited in claim 10 , wherein said remote control comprises a central controller. 14 . A target-tracking fan apparatus, comprising: (a) at least one air source having a fan and a fan nozzle with an output; (b) a fan bracket and nozzle motor axially coupled to the fan nozzle, the nozzle configured to rotate about a horizontal axis upon actuation of the nozzle motor; (c) an anchor bracket and fan bracket motor axially coupled to the fan bracket, the fan bracket configured to rotate about a vertical axis upon actuation of the fan bracket motor; and (d) a controller with at least one sensor electrically coupled to the nozzle motor and the fan bracket motor, configured for controlling the actuation of the nozzle motor and the fan bracket motor to direct forced air from the fan nozzle output toward a target detected by the sensors. 15 . An apparatus as recited in claim 14 , wherein said controller comprises: (a) a computer processor operably coupled to the fan, nozzle motor, fan bracket motor and sensors; and (b) programming in a non-transitory computer readable medium and executable on the computer processor for performing steps comprising: (i) acquiring sensor data from the sensors; (ii) analyzing acquired sensor data to identify targets and target locations; (iii) controlling the nozzle motor and fan bracket motor to direct an air stream to an identified target; and (iv) controlling the fan speed. 16 . An apparatus as recited in claim 14 , wherein said sensor comprises one or an array of sensors selected from the group of sensors consisting of a camera, an infrared camera and an ultrasonic rangefinder. 17 . An apparatus as recited in claim 16 , further comprising at least one sensor selected from the group of sensors consisting of an RFID sensor, a motion sensor, a humidity sensor and a temperature sensor. 18 . A system of target-tracking fans, comprising: (a) a plurality of air sources, comprising: (i) at least one fan and a fan nozzle with an output; (ii) a fan bracket and nozzle motor axially coupled to the fan nozzle, the nozzle configured to rotate about a horizontal axis upon actuation of the nozzle motor; (iii) an anchor bracket and fan bracket motor axially coupled to the fan bracket, the fan bracket configured to rotate about a vertical axis upon actuation of the fan bracket motor; and (iv) a fan controller with at least one sensor electrically coupled to the nozzle motor and the fan bracket motor, configured for controlling the actuation of the nozzle motor and the fan bracket motor to direct forced air from the fan nozzle output toward a target detected by the sensors; and (b) a central controller operably coupled to each fan controller and to heating or cooling systems of a building. 19 . A system as recited in claim 18 , wherein said fan controller further comprises a remote control interface selected from the group of cellular telephone, tablet, RFID tag, and controller recognized occupant gestures, wherein actuation and settings of each fan apparatus can be controlled remotely. 20 . A system as recited in claim 18 , wherein said central controller comprises: (a) a computer processor operably coupled to one or more fan controllers and the heating or cooling systems of a building; and (b) programming in a non-transitory computer readable medium and executable on the computer processor for performing steps comprising: (i) acquiring temperature sensor and fan speed data from the sensors of each blower controller; and (ii) controlling the settings of the heating or cooling systems of the building to regulate the amount of temperature treated air to locations in a building.