A grow light fan is provided including a motorized housing, a fan assembly attached to the motorized housing and including a plurality of fan blades and a plurality of grow lights mounted on an underside of each fan blade. A controller is provided in the motorized housing and receives signals remote
A grow light fan is provided including a motorized housing, a fan assembly attached to the motorized housing and including a plurality of fan blades and a plurality of grow lights mounted on an underside of each fan blade. A controller is provided in the motorized housing and receives signals remotely, from a transmitter held by a user, to control the intensity of the grow lights and the speed and direction of the motor. A shroud and mounting bracket are also provided to secure and protect the grow light fan within a grow room.
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1. A grow light fan for uniformly directing plant stimulating radiation to a target plant, the grow light fan comprising: a motor, the motor supported by a motor support structure;the motor configured to rotate a rotatable hub about a rotational axis;one or more fan blades attached to the rotatable
1. A grow light fan for uniformly directing plant stimulating radiation to a target plant, the grow light fan comprising: a motor, the motor supported by a motor support structure;the motor configured to rotate a rotatable hub about a rotational axis;one or more fan blades attached to the rotatable hub; andone or more grow lights fixed to the one or more fan blades and in electrical connection with the rotatable hub, the one or more grow lights configured to stimulate growth of the target plant by directing the plant stimulating radiation to the target plant,wherein the fan blades are configured to project air toward the target plant during rotation of the fan blades;wherein the motor support structure includes a horizontally oriented circumferential channel; andwherein the circumferential channel of the motor support structure is configured to be a rotational electrical connector for engagement with a corresponding inwardly directed ring extending from the rotatable hub to maintain electrical connection between the one or more grow lights and a power source through the rotatable hub and the motor support structure for providing power to the one or more grow lights continuously during rotation of the fan blades through a full range of motion to continuously illuminate the one or more grow lights while the fan blades rotate and while the ring rotatably slides along the circumferential channel. 2. The grow light fan of claim 1, further comprising: a controller to control a rotation speed of the one or more fan blades. 3. The grow light fan of claim 1, further comprising: a controller to control a rotation direction of the one or more fan blades. 4. The grow light fan of claim 1, further comprising: a controller to control a light intensity of the one or more grow lights. 5. The grow light fan of claim 1, further comprising: a controller to selectively switch the one or more grow lights on and off. 6. The grow light fan of claim 1, further comprising: a controller to control a wavelength emitted by the one or more grow lights. 7. The grow light fan of claim 1, further comprising: a controller to control plant stimulating radiation emission of the one or more grow lights, the controller operatively connected to a wireless remote device. 8. A grow light fan for directing plant stimulating radiation to a target plant, the grow light fan comprising: a motor, the motor supported by a motor support structure;the motor configured to rotate a rotatable hub about a rotational axis;one or more fan blades fixedly attached to the rotatable hub such that the fan blades extend radially from the rotatable hub;one or more grow lights fixed to the one or more fan blades and in electrical connection with the rotatable hub, the one or more grow lights configured to stimulate growth of the target plant by directing the plant stimulating radiation to the target plant;wherein the fan blades are configured to project air toward the target plant during rotation of the fan blades;wherein the one or more grow lights include approximately 230 LEDs that are configured to emit light having approximately a wavelength of 630 nanometers, approximately 24 LEDs that are configured to emit light having approximately a wavelength of 460 nanometers, approximately 14 LEDs that are configured to emit light having approximately a wavelength of 610 nanometers, approximately 4 LEDs that are configured to emit light having approximately a wavelength of 410 nanometers, approximately 4 LEDs that are configured to emit light having approximately a wavelength of 850 nanometers, approximately 22 LEDs that are configured to emit light having approximately a color temperature of approximately 14000K, and approximately 2 LEDs that are configured to emit light having approximately a wavelength of 520 nanometers; andwherein the motor support structure includes a horizontally oriented circumferential channel; andwherein the circumferential channel of the motor support structure is configured to be a rotational electrical connector for engagement with a corresponding inwardly directed ring extending from the rotatable hub to maintain electrical connection between the one or more grow lights and a power source through the rotatable hub and the motor support structure for providing power to the one or more grow lights continuously during rotation of the fan blades through a full range of motion to continuously illuminate the one or more grow lights while the fan blades rotate and while the ring rotatably slides along the circumferential channel. 9. The grow light fan of claim 8, wherein the fan blades are configured to circulate air and move air over the one or more grow lights for cooling the grow lights during rotation of the fan blades. 10. The grow light fan of claim 8, further comprising: an electrical connector to electrically connect the one or more grow lights to a power source, the electrical connector providing power to the one or more grow lights continuously during rotation of the one or more fan blades through a full range of motion. 11. The grow light fan of claim 8, further comprising: a controller to control a rotation speed of the one or more fan blades. 12. The grow light fan of claim 8, further comprising: a controller to control a rotation direction of the one or more fan blades. 13. The grow light fan of claim 8, further comprising: a controller to control a light intensity of the one or more grow lights. 14. The grow light fan of claim 8, further comprising: a controller to selectively switch the one or more grow lights on and off. 15. The grow light fan of claim 8, further comprising: a controller to control a wavelength emitted by the one or more grow lights. 16. The grow light fan of claim 8, further comprising: a controller to control plant stimulating radiation emission of the one or more grow lights, the controller operatively connected to a wireless remote device. 17. A grow light fan for uniformly directing plant stimulating radiation to a target plant, the grow light fan comprising: a motor, the motor supported by a motor support structure;the motor configured to rotate a rotatable hub about a rotation axis;one or more fan blades fixedly attached to the rotatable hub such that the fan blades extend radially from the rotatable hub;one or more grow lights fixed to the one or more fan blades and in electrical connection with the rotatable hub, the one or more grow lights configured to stimulate growth of the target plant by directing the plant stimulating radiation to the target plant; anda controller located in the motor support structure, the controller configured to control a light emission property of the one or more grow lights in response to a received user input;wherein the fan blades are configured to project air toward the target plant during rotation of the fan blades;wherein the motor support structure includes a horizontally oriented upper circumferential channel and a horizontally oriented lower circumferential channel;wherein the upper and lower circumferential channels of the motor support structure are configured to be rotational electrical connectors for engagement with corresponding inwardly directed upper and lower rings extending from the rotatable hub to maintain electrical connection between the one or more grow lights and a power source through the rotatable hub and the motor support structure for providing power to the one or more grow lights continuously during rotation of the fan blades through a full range of motion to continuously illuminate the one or more grow lights while the fan blades rotate;wherein to control the light emission property of the one or more grow lights, the controller is operatively connected to the one or more grow lights through rotational electrical connection provided by engagement between the upper and lower circumferential channels of the motor support structure and the upper and lower rings of the rotatable hub via one or more electrical cables that extend from the controller to the upper and lower circumferential channels of the motor support structure; andwherein the one or more grow lights include approximately 230 LEDs that are configured to emit light having approximately a wavelength of 630 nanometers, approximately 24 LEDs that are configured to emit light having approximately a wavelength of 460 nanometers, approximately 14 LEDs that are configured to emit light having approximately a wavelength of 610 nanometers, approximately 4 LEDs that are configured to emit light having approximately a wavelength of 410 nanometers, approximately 4 LEDs that are configured to emit light having approximately a wavelength of 850 nanometers, approximately 22 LEDs that are configured to emit light having approximately a color temperature of approximately 14000K, and approximately 2 LEDs that are configured to emit light having approximately a wavelength of 520 nanometers. 18. The grow light fan of claim 17, wherein the controller is configured to control plant stimulating radiation emission of the one or more grow lights and a rotation speed of the one or more fan blades, the controller wirelessly and operatively connected to a remote device.
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이 특허에 인용된 특허 (10)
Davis Noel (Wayzata MN) Davis Noel B. (Alexandria VA) Dreier William M. (Minneapolis MN), Apparatus and method for controlling plant growth with artificial light.
Blocker Blane T. (37-33 28th St. ; #17 Long Island City NY 11101) Blocker Eva B. (37-33 28th St. ; #17 Long Island City NY 11101), Illuminated blade, ceiling fan apparatus.
Cristian Michael R. (Arcata CA) Calabrese Genaro R. (Ferndale CA) Hice Jaxon (Santa Rosa CA), Method and apparatus for artificially illuminating vegetation.
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