Water, light and airflow control system and configuration for a plant air purifier
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B01D-047/00
B01D-053/14
A01G-031/00
A01M-007/00
A01G-025/00
F24F-003/16
A01G-027/00
B01D-053/84
출원번호
US-0060668
(2009-09-18)
등록번호
US-8894741
(2014-11-25)
국제출원번호
PCT/US2009/057392
(2009-09-18)
§371/§102 date
20110224
(20110224)
국제공개번호
WO2010/033752
(2010-03-25)
발명자
/ 주소
Mittelmark, Martin
출원인 / 주소
Mittelmark, Marc Anthony
대리인 / 주소
Yablon, Jay R.
인용정보
피인용 횟수 :
0인용 특허 :
31
초록▼
A plant air purifier and associated method for purifying air, comprising: at least one grow container; a filter bed comprising a surface which is horizontal within 20 degrees of a horizontal plane; at least one plant which grows within the filter bed; a reservoir for containing water for watering th
A plant air purifier and associated method for purifying air, comprising: at least one grow container; a filter bed comprising a surface which is horizontal within 20 degrees of a horizontal plane; at least one plant which grows within the filter bed; a reservoir for containing water for watering the at least one plant; a mechanical watering device which waters the filter bed from the top down; a pump for pumping water from the reservoir to and through the mechanical watering device; and an air propulsion mechanism for propelling air through the filter bed.
대표청구항▼
1. A plant air purifier, comprising: a filter bed;at least one plant growing within said filter bed;a mechanical watering device which waters said filter bed from the top down;an air propulsion mechanism for propelling air through said filter bed; anda computerized control system controlling said ai
1. A plant air purifier, comprising: a filter bed;at least one plant growing within said filter bed;a mechanical watering device which waters said filter bed from the top down;an air propulsion mechanism for propelling air through said filter bed; anda computerized control system controlling said air propulsion mechanism by at least one of: shutting off said air propulsion mechanism based upon when said mechanical watering device is watering said filter bed; and turning on said air propulsion mechanism based upon water having substantially ceased draining though said filter bed. 2. The plant air purifier of claim 1, further comprising a grow lamp for providing light to said at least one plant, comprising at least one light emitting diode (LED). 3. The plant air purifier of claim 1, further comprising: a reservoir for containing water for watering said at least one plant; andsaid computerized control system shutting off said air propulsion mechanism, responsive to detecting when said reservoir is low on water. 4. The plant air purifier of claim 1, further comprising said computerized control system shutting off said air propulsion mechanism when said mechanical watering device is watering said filter bed. 5. The plant air purifier of claim 1, further comprising said computerized control system deactivating said air propulsion mechanism from functioning for a time period after said mechanical watering device has ceased watering said filter bed, to allow excess water within said filter bed to substantially drain through said filter bed due to gravity without being propelled by the air propulsion mechanism whereby it might overly saturate the indoor air of a habitable structure. 6. The plant air purifier of claim 5, further comprising: a moisture sensor for sensing moisture within said filter bed; wherein:said time period is determined by said moisture sensor sensing that said excess water has substantially drained though said filter bed. 7. The plant air purifier of claim 1, further comprising: a light sensitive device for sensing a degree of ambient light in a space in which said air purifier is placed;a grow lamp for providing light to said at least one plant; andsaid computerized control system controlling activation and deactivation of said grow lamp responsive to said sensing said degree of ambient light. 8. The plant air purifier of claim 7, said computerized control system activating said grow lamp responsive to determining that said degree of ambient light is insufficient for said at least one plant. 9. The plant air purifier of claim 1, further comprising: a light sensitive device for sensing a degree of ambient light in a space in which said air purifier is placed; andsaid computerized control system controlling activation and deactivation of said air propulsion mechanism responsive to said sensing said degree of ambient light. 10. The plant air purifier of claim 9, said computerized control system activating or deactivating said air propulsion mechanism responsive to determining that said space is substantially dark. 11. The plant air purifier of claim 1, said mechanical watering device comprising a micro-irrigation system comprising at least one irrigation source outlet for delivering water to said filter bed in a substantially-uniform fashion. 12. The plant air purifier of claim 1, further comprising at least one plant support selected from the group consisting of: a canopy; a trellis; wires; and strands; for substantially preventing plants rooted in said filter bed from contacting said filter bed, thereby facilitating said delivering water to said filter bed in a substantially-uniform fashion. 13. The plant air purifier of claim 1, further comprising said computerized control system for performing at least one control function selected from the control function group consisting of: operating said air propulsion mechanism based on when said mechanical watering device is watering said filter bed;operating said air propulsion mechanism based on a time of day;operating said air propulsion mechanism based on a day of the week;operating a grow lamp for providing light to said at least one plant, based on a time of day;actuating a signal discernable by a user when water in said reservoir is low;operating said grow lamp based on a degree of ambient light in a space in which said air purifier is placed;operating said mechanical watering device based on a time of day; andoperating said mechanical watering device based sensing a moisture content in said filter bed. 14. The plant air purifier of claim 13, further comprising a user input/output device for a user to program said computerized control system and thereby predetermine the control functions controlled thereby. 15. The plant air purifier of claim 1, further comprising ultraviolet light for application to air flowing out of said filter bed, for reducing mold and mildew. 16. The plant air purifier of claim 1, further comprising said computerized control system for receiving sensed information from at least one sensor selected from the sensor group consisting of: a moisture sensor for sensing moisture in said filter bed;a level sensor for sensing a water level in said reservoir;a light sensitive device for sensing a degree of ambient light in a space in which said air purifier is placed; anda motion sensor for sensing motion nearby to said air purifier; andsaid computerized control system, responsive to at least one of said sensors, for performing at least one control function selected from the control function group consisting of:operating a LED grow lamp for providing light to said at least one plant;operating said air propulsion mechanism;applying ultraviolet to air flowing out of said filter bed, for reducing mold and mildew;actuating a signal discernable by a user when a condition exists which requires user attention; andoperating said mechanical watering device. 17. The plant air purifier of claim 1, further comprising said computerized control system for receiving sensed information from at least two sensors selected from the sensor group consisting of: a moisture sensor for sensing moisture in said filter bed;a level sensor for sensing a water level in said reservoir;a light sensitive device for sensing a degree of ambient light in a space in which said air purifier is placed; anda motion sensor for sensing motion nearby to said air purifier:said computerized control system, responsive to at least one of said sensors, for performing at least three control functions selected from the control function group consisting of:operating a LED grow lamp for providing light to said at least one plant;operating said air propulsion mechanism;applying ultraviolet to air flowing out of said filter bed, for reducing mold and mildew;actuating a signal discernable by a user when a condition exists which requires user attention; andoperating said mechanical watering device. 18. The plant air purifier of claim 1, further comprising said computerized control system for receiving sensed information from: a moisture sensor for sensing moisture in said filter bed;a level sensor for sensing a water level in said reservoir;a light sensitive device for sensing a degree of ambient light in a space in which said air purifier is placed; anda motion sensor for sensing motion nearby to said air purifier:said computerized control system, responsive to at least one of said sensors, for performing the control functions of:operating a LED grow lamp for providing light to said at least one plant;operating said air propulsion mechanism;applying ultraviolet to air flowing out of said filter bed, for reducing mold and mildew;actuating a signal discernable by a user when a condition exists which requires user attention; andoperating said mechanical watering device. 19. The plant air purifier of claim 1, further comprising pumping some of said water to a bottom of said filter bed and thereby watering said filter bed from a bottom up in addition to said watering the filter bed from the top down. 20. The plant air purifier of claim 1, integrated into a ducting system of a habitable structure in which said air purifier is placed. 21. The plant air purifier of claim 1, further comprising: a motion sensor for sensing motion nearby to said air purifier;said computerized control system responsive to said motion sensor for performing at least one control function selected from the control function group consisting of:operating a LED grow lamp for providing light to said at least one plant;operating said air propulsion mechanism;applying ultraviolet to air flowing out of said filter bed, for reducing mold and mildew;actuating a signal discernable by a user when a condition exists which requires user attention; andoperating said mechanical watering device. 22. A method for purifying air using a plant air purifier, comprising: providing a filter bed;growing at least one plant within said filter bed;watering said filter bed from the top down, using a mechanical watering device;propelling air through said filter bed using an air propulsion mechanism; andcontrolling said air propulsion mechanism using a computerized control system by at least one of: shutting off said air propulsion mechanism based upon when said mechanical watering device is watering said filter bed; and turning on said air propulsion mechanism based upon water having substantially ceased draining though said filter bed. 23. The method of claim 22, further comprising providing light to said at least one plant, using a grow lamp comprising at least one light emitting diode (LED). 24. The method of claim 22, further comprising: containing within a reservoir, water for watering said at least one plant; andshutting off said air propulsion mechanism, responsive to detecting when said reservoir is low on water. 25. The method of claim 22, further comprising shutting off said air propulsion mechanism, when said mechanical watering device is watering said filter bed. 26. The method of claim 22, further comprising deactivating said air propulsion mechanism from functioning for a time period after said mechanical watering device has ceased watering said filter bed, to allow excess water within said filter bed to substantially drain through said filter bed due to gravity without being propelled by the air propulsion mechanism whereby it might overly saturate the indoor air of a habitable structure. 27. The method of claim 26, further comprising determining said time period in response to a moisture sensor for sensing moisture within said filter bed sensing that said excess water has substantially drained though said filter bed. 28. The method of claim 22, further comprising activating and deactivating a grow lamp for providing light to said at least one plant, responsive to sensing a degree of ambient light using a light sensitive device. 29. The method of claim 28, further comprising activating said grow lamp responsive to determining that said degree of ambient light is insufficient for said at least one plant. 30. The method of claim 22, further comprising activating and deactivating said air propulsion mechanism responsive to sensing a degree of ambient light using a light sensitive device. 31. The method of claim 30, further comprising activating or deactivating said air propulsion mechanism responsive to determining that said space is substantially dark. 32. The method of claim 22, further comprising delivering water to said filter bed in a substantially-uniform fashion, using said mechanical watering device comprising a micro-irrigation system comprising at least one irrigation source outlet thereof. 33. The method of claim 22, further comprising supporting said at least one plant using at least one plant support selected from the group consisting of: a canopy; a trellis; wires; and strands; for substantially preventing plants rooted in said filter bed from contacting said filter bed, thereby facilitating said delivering water to said filter bed in a substantially-uniform fashion. 34. The method of claim 22, further comprising performing at least one control function selected from the control function group consisting of: operating said air propulsion mechanism based on when said mechanical watering device is watering said filter bed;operating said air propulsion mechanism based on a time of day; operating said air propulsion mechanism based on a day of the week;operating a grow lamp for providing light to said at least one plant, based on a time of day;actuating a signal discernable by a user when water in said reservoir is low;operating said grow lamp based on a degree of ambient light in a space in which said air purifier is placed;operating said mechanical watering device based on a time of day; andoperating said mechanical watering device based sensing a moisture content in said filter bed. 35. The method of claim 34, further comprising a user programming and thereby predetermining, said control functions. 36. The method of claim 22, further comprising reducing mold and mildew by applying ultraviolet light to air flowing out of said filter bed. 37. The method of claim 22, further comprising receiving sensed information from at least one sensor selected from the sensor group consisting of: a moisture sensor for sensing moisture in said filter bed;a level sensor for sensing a water level in said reservoir;a light sensitive device for sensing a degree of ambient light in a space in which said air purifier is placed; anda motion sensor for sensing motion nearby to said air purifier; andresponsive to at least one of said sensors, performing at least one control function selected from the control function group consisting of:operating a LED grow lamp for providing light to said at least one plant;operating said air propulsion mechanism;applying ultraviolet to air flowing out of said filter bed, for reducing mold and mildew;actuating a signal discernable by a user when a condition exists which requires user attention; andoperating said mechanical watering device. 38. The method of claim 22, further comprising receiving sensed information from at least two sensors selected from the sensor group consisting of: a moisture sensor for sensing moisture in said filter bed;a level sensor for sensing a water level in said reservoir;a light sensitive device for sensing a degree of ambient light in a space in which said air purifier is placed; anda motion sensor for sensing motion nearby to said air purifier; andresponsive to at least one of said sensors, performing at least three control functions selected from the control function group consisting of:operating a LED grow lamp for providing light to said at least one plant;operating said air propulsion mechanism;applying ultraviolet to air flowing out of said filter bed, for reducing mold and mildew;actuating a signal discernable by a user when a condition exists which requires user attention; andoperating said mechanical watering device. 39. The method of claim 22, further comprising receiving sensed information from: a moisture sensor for sensing moisture in said filter bed;a level sensor for sensing a water level in said reservoir;a light sensitive device for sensing a degree of ambient light in a space in which said air purifier is placed; anda motion sensor for sensing motion nearby to said air purifier; andresponsive to said sensors:operating a LED grow lamp for providing light to said at least one plant;operating said air propulsion mechanism;applying ultraviolet to air flowing out of said filter bed, for reducing mold and mildew;actuating a signal discernable by a user when a condition exists which requires user attention; andoperating said mechanical watering device. 40. The method of claim 22, further comprising pumping some of said water to a bottom of said filter bed and thereby watering said filter bed from a bottom up in addition to said watering the filter bed from the top down. 41. The method of claim 22, further comprising integrating said plant air purifier into a ducting system of a habitable structure in which said air purifier is placed. 42. The method of claim 22, further comprising: responsive to sensing motion nearby to said air purifier, performing at least one control function selected from the control function group consisting of:operating a LED grow lamp for providing light to said at least one plant;operating said air propulsion mechanism;applying ultraviolet to air flowing out of said filter bed, for reducing mold and mildew;actuating a signal discernable by a user when a condition exists which requires user attention; andoperating said mechanical watering device. 43. The plant air purifier of claim 1, said filter bed comprising a surface which is horizontal within 20 degrees of a horizontal plane. 44. The method of claim 22, further comprising providing said filter bed comprising a surface which is horizontal within 20 degrees of a horizontal plane.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (31)
West Donald E. ; Wickham Richard E., Air purification method.
Wolverton Billy C. (726 Pine Grove Rd. Picayune MS 39466) Wolverton John D. (P.O. Box 411 Picayune MS 39466), Apparatus for purifying waste water and air in an indoor environment.
Wolverton Billy C. (726 Pine Grove Rd. Picayune MS 39466) Wolverton John D. (P.O. Box 411 Picayune MS 39466), Combined lamp and indoor air purification apparatus.
Garunts Feliks (1422 N. Tamarind Ave. ; Apt. #8 Los Angeles CA 90028) Darbinyan Robert (D17ur. Sundukyana #87 Yerevan 375012 ; Armenia SUX), Room air environment conditioner.
Fritz Patrice (11c rue d\Altenheim 67100 Strasbourg FRX), Unit for filtration and neutralization of sulfurous anhydride contained in smoke from a boiler.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.