Intelligent environmental sensor for irrigation systems
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06F-019/00
G05D-007/00
출원번호
US-0314451
(2005-12-20)
등록번호
US-7363113
(2008-04-22)
발명자
/ 주소
Runge,Thomas H.
Downie,Bruce M.
출원인 / 주소
The Toro Company
대리인 / 주소
Inskeep IP Group, Inc.
인용정보
피인용 횟수 :
33인용 특허 :
24
초록▼
The invention provides a regulator system for regulating the operation of an irrigation system which is responsive to user programmed information. It has a control element for issuing watering control signals to an irrigation system, having at least one of (i) a duration programming device for progr
The invention provides a regulator system for regulating the operation of an irrigation system which is responsive to user programmed information. It has a control element for issuing watering control signals to an irrigation system, having at least one of (i) a duration programming device for programming a minimum amount of time and a maximum amount of time for the suspension of watering by the irrigation system, and (ii) a user adjustable temperature programming device for programming a minimum allowed temperature for initiating a watering period by the irrigation system. It further has an irrigation system interface for connecting said control element with the irrigation system. It also has a switch for conveying the control signals from the control element to the irrigation system via the irrigation system interface, for either permitting or prohibiting watering by the irrigation system, responsive to the control signals generated by and received from the control element.
대표청구항▼
What is claimed is: 1. A regulator system for an irrigation system comprising: a rainfall accumulation sensor for measuring and communicating a quantity of accumulated rainfall; a control element in communication with said rainfall accumulation sensor to receive information indicative of a quantity
What is claimed is: 1. A regulator system for an irrigation system comprising: a rainfall accumulation sensor for measuring and communicating a quantity of accumulated rainfall; a control element in communication with said rainfall accumulation sensor to receive information indicative of a quantity of rainfall from said rainfall accumulation sensor; a user input coupled to said control element for setting a minimum time to interrupt said irrigation system from irrigating based on said information indicative of a quantity of rainfall received from said rainfall accumulation sensor; and an irrigation system interface connecting said control element to said irrigation system; said irrigation system interface having a routine to interrupt irrigation for at least said minimum time in at least a portion of said irrigation system in response to information received from said control element. 2. The regulator system of claim 1, wherein said user input is coupled to said control element for further setting a maximum time to interrupt said irrigation system. 3. The regulator system of claim 1, further comprising a temperature sensor in communication with said control element; said user input coupled to said control element for setting a minimum temperature at which to interrupt said irrigation system from irrigation. 4. The regulator system of claim 3, wherein said user input is coupled to said control element for further setting a maximum time at which to interrupt said irrigation system from irrigation. 5. The regulator system of claim 1, wherein said communication between said control element and said rainfall accumulation sensor is a wireless transmission. 6. The regulator system of claim 5, further comprising a display in communication with said control element to display a wireless signal strength of a wireless transceiver coupled to said rainfall accumulation sensor. 7. The regulator system of claim 1, wherein said routine of said irrigation system interface interrupts a circuit of said irrigation system. 8. The regulator system of claim 1, wherein said control element is integrated within an irrigation controller of said irrigation system. 9. The regulator system of claim 1, wherein said control element is external to an irrigation controller of said irrigation system. 10. A regulator system for an irrigation system comprising: a rainfall detection sensor for sensing a presence of rainfall; a control element in communication with said rainfall detection sensor to receive a signal indicative of said presence of rainfall from said rainfall detection sensor; a user input coupled to said control element to set a minimum time to interrupt said irrigation system from irrigating after receiving said signal from said rainfall detection sensor; and an irrigation system interface connecting said control element to said irrigation system; said irrigation system interface having a routine to interrupt irrigation for said minimum time in at least a portion of said irrigation system in response to information received from said control element. 11. The regulator system of claim 10, wherein said user input is coupled to said control element to further set a maximum time to interrupt said irrigation system. 12. The regulator system of claim 10, further comprising a temperature sensor in communication with said control element; said user input coupled to said control element for further setting a minimum temperature at which to interrupt said irrigation system from irrigation. 13. The regulatory system of claim 12, wherein said user input is coupled to said control element for further setting a maximum temperature at which to interrupt said irrigation system from irrigation. 14. The regulator system of claim 10, wherein said communication between said control element and said rainfall detection sensor is a wireless transmission. 15. The regulator system of claim 14, further comprising a display in communication with said control element to display a wireless signal strength of a wireless transceiver coupled to said rainfall detection sensor. 16. The regulator system of claim 10, wherein said routine of said irrigation system interface interrupts a circuit of said irrigation system. 17. The regulator system of claim 10, wherein said control element is integrated within an irrigation controller of said irrigation system. 18. The regulator system of claim 10, wherein said control element is external to an irrigation controller of said irrigation system. 19. The regulatory system of claim 10, further comprising a rainfall accumulation sensor in communication with said control element. 20. A method of selectively disabling an irrigation system comprising: providing a control element coupled to said irrigation system; setting a minimum interruption time for an irrigation system in said control element; communicating a rainfall signal from a rainfall sensor to said control element; interrupting irrigation of said irrigation system according to said rainfall signal for at least said minimum interruption time. 21. The method of claim 20, further comprising setting a maximum interruption time for said irrigation system in said control element; and interrupting said irrigation of said irrigation system according to said rainfall signal for at most said maximum interruption time. 22. The method of claim 20, wherein said communicating a rainfall signal from a rainfall sensor to said control element includes wirelessly transmitting said rainfall signal. 23. The method of claim 20, further comprising: setting a minimum irrigation temperature for said irrigation system in said control element; communicating a temperature signal from a temperature sensor to said control element; and interrupting irrigation of said irrigation system when said temperature signal is below said minimum irrigation temperature. 24. The method of claim 20, wherein said rainfall sensor is a rainfall accumulation sensor. 25. The method of claim 24, wherein said rainfall accumulation sensor includes hygroscopic material. 26. The method of claim 20, wherein said rainfall sensor is a rainfall detection sensor. 27. A regulator system for an irrigation system comprising: a rainfall detection sensor for sensing a presence of rainfall; a control element in communication with said rainfall detection sensor to receive a signal indicative of said presence of rainfall; said control element having a maximum interruption time; and an irrigation system interface connection said control element to said irrigation system and having a routine to interrupt irrigation in at least a portion of said irrigation systems in response to a signal received from said control element; said control element interrupting irrigation of said irrigation system for a time no greater than said maximum interruption time. 28. The regulator system of claim 27, wherein said control element having a minimum interruption time; said control element further interruption said irrigation for a time no less than directs said minimum interruption time. 29. The regulator system of claim 27, further comprising a temperature sensor in communication with said control element; said user input coupled to said control element for establishing a minimum temperature at which to interrupt said irrigation system from irrigation. 30. The regulatory system of claim 27, wherein said user input is coupled to said control element for further establishing a maximum temperature at which to interrupt said irrigation system from irrigation. 31. The regulator system of claim 27, wherein said communication between said control element and said rainfall detection sensor is a wireless transmission. 32. The regulator system of claim 31, further comprising a display in communication with said control element to display a wireless signal strength of a wireless transceiver coupled to said rainfall detection sensor. 33. The regulator system of claim 27, wherein said routine of said irrigation system interface interrupts a circuit of said irrigation system. 34. The regulator system of claim 27, wherein said control element is integrated within an irrigation controller of said irrigation system. 35. The regulator system of claim 27, wherein said control element is external to an irrigation controller of said irrigation system. 36. The regulatory system of claim 27, further comprising a rainfall accumulation sensor.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (24)
Mark Arnold (2485 Malibu Rd. Bellmore NY 11710), Automatic irrigation water conservation controller.
Klinefelter, Paul A.; Coppola, Barbara A.; Gardner, Craig S.; Warren, Jr., Philip H., Quick shut-off extended range hygroscopic rain sensor for irrigation systems.
Standerfer, Paul A.; Mock, Gerald L.; Iev, Utah; Fuller, John F.; Nguyen, Tu Minh; Hill, Jason Lester; Myers, Scott Vincent; Crain, Stephan; Snow, Steven A.; Campbell, Stanley C.; Huffman, Russ, Central irrigation control system.
Alexanian, George, Landscape irrigation management with automated water budget and seasonal adjust, and automated implementation of watering restrictions.
Alexanian, George, Landscape irrigation management with automated water budget and seasonal adjust, and automated implementation of watering restrictions.
Altieri, Greig E.; Davenport, Matthew K.; Jelinek, Howard J.; Kim, Jae Y.; Ortiz, Henry M., Modulated watering device based on watering index percentage.
Redmond, David M.; Tennyson, Michael J.; Hern, Randall A.; Peterson, Gerald E., User interface for a sensor-based interface device for interrupting an irrigation controller.
Redmond, David M.; Tennyson, Michael J.; Hern, Randall A.; Peterson, Gerald E.; Fern, David G., User interface for a sensor-based interface device for interrupting an irrigation controller.
Ensworth, Mark M.; Booth, Barbara E.; Thornton, Dean C.; Fern, David G.; Hern, Randall A.; Napier, Malcolm N., Wireless extension to an irrigation control system and related methods.
Ensworth, Mark M.; Booth, Barbara E.; Thornton, Dean C.; Fern, David G.; Hern, Randall A.; Napier, Malcolm N., Wireless extension to an irrigation control system and related methods.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.