IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0225110
(2011-09-02)
|
등록번호 |
US-8193930
(2012-06-05)
|
발명자
/ 주소 |
- Petite, Thomas David
- Huff, Richard M
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출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
45 인용 특허 :
5 |
초록
▼
Embodiments of the present invention are generally directed to systems and methods for remote irrigation control. An exemplary embodiment of the present invention provides a remote irrigation control system having a rain sensor enabled to detect the amount of rain received in a first rain area, and
Embodiments of the present invention are generally directed to systems and methods for remote irrigation control. An exemplary embodiment of the present invention provides a remote irrigation control system having a rain sensor enabled to detect the amount of rain received in a first rain area, and a first local transceiver in communication with the rain sensor, the first local transceiver configured to receive information from the rain sensor and transmit the information to a gateway, the first local transceiver also configured to receive information from the gateway. The gateway is connected to a wide area network and configured to receive information from the first local transceiver and transmit the information to the wide area network, the gateway also configured to receive information from the wide area network and transmit the information to the first local transceiver. Other aspects, features, and embodiments are also claimed and described.
대표청구항
▼
1. A remote irrigation control system, comprising: a rain sensor enabled to detect the amount of rain received in a first rain area; anda first local transceiver in communication with the rain sensor, the first local transceiver configured to receive information from the rain sensor and transmit the
1. A remote irrigation control system, comprising: a rain sensor enabled to detect the amount of rain received in a first rain area; anda first local transceiver in communication with the rain sensor, the first local transceiver configured to receive information from the rain sensor and transmit the information to a gateway, the first local transceiver also configured to receive information from the gateway,wherein the gateway is connected to a wide area network and configured to receive information from the first local transceiver and transmit the information to the wide area network, the gateway also configured to receive information from the wide area network and transmit the information to the first local transceiver. 2. The remote irrigation control system in claim 1, further comprising a water control assembly in communication with a second local transceiver, the water control assembly including at least one water supply valve, at least one actuator and at least one water spray head. 3. The remote irrigation control system in claim 2, wherein the second local transceiver is enabled to receive a first control signal from the gateway and communicate the first control signal to the water control assembly. 4. The remote irrigation control system in claim 3, wherein the first control signal instructs the water control assembly to activate the at least one actuator to open the at least one water supply valve and activate the at least one water spray head. 5. The remote irrigation control system in claim 4, further comprising a server connected to the wide area network configured to receive information from the first local transceiver and transmit the information to the gateway. 6. The remote irrigation control system in claim 5, wherein the server is configured to receive information from the first rain sensor regarding the amount of rain received in a first rain area. 7. The remote irrigation control system in claim 6, wherein the server is configured to transmit a second control signal to the second local transceiver regarding control of the water control assembly. 8. The remote irrigation control system in claim 6, wherein the rain sensor is enabled to detect the amount of water applied by the water control assembly in a first rain area. 9. The remote irrigation control system in claim 8, server is configured to receive information from the first rain sensor regarding the amount of water applied by the water control assembly in a first rain area. 10. The remote irrigation control system in claim 6, server is configured to transmit a third control signal to the second local transceiver, the third control signal instructs the water control assembly to deactivate the at least one actuator to close the at least one water supply valve. 11. A remote irrigation control system, comprising: a rain sensor enabled to detect the amount of rain received in a first rain area;a first local transceiver in communication with the rain sensor, the first local transceiver configured to receive information from the rain sensor and transmit the information to a gateway, the first local transceiver also configured to receive information from the gateway;wherein the gateway is connected to a wide area network and configured to receive information from the first local transceiver and transmit the information to the wide area network, the gateway also configured to receive information from the wide area network and transmit the information to the first local transceiver;a water control assembly in communication with the first local transceiver, the water control assembly including at least one water supply valve, at least one actuator and at least one water spray head; andwherein the first local transceiver is enabled to receive a first control signal from the gateway and communicate the first control signal to the water control assembly. 12. The remote irrigation control system in claim 11, the first control signal instructs the water control assembly to activate the at least one actuator to open the at least one water supply valve and activate the at least one water spray head. 13. The remote irrigation control system in claim 12, further comprising a server connected to the wide area network configured to receive information from the first local transceiver and transmit the information to the gateway. 14. The remote irrigation control system in claim 13, wherein the server is configured to receive information from the first rain sensor regarding the amount of rain received in a first rain area. 15. The remote irrigation control system in claim 14, wherein the server is configured to transmit a second control signal to the second local transceiver regarding control of the water control assembly. 16. The remote irrigation control system in claim 15, wherein the rain sensor is enabled to detect the amount of water applied by the water control assembly in a first rain area. 17. The remote irrigation control system in claim 16, server is configured to receive information from the first rain sensor regarding the amount of water applied by the water control assembly in a first rain area. 18. The remote irrigation control system in claim 17, server is configured to transmit a third control signal to the first local transceiver, the third control signal instructs the water control assembly to deactivate the at least one actuator to close the at least one water supply valve. 19. A remote irrigation control system, comprising: a rain sensor enabled to detect the amount of rain received in a first rain area;a first local transceiver in communication with the rain sensor, the first local transceiver configured to receive information from the rain sensor and transmit the information to a gateway, the first local transceiver also configured to receive information from the gateway;wherein the gateway is connected to a wide area network and configured to receive information from the first local transceiver and transmit the information to the wide area network, the gateway also configured to receive information from the wide area network and transmit the information to the first local transceiver; anda server connected to the wide area network configured to receive information from the first local transceiver and transmit the information to the gateway. 20. The remote irrigation control system in claim 19, wherein the server is configured to receive information from the first rain sensor regarding the amount of rain received in a first rain area.
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