Irrigation system with ET based seasonal watering adjustment and soil moisture sensor shutoff
First Claim
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1. An irrigation system comprising:
- a stand alone weather station comprising a temperature sensor configured to detect ambient air temperature at an irrigation site and a solar radiation sensor configured to detect an amount of solar radiation at the irrigation site;
a soil moisture sensor configured to detect a level of soil moisture at the irrigation site; and
an irrigation controller operatively in communication with the soil moisture sensor and the stand alone weather station, the irrigation controller configured to enable a user to enter a watering schedule including a run time and to manually adjust the run time by a percentage, the irrigation controller comprising a computer processor, a memory storing programming implemented by the computer processor, and a plurality of switches operatively connected to the computer processor and configured to control a plurality of valves that deliver water to a plurality of sprinklers;
wherein the computer processor is configured to adjust the run time by the percentage, calculate an evapotranspiration (ET) value based at least in part on the ambient air temperature and the amount of solar radiation, automatically increase or decrease the percentage in response to the ET value, operate, in response to the user-entered watering schedule, ones of the plurality of switches to control one or more of the plurality of valves, and automatically inhibit irrigation when the level of soil moisture is above a threshold.
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Abstract
An irrigation system includes at least one environmental sensor, such as a solar radiation sensor that is installed on an irrigation site, and a soil moisture sensor that is also installed on the irrigation site. Programming allows an estimated ET value to be calculated based at least in part on the output signal of the environmental sensor. A pre-programmed watering schedule is automatically modified based on the estimated ET value to thereby conserve water while maintaining the health of plants on the irrigation site. The system automatically inhibits irrigation when an output signal of the soil moisture sensor indicates an amount of moisture in the soil is above a predetermined threshold.
178 Citations
20 Claims
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1. An irrigation system comprising:
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a stand alone weather station comprising a temperature sensor configured to detect ambient air temperature at an irrigation site and a solar radiation sensor configured to detect an amount of solar radiation at the irrigation site; a soil moisture sensor configured to detect a level of soil moisture at the irrigation site; and an irrigation controller operatively in communication with the soil moisture sensor and the stand alone weather station, the irrigation controller configured to enable a user to enter a watering schedule including a run time and to manually adjust the run time by a percentage, the irrigation controller comprising a computer processor, a memory storing programming implemented by the computer processor, and a plurality of switches operatively connected to the computer processor and configured to control a plurality of valves that deliver water to a plurality of sprinklers; wherein the computer processor is configured to adjust the run time by the percentage, calculate an evapotranspiration (ET) value based at least in part on the ambient air temperature and the amount of solar radiation, automatically increase or decrease the percentage in response to the ET value, operate, in response to the user-entered watering schedule, ones of the plurality of switches to control one or more of the plurality of valves, and automatically inhibit irrigation when the level of soil moisture is above a threshold. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 11, 12, 13)
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9. An irrigation system comprising:
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a temperature sensor configured to generate a first signal representative of ambient air temperature; a soil moisture sensor configured to generate a second signal representative of a soil moisture level; a solar radiation sensor configured to generate a signal representative of an amount of solar radiation; a rain sensor configured to detect a rain event, and a computer processor operatively connected to a plurality of user inputs that enable a user to enter a watering schedule including a run time and to manually adjust the run time by a percentage, the computer processor further operatively connected to a memory storing the watering schedule and programming that is implemented by the computer processor; and a plurality of switches operatively connected to the computer processor and configured to control a plurality of valves that deliver water to a plurality of sprinklers; the computer processor configured to adjust the run time by the percentage, calculate an evapotranspiration (ET) value based at least in part on the ambient air temperature and the amount of solar radiation, automatically increase or decrease the percentage in response to the ET value, and operate, in response to the user-entered watering schedule, ones of the plurality of switches to control one or more of the plurality of valves; and the computer processor further configured to automatically inhibit irrigation when the soil moisture level is above a threshold, when the rain event is detected, or when the ambient air temperature is at or near freezing. - View Dependent Claims (14, 15, 16, 17, 18)
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10. A method of controlling a plurality of valves on an irrigation site, the method comprising:
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receiving a first signal representative of ambient air temperature at an irrigation site; detecting when the ambient air temperature is at or near freezing; receiving a second signal representative of a soil moisture level at the irrigation site; receiving a third signal representative of an amount of solar radiation at the irrigation site; detecting a rain event; receiving from a plurality of user inputs a watering schedule including a run time and a percentage by which to adjust the run time; adjusting the run time by the percentage; calculating an evapotranspiration (ET) value based at least in part on the ambient air temperature and the amount of solar radiation; automatically increasing or decreasing the percentage in response to the ET value; operating, in response to the user-entered watering schedule, ones of a plurality of switches to control one or more of a plurality of valves that deliver water to a plurality of sprinklers; and automatically inhibiting irrigation when the soil moisture level is above a threshold, when the rain event is detected, or when the ambient air temperature is at or near freezing. - View Dependent Claims (19, 20)
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Specification