Moisture sensor and irrigation control system
First Claim
1. A soil probe system configured to control the level of soil moisture in a watering area, comprising:
- a first moisture probe including a first electrode having a substantially elongated, flat shape, said first electrode having a length, a width, and a thickness, a second electrode having a length, a width, and a thickness that are each substantially identical to said length, width, and thickness of said first electrode, said second electrode being oriented substantially aligned and parallel to said first electrode, said first electrode being spaced apart from said second electrode by a predetermined distance, and spacers removably connected to said first electrode and second electrode for maintaining the orientation of said first electrode relative to said second electrode when the electrodes are embedded in soil;
a source of electrical power connected to said first and second electrode for applying a first electrical potential to said first and second electrode;
a first control unit for measuring the electrical potential between said first and second electrode when said first and second electrodes are embedded in soil, said first control unit configured to disable a flow of electrical power from said source of electrical power to a first water valve if said first electrical potential is below a predetermined value.
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Accused Products
Abstract
Disclosed is a control system for regulating irrigation to an area of land. The irrigation control system includes a control unit, a photosensor, a timer or controller and a moisture probe for sensing the moisture level in the area to be watered. The control unit is configured to disable power to the system if the moisture level in the area of land exceeds a predetermined level as measured by the moisture probe, which is buried in the watering area. In a preferred embodiment, the moisture probe consists of two electrode plates, preferably manufactured of high purity copper, that are oriented parallel to one another. The electrode plates each have a predetermined length and thickness and are separated by a predetermined distance, each of which are configured to optimize the moisture detecting characteristics of the probe. The control unit applies an electrical potential across the electrode plates such that the resistance of the soil located therebetween varies as a function of moisture content. The control unit measures the soil resistance to thereby determine the moisture content of the soil.
64 Citations
26 Claims
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1. A soil probe system configured to control the level of soil moisture in a watering area, comprising:
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a first moisture probe including a first electrode having a substantially elongated, flat shape, said first electrode having a length, a width, and a thickness, a second electrode having a length, a width, and a thickness that are each substantially identical to said length, width, and thickness of said first electrode, said second electrode being oriented substantially aligned and parallel to said first electrode, said first electrode being spaced apart from said second electrode by a predetermined distance, and spacers removably connected to said first electrode and second electrode for maintaining the orientation of said first electrode relative to said second electrode when the electrodes are embedded in soil; a source of electrical power connected to said first and second electrode for applying a first electrical potential to said first and second electrode; a first control unit for measuring the electrical potential between said first and second electrode when said first and second electrodes are embedded in soil, said first control unit configured to disable a flow of electrical power from said source of electrical power to a first water valve if said first electrical potential is below a predetermined value. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
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17. A watering system for watering a series of soil watering zones comprising:
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a power supply for supplying power along a power path; a first soil probe system located along said power path and including a first water valve connected to a first sprinkler, a first soil moisture probe configured to measure the moisture level in a first soil watering zone, and a first control unit communicating with said first moisture probe and said first water valve, said first control unit configured to close the first water valve if said soil moisture level is below a predetermined level; a second soil probe system located along said power path, said second soil probe system including a second water valve connected to a second sprinkler, a second moisture probe configured to measure the moisture level in a second soil watering zone, and a second control unit configured to close the second water valve if the moisture level in the second soil watering zone is below said predetermined level; a relay located in said power path between said power supply and said second soil probe system, said relay controlled by said first control system to allow power to flow across said relay to said second soil probe system when the moisture level in the first soil watering zone is greater than or equal to said predetermined level, and to inhibit power from passing across said relay when the moisture level in the first zone watering zone less than the predetermined level; wherein the first and second moisture probes each comprise a first electrode having a substantially elongated, flat shape, said first electrode having a length, a width, and a thickness, a second electrode having a length, a width, and a thickness that are each substantially identical to said length, width, and thickness of said first electrode, said second electrode being oriented substantially aligned and parallel to said first electrode, said first electrode being space apart from said second electrode by a predetermined distance, and spacers removably connected to said first electrode and second electrode for maintaining the orientation of said first electrode relative to said second electrode. - View Dependent Claims (18, 19, 20, 21, 22, 23, 24, 25, 26)
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Specification