Sprinkler control system

US 10,390,501 B1
Filed: 04/04/2017
Issued: 08/27/2019
Est. Priority Date: 04/04/2017
Status: Active Grant

First Claim

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1. An apparatus, comprising:

a housing containing a Wi-Fi enabled microcontroller and a relay switch disposed in the housing and in operable communication with the microcontroller;

a pair of wires extending from the housing to receive operational power for the microcontroller from a commercially available sprinkler controller;

a first control wire extending from the housing to connect to a first electrical terminal on the sprinkler controller for purpose of modifying an output of the sprinkler controller;

a second control wire extending from the housing to connect to a second electrical terminal on the sprinkler controller for purpose of modifying an output of the sprinkler controller, the first control wire and the second control wire to place the housing in-circuit with the sprinkler controller independent from electrical communication through any sprinkler valve; and

means to communicate information from the world wide web to the microcontroller to provide information upon which the decision made by the microcontroller to water or not to water may be based;

wherein;

the microcontroller is programmable to operate the relay switch and thereby interrupt any valve-operating electrical output from the sprinkler controller caused by a watering schedule of the sprinkler controller, electrical communication through the first control wire and second control wire being interruptible by the relay switch responsive to a plurality of input parameters comprising forecast rainfall, temperature, and wind speed.

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Abstract

A controller including Wi-Fi connectivity to the internet and adapted as an add-on over-riding controller for a controller of electric sprinkler valves. The over-riding controller provides local intelligence to optionally prevent an electrical output of the sprinkler controller from actuating a sprinkler valve if one or more parameter is exceeded.

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16 Claims

1. An apparatus, comprising:
- a housing containing a Wi-Fi enabled microcontroller and a relay switch disposed in the housing and in operable communication with the microcontroller;
  
  a pair of wires extending from the housing to receive operational power for the microcontroller from a commercially available sprinkler controller;
  
  a first control wire extending from the housing to connect to a first electrical terminal on the sprinkler controller for purpose of modifying an output of the sprinkler controller;
  
  a second control wire extending from the housing to connect to a second electrical terminal on the sprinkler controller for purpose of modifying an output of the sprinkler controller, the first control wire and the second control wire to place the housing in-circuit with the sprinkler controller independent from electrical communication through any sprinkler valve; and
  
  means to communicate information from the world wide web to the microcontroller to provide information upon which the decision made by the microcontroller to water or not to water may be based;
  
  wherein;
  
  the microcontroller is programmable to operate the relay switch and thereby interrupt any valve-operating electrical output from the sprinkler controller caused by a watering schedule of the sprinkler controller, electrical communication through the first control wire and second control wire being interruptible by the relay switch responsive to a plurality of input parameters comprising forecast rainfall, temperature, and wind speed.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. The apparatus according to claim 1, wherein:
    - certain operation of the relay switch by the microcontroller is based upon information received by the microcontroller from the world wide web and applied to user-defined or pre-programmed parameters.
  - 3. The apparatus according to claim 1, wherein:
    - certain operation of the relay switch to over-ride an electrical output from the sprinkler controller by the microcontroller is based upon information received from user input.
  - 4. The apparatus according to claim 1, wherein:
    - the relay switch is a solid-state relay switch.
  - 5. The apparatus according to claim 1, wherein:
    - the relay switch is normally open.
  - 6. The apparatus according to claim 1, further comprising:
    - software operable on a Wi-Fi enabled device to communicate set-up and operational parameters to the microcontroller, as required.
  - 7. The apparatus according to claim 1, wherein:
    - the microcontroller is structured to communicate wirelessly to the Wi-Fi enabled device.
  - 8. The apparatus according to claim 1, wherein:
    - the means to communicate information from the world wide web to the microcontroller is wireless.
  - 9. The apparatus according to claim 1, wherein:
    - certain operation of the relay switch by the microcontroller may be based upon a user over-ride command input through hardware associated with the housing or by way of Wi-Fi and the Wi-Fi enabled device.
  - 10. The apparatus according to claim 1, wherein:
    - in contrast to a parameter or command imposed by a central or cloud server based upon radar information for a large geographic area, the decision made by the microcontroller, to allow a watering event or to interrupt a watering event that is programmed by the sprinkler controller, is arrived at locally by the microcontroller using data communicated, from local weather stations, over the world wide web to the microcontroller.
  - 11. The apparatus according to claim 1, further comprising:
    - an electrical common connector associated with the housing and structured to couple with a common wire from a sprinkler valve, the common connector being in selectable electrical communication through the relay switch with the first control wire.

12. An apparatus, comprising:
- a sprinkler controller;
  
  a housing containing a Wi-Fi enabled microcontroller to communicate information from the world wide web to the microcontroller and a solid state, normally-open relay switch carried by the housing and in operable communication with the microcontroller;
  
  a pigtail extending from the housing and comprising a first lead and a second lead to receive operational power from the sprinkler controller and to communicate the operational power to the microcontroller;
  
  a first control wire extending from the housing and connected to a first rain sensor terminal of the sprinkler controller to modify a control output of the sprinkler controller;
  
  a second control wire extending from the housing and connected to a second rain sensor terminal of the sprinkler controller for purpose of modifying an output of the sprinkler controller by way of a rain sensor input of the sprinkler controller, electrical communication through the first control wire and second control wire between the housing and the sprinkler controller being interruptible by the relay switch and independent from electrical communication through any sprinkler valve;
  
  wherein;
  
  the microcontroller is programmable to operate the solid state relay switch responsive to acquiring and evaluating a plurality of parameters comprising forecast rainfall, temperature, and wind speed to interrupt electrical communication between the first rain sensor terminal and the second rain sensor terminal and thereby prevent the sprinkler controller from opening a sprinkler valve that is connected to the sprinkler controller.
- View Dependent Claims (13, 14, 15)
- - 13. The apparatus according to claim 12, wherein:
    - the microcontroller is programmed, to allow watering or to interrupt a watering event that is programmed by the sprinkler controller, based upon information parsed by the microcontroller from local weather stations and communicated over the world wide web to the microcontroller.
  - 14. The apparatus according to claim 12, further comprising:
    - an electrical common connector associated with the housing and structured to couple with a common wire from a sprinkler valve, the common connector being in selectable electrical communication, through the relay switch, with the first control wire.
  - 15. The apparatus according to claim 12, further comprising:
    - software operable on a hand-held device to communicate set-up and operational parameters to the microcontroller, as required.

16. A method, comprising:
- providing an intelligent add-on over-ride device to a consumer to provide enhanced sprinkler operation based upon a plurality of input parameters comprising forecast rainfall, temperature, and wind speed, the over-ride device comprising a Wi-Fi enabled microcontroller in operational association with a normally-open solid-state relay switch, a power input pigtail, a first control lead, and a second control lead, the solid-state relay switch being disposed to interrupt electrical communication along a path extending through the first control lead and the second control lead to prevent conventional electrical communication between a sprinkler timer/controller and one or more electrically controlled sprinkler valve;
  
  providing software for download over the world wide web, the software being operable on the microcontroller and establishing operational parameters for the microcontroller;
  
  instructing the consumer to download and install the software on a Wi-Fi enabled hand-held device;
  
  instructing the consumer to connect first and second wires of the pigtail to cooperating power output terminals of a commercially available sprinkler controller;
  
  instructing the consumer to connect the first control lead to a first rain sensor terminal of the sprinkler controller independent from electrical communication through any sprinkler valve;
  
  instructing the consumer to connect the second control lead to a second rain sensor terminal of the sprinkler controller independent from electrical communication through any sprinkler valve; and
  
  instructing the consumer to operate the software to place the microcontroller in communication with the world wide web by way of a wireless access point and to establish a plurality of optional interrupt parameters.

Specification

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Current Assignee
Technologywest, LLC
Original Assignee
Technology West LLC
Inventors
Schoenberg, Aaron G., Whitelock, Alexander S.
Primary Examiner(s)
Brown, Michael J

Application Number

US15/479,237
Time in Patent Office

875 Days
Field of Search

700 20, 700284
US Class Current
CPC Class Codes

A01G 25/16   Control of watering

G05B 19/042   using digital processors G0...

G05B 19/0426   Programming the control seq...

G05B 2219/2625   Sprinkler, irrigation, wate...

Sprinkler control system

First Claim

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Abstract

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16 Claims

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Sprinkler control system

First Claim

1 Assignment

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Accused Products

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Abstract

Citations

16 Claims

Specification

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Solutions

Use Cases

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