Irrigation flow sensor systems and methods of controlling irrigation

What is claimed is: 1 . A water flow controlled irrigation system, comprising: an irrigation water flow sensor system comprising: a housing comprising a pipe nesting surface, wherein the pipe nesting surface is configured to be positioned adjacent with an exterior surface of an irrigation pipe that is configured to allow water to flow therethrough; an acoustic sensor secured with the housing proximate the pipe nesting surface; a sensor control circuit communicatively coupled with the acoustic sensor and configured to receive acoustic data, and identify based on the acoustic data when a change in detected acoustic data is consistent with a first predefined acoustic pattern; and a flow indicator output communicatively coupled with the sensor control circuit and configured to further couple with a separate irrigation controller that is configured to control irrigation valves of the irrigation system in accordance with an irrigation schedule, and wherein the sensor control circuit is configured to activate a first flow notification from the flow indicator output when the change in detected acoustic data is consistent with the first predefined acoustic pattern. 2 . The water flow controlled irrigation system of claim 1 , wherein the flow indicator output comprises a wireless transceiver configured to wirelessly communicate the first flow notification to the separate irrigation controller. 3 . The water flow controlled irrigation system of claim 1 , wherein the flow indicator output comprises a common line switch configured to couple with a common line of the irrigation controller, wherein the sensor control circuit is configured to open the common line switch to activate the first flow notification and interrupt the irrigation schedule being implemented by the irrigation controller. 4 . The water flow controlled irrigation system of claim 1 , wherein the flow indicator output comprises a switch configured to couple with a sensor input of the separate irrigation controller, wherein the sensor control circuit is configured to change a state of the switch to activate the first flow notification to be detected by the irrigation controller. 5 . The water flow controlled irrigation system of claim 1 , wherein the sensor control circuit is configured to compare the change in the acoustic data with a set of multiple predefined acoustic patterns including the first predefined acoustic pattern, and determine an estimated first flow rate of the water within the irrigation pipe based on the change in acoustic data being consistent with the first predefined acoustic pattern of the set of the multiple predefined acoustic patterns. 6 . The water flow controlled irrigation system of claim 5 , wherein the sensor control circuit in activating the first flow notification is configured to cause a first pattern of pulses to be communicated to the irrigation controller indicative of the estimated first flow rate and configured to be interpreted by the irrigation controller as corresponding to the estimated first flow rate. 7 . The water flow controlled irrigation system of claim 4 , wherein the sensor control circuit in activating the first flow notification is configured to output one of at least two values based on the estimated first flow rate comprising a first output value representative of an excessive water flow condition and a second output value representative of a low water flow condition, wherein the low water flow condition corresponds to a lower than normal amount of water flow, and wherein the excessive water flow condition corresponds to a higher than normal amount of water flow. 8 . The water flow controlled irrigation system of claim 1 , wherein the sensor control circuit is configured to operate in a learn state and determine the first predefined acoustic pattern while in the learn state as a function of detected acoustic data while in the learn state. 9 . The water flow controlled irrigation system of claim 1 , further comprising: a pipe temperature sensor secured with the housing proximate the pipe nesting surface; an environment temperature sensor secured with the housing proximate an exterior housing surface of the housing; the sensor control circuit communicatively coupled with the pipe temperature sensor and the environment temperature sensor and configured to: receive pipe temperature data from the pipe temperature sensor and environment temperature data from the environment temperature sensor; detect an occurrence of a threshold temperature difference between the pipe temperature data and the environment temperature data; and activate a second flow notification from the flow indicator output based on the detected threshold temperature difference occurring between the pipe temperature data and the environment temperature data. 10 . The water flow controlled irrigation system of claim 1 , further comprising: the irrigation controller configured to receive the first flow notification, determine a water flow rate within the irrigation pipe based on the first flow notification, determine whether the determined water flow rate exceeds a first flow rate threshold, and initiate an action when the determined water flow rate exceeds the first flow rate threshold. 11 . A method of controlling irrigation based on water flow, comprising: non-invasively detecting, from external to an irrigation pipe, acoustic data relative to water flow within the irrigation pipe configured to allow water to flow through an irrigation system; identifying based on the acoustic data when a change in detected acoustic data is consistent with a first predefined acoustic pattern corresponding to a predefined flow rate; and activating a first flow notification from a flow indicator output, which is configured to couple with a separate irrigation controller that is configured to control irrigation valves of the irrigation system in accordance with a defined irrigation schedule, when the change in the detected acoustic data is consistent with the first predefined acoustic pattern. 12 . The method of claim 11 , wherein the activating the first flow notification comprises wirelessly communicating the first flow notification to the irrigation controller. 13 . The method of claim 11 , wherein the activating the first flow notification comprises opening a common line switch coupled with a common line of the irrigation controller and interrupting the irrigation schedule being implemented by the irrigation controller. 14 . The method of claim 11 , wherein activating the first flow notification comprises causing a change in state of a switch configured to couple with a sensor input of the separate irrigation controller wherein the change is state of the switch is to be detected by the irrigation controller and be utilized by the irrigation controller in interrupting the irrigation schedule being implemented by the irrigation controller. 15 . The method of claim 11 , further comprising: comparing the change in the acoustic data with a set of multiple predefined acoustic patterns, including the first predefined acoustic pattern; and determining an estimated first flow rate of the water within the irrigation pipe based on the change in acoustic data being consistent with the first predefined acoustic pattern of the set of the multiple predefined acoustic patterns. 16 . The method of claim 15 , wherein the activating the first flow notification comprises causing a first pattern of pulses to be communicated to the irrigation controller indicative of the estimated first flow rate and configured to be interpre