Wireless automated shutoff valve

The invention claimed is: 1. A water detector comprising: a housing; a first flow connector carried at an inflow end of the housing; a second flow connector carried at an outflow end of the housing; a water presence sensor carried by the housing; an electrically actuatable valve carried by the housing and having a first state and a second state; control circuits carried by the housing and coupled to the water presence sensor and the electrically actuatable valve; and a communications port coupled to the control circuits, wherein, responsive to a leakage indicating signal from the water presence sensor, the control circuits actuate the electrically actuatable valve to cause the electrically actuatable valve to change from the first state to the second state, and wherein the communications port is directly coupled to another water detector for receiving an alarm indicating signal therefrom to actuate the electrically actuatable valve and for transmitting the leakage indicating signal thereto to actuate a local water shutoff valve of the another water detector. 2. A detector as in claim 1 wherein the electrically actuatable valve is coupled to the first and second flow connectors, and wherein the first and second flow connectors are manually coupled to flexible water hoses. 3. A detector as in claim 1 further comprising: a second sensor carried outside of the housing; and a flexible connection member coupling the second sensor to the control circuits and positioning the second sensor relative to a local environment. 4. A detector as in claim 1 further comprising: a self-contained power supply, wherein the first and second flow connectors are threadably connected to a water supply. 5. A detector as in claim 3 wherein the control circuits include a wireless transmitter to forward the leakage indicating signal to a displaced monitoring system. 6. A detector as in claim 5 further comprising: a self-contained power supply, wherein the first and second flow connectors are threadably connected to a water supply. 7. A water detection system comprising: a plurality of modular water detectors, wherein each of the plurality of modular water detectors includes a respective housing, a respective first flow connector carried at a respective inflow end of the respective housing, a respective second flow connector carried at a respective outflow end of the respective housing, a respective water presence sensor carried by the respective housing, a respective electrically actuatable valve carried by the respective housing, respective control circuits carried by the respective housing and coupled to the respective water presence sensor and the respective electrically actuatable valve, and a respective communications port coupled to the respective control circuits and directly coupled to the respective communications port of another of the plurality of modular water detectors, wherein, responsive to a leakage indicating signal from the respective water presence sensor, the respective control circuits of a respective one of the plurality of modular water detectors actuate the respective electrically actuatable valve to cause the respective electrically actuatable valve to close, and wherein the respective communications port of the respective one of the plurality of modular water detectors receives alarm indicating incoming signals from the another of the plurality of modular water detectors to close the respective electrically actuatable valve of the respective one of the plurality of modular water detectors and transmits the leakage indicating signal to the another of the plurality of modular water detectors to actuate the respective electrically actuatable valve of the another of the plurality of the modular water detectors. 8. A water detection system as in claim 7 wherein each of the plurality of modular water detectors includes respective external water sensors coupled to the respective control circuits, and wherein the respective control circuits of the respective one of the plurality of modular water detectors evaluate either the alarm indicating incoming signals from the another of the plurality of modular water detectors or sensor signals from the respective external sensors and, responsive thereto, transmit indicators thereof to a displaced monitoring system. 9. A water leakage detector comprising: a housing; a water detection and shut-off element carried by the housing; alarm monitoring circuitry carried by the housing and coupled to the water detection and shut-off element; a first manually engageable water flow connector coupled to the water detection and shut-off element at an inflow end; a second manually engageable water flow connector coupled to the water detector and shut-off element at an outflow end; and a first communications port coupled to the alarm monitoring circuitry, wherein, responsive to a first signal, the alarm monitoring circuitry actuates the water detection and shut-off element to cause the water detection and shut-off element to change state, and wherein the first communications port is directly coupled to another water leakage detector for receiving a second signal therefrom to actuate the water detection and shut-off element and for transmitting the first signal thereto to actuate a local water shutoff valve of the another water leakage detector. 10. A water leakage detector as in claim 9 further comprising a water presence sensor coupled to the water detection and shut-off element. 11. A water leakage detector as in claim 9 wherein the first and second manually engageable water flow connectors include one of threaded or quick release couplers connected to the water detection and shut-off element. 12. A water leakage detector as in claim 11 wherein the water detection and shut-off element includes an automatically actuatable valve. 13. A water leakage detector as in claim 10 wherein the alarm monitoring circuitry receives the first signal from the water presence sensor. 14. A water leakage detector as in claim 13 further comprising a wireless transmitter to communicate alarm indicating signals to a displaced monitoring system. 15. A water leakage detector as in claim 9 further comprising: interconnect wires that couple the first communications port to a displaced second port of the another water leakage detector, wherein the first and second manually engageable water flow connectors include threadably connectable hose connectors. 16. A water leakage detector as in claim 9 further comprising a wireless transceiver for communications with a displaced monitoring system.