Fluid Leak Detection and Shutdown Apparatus

1. A fluid leak detection and shutdown apparatus for a fluid distribution system having a total fluid distribution system flow rate, said fluid distribution system having an inlet and an outlet, said fluid leak detection and shutdown apparatus comprising:

• (a) a solenoid shutoff valve having a longitudinal axis, said solenoid shutoff valve having a flow capacity substantially matched to the total fluid distribution system flow rate, said solenoid shutoff valve is adapted to be in fluid communication downstream from the fluid distribution system inlet, said solenoid shutoff valve having an open operational state that allows fluid flow therethrough and a closed operational state that substantially precludes fluid flow therethrough, said solenoid shutoff valve having a default deactivated position of being in said open operational state and said solenoid shutoff valve having an activated position of being in said closed operational state;
  
  (b) a primary fluid flow line having a lengthwise axis, said primary fluid flow line is in downstream fluid communication with said solenoid shutoff valve, said primary fluid flow line also being in upstream fluid communication with the fluid distribution system outlet, said primary fluid flow line having a primary fluid flow line cross sectional flow area associated with a primary fluid flow rate, said lengthwise axis being coincident to said longitudinal axis;
  
  (c) a check valve in fluid communication with said primary fluid flow line, wherein said check valve allows fluid flow from said solenoid shutoff valve to the fluid distribution system outlet and said check valve substantially preventing fluid flow from the fluid distribution system outlet to said solenoid shutoff valve, said check valve including an opening spring with a spring rate that is sufficient to create a calibrated crack open force;
  
  (d) a secondary fluid flow line having a long axis, said secondary fluid flow line is in downstream fluid communication with said solenoid shutoff valve, said secondary fluid flow line also being in upstream fluid communication with the fluid distribution system outlet, said secondary fluid flow line having a secondary fluid flow line cross sectional flow area associated with a secondary fluid flow rate, wherein said secondary fluid flow line cross sectional flow area is less than said primary fluid flow line cross sectional flow area such that said secondary fluid flow rate is less than said primary fluid flow rate, said secondary fluid flow line long axis being perpendicular to said longitudinal axis and said coincident lengthwise axis, said required crack open force initially diverts a portion of the total fluid distribution system flow rate to said secondary fluid flow line resulting in said secondary fluid flow rate;
  
  (e) a flow sensor in fluid communication with said secondary fluid flow line, said flow sensor having a perceptible output, wherein said flow sensor has a flow sensing flow rate capacity that is less than said solenoid shutoff flow capacity, wherein operationally said flow sensor receives a portion of said solenoid shutoff valve flow capacity in priority over said primary fluid flow line due to said required crack open force, said primary fluid flow line receiving a remaining portion of said solenoid shutoff valve flow capacity, thus allowing said flow sensor to detect minimal flow rates from said secondary fluid flow rate; and
  
  (f) a means for activating said solenoid shutoff valve based on said flow sensor perceptible output.