Sprinkler system fertilization regulator

1. A sprinkler system for irrigating a plurality of predetermined irrigation zones 1 through 5 having a fertilization regulator, comprising:

• (a) an electrically operated proportional flow control valve that controls the flow of fresh water into said regulator wherein said flow of water is proportional to an electrical current input to said valve;
  
  (b) a master sensor connected to the output of said proportional flow control valve wherein the electrical output of said master sensor is proportional to the rate of flow of water through said master sensor;
  
  (c) a siphon pump connected to the output of said master sensor wherein said siphon pump siphons concentrated fluids and combines said concentrated fluids with said fresh water such that the output of said siphon pump is a mixture of said fresh water and said concentrated fluids;
  
  (d) an electrically operated manifold whose input is connected to the output of said siphon pump and whose outputs are each individually controllable by the application of an electrical current to said manifold so that said manifold outputs are attached to conventional sprinkler heads for the purpose of applying chemicals to a lawn or garden;
  
  (e) a proportional mixing valve connected to the siphoning input of said siphon pump;
  
  (f) a plurality of containers containing concentrated liquids wherein said containers are connected to each of the inputs of said proportional mixing valve such that the relative concentration of the combined concentrates is determined by electrical signals applied to said proportional mixing valve;
  
  (g) sensors interposed between each of said containers and said proportional mixing valve, such that the electrical output of each of said sensors is proportional to the rate of concentrates for each respective container;
  
  (h) means for controlling the operation of said proportional flow control valve, said electrically operated manifold, and said proportional mixing valve such that the concentration of each constituent fluid and the total amount of fluid delivered to each manifold output is independent of the fresh water inlet pressure, said means for controlling the operation of said proportional flow control valve, said electrically operated manifold, and said proportional mixing valve further comprise a timer and a sequencer, wherein said timer may be set to cause said regulator to operate at a predetermined time of the day, and said sequencer'"'"'s output being connected to said electrical input of said manifold such that said sequencer causes each of the fluid outputs of said manifold to operate in a predetermined sequence, sequencing of the zones 1 through 5 is determined by said sequencer whose output is connected to said electrically operated manifold, said manifold taking the water/chemical mixture from said siphon pump and directing it to each zone as directed by the electrical signals inputed to it, said timer connecting to said sequencer determines the days, time of day, and duration for watering each zone, through connections between the concentration control circuit and the sequence, each zone can output a water stream with a different concentration of chemicals; and
  
  (i) indicator lamps connected to the output of said sequencer such that a visual indication is given to indicate which of said manifold'"'"'s outputs is operating, said sequencer steps through the zones and as it activates each zone an appropriate zone indicator lamp lights.