Wide angle spray nozzle

The invention claimed is: 1. A spray nozzle for producing and directing a fan shaped spray pattern comprising: a nozzle body having a first portion and a second portion, the first portion having a cylindrical configuration, the second portion including a dome-shaped end wall, the first and second portions of the nozzle body defining an internal fluid passage having an inlet end and a downstream end defined by the dome-shaped end wall; a flow control element arranged at the inlet end of the internal fluid passage, the flow control element including a pre-orifice through which fluid enters the internal fluid passage of the nozzle body, loses velocity, and builds up in the cylindrical portion of the nozzle body prior to discharge from the spray nozzle; and first and second discharge orifices in the dome-shaped end wall with each of the first and second discharge orifices being arranged on a respective one of opposing first and second sides of an apex of the dome-shaped end wall; said first and second discharge orifices extending in opposite parallel directions from the apex of the dome shaped end wall; said first and second discharge orifices each having an elongated straight centerline slit-like configuration that is relatively narrower in width at a first end thereof than at a second end thereof with the first end being arranged relatively closer to the apex than the second end; a portion of the first and second discharge orifices near the first end of each discharge orifice being in overlapping relation when viewed from the first side towards the second side and said first and second discharge orifices each widen continuously as the respective discharge orifice extends from the first end to the second end; and said first and second discharge orifices being in overlapping relation less than their entire length but sufficient for producing a fan shaped fluid discharge spray pattern from the spray nozzle for direction onto a vegetation target area on the ground with even distribution with narrower overlapping portions of the discharge orifices producing a center portion of the spray pattern and relatively wider end portions of the discharge orifices producing opposing end portions of the spray pattern. 2. The spray nozzle of claim 1 wherein each of the centerlines of the first and second discharge orifices each forms an acute angle with a longitudinal axis of the nozzle body. 3. The spray nozzle of claim 2 wherein the centerline of each of the first and second discharge orifices forms an angle of less than 10 degrees with the longitudinal axis of the nozzle body. 4. The spray nozzle of claim 1 wherein each of the first and second discharge orifices is approximately three times wider at the second end than at the first end. 5. The spray nozzle of claim 1 wherein the flow control element comprises a disc-shaped member that is received in the inlet end of the nozzle body. 6. The spray nozzle of claim 1 wherein the pre-orifice is centrally disposed in the flow control element. 7. The spray nozzle of claim 1 wherein an orientation rib is provided on an exterior surface of the dome-shaped end wall, the orientation rib extending across the apex of the dome-shaped end wall midway between the first and second discharge orifices. 8. A spray device for producing and directing a fan shaped spray pattern comprising: a fluid reservoir; a wand attached to the reservoir by a flexible conduit which is in fluid communication with the reservoir; and a spray nozzle attached to the wand for discharging a fan shaped fluid spray from the fluid reservoir, the spray nozzle comprising: a nozzle body having a first portion and a second portion, the first portion having a cylindrical configuration, the second portion including a dome-shaped end wall, the first and second portions of the nozzle body defining an internal fluid passage having an inlet end and a downstream end defined by the dome-shaped end wall; a flow control element arranged at the inlet end of the internal fluid passage, the flow control element including a pre-orifice through which fluid enters the internal fluid passage of the nozzle body, loses velocity, and builds up in the cylindrical portion of the nozzle body prior to discharge from the spray nozzle; and first and second discharge orifices in the dome-shaped end wall with each of the first and second discharge orifices being arranged on a respective one of opposing first and second sides of an apex of the dome-shaped end wall; said first and second discharge orifices extend in opposite parallel directions from the apex of the dome shaped end wall; said first and second discharge orifices each having an elongated slit-like configuration that is relatively narrower in width at a first end thereof than at a second end thereof with the first end being arranged relatively closer to the apex than the second end; a portion of the first and second discharge orifices near the first end of each discharge orifice being in overlapping relation when viewed from the first side towards the second side and said first and second discharge orifices each having straight center lines and widen continuously as the respective discharge orifices extends from the first end to the second end; said first and second discharge orifices being in overlapping relation less than their entire length but sufficient for producing a fan-shaped fluid discharge spray pattern from the spray nozzle for direction onto a vegetation target area on the ground with even distribution with narrower overlapping portions of the discharge orifices producing the center portion of the spray pattern and relatively wider end portions of the discharge orifices producing opposing end portions of the spray pattern. 9. The spray device of claim 8 further including shoulder straps configured to support the reservoir on a back of a user. 10. The spray device of claim 8 wherein a flange is arranged at the inlet end of the nozzle body and further including a mounting nut for securing the spray nozzle to an end of the wand. 11. The spray device of claim 8 wherein the centerlines of the first and second discharge orifices form an acute angle with a longitudinal axis of the nozzle body. 12. The spray device of claim 11 wherein the centerlines of each of the first and second discharge orifices form an angle of less than 10 degrees with the longitudinal axis of the nozzle body. 13. The spray device of claim 8 wherein each of the first and second discharge orifices is three times wider at the second end than at the first end. 14. The spray device of claim 8 wherein the flow control element comprises a disc-shaped member that is received in the inlet end of the nozzle body. 15. The spray device of claim 8 wherein the pre-orifice is centrally disposed in the flow control element. 16. The spray device of claim 8 wherein an orientation rib is provided on an exterior surface of the dome-shaped end wall, the orientation rib extending across the apex of the dome-shaped end wall midway between the first and second discharge orifices and said first and second discharge orifices being oriented for directing fan-shaped spray patterns parallel to said orientation rib.