Split body fluidic spray nozzle

The invention claimed is: 1. A spray nozzle assembly for producing an oscillating spray discharge, the spray nozzle assembly comprising: a nozzle body; a liquid inlet passage in the nozzle body that converges via an inwardly converging conical section that defines a liquid inlet orifice; an expansion chamber in the nozzle body that communicates in a downstream direction with the liquid inlet orifice; an exit orifice in the nozzle body that communicates in the downstream direction with the expansion chamber; a pair of longitudinal veins and a pair of outwardly disposed feedback passages in the expansion chamber, each vein defining a respective downstream orifice to a respective one of the feedback passages adjacent the exit orifice and a respective upstream orifice adjacent said liquid inlet orifice; said nozzle body comprising first and second nozzle parts that are supported in opposed relation to each other and which each has a plurality of planar separating surfaces; said planar separating surfaces of said first and second nozzle parts each including a raised planar separating surface and a recessed planar separating surface with the raised planar separating surface being raised relative to the recessed planar separating surface; and said recessed planar separating surface of each of the first and second nozzle parts supporting a respective one of said longitudinal veins. 2. The spray nozzle assembly of claim 1 wherein the exit orifice has a smaller diameter than the inlet orifice. 3. The spray nozzle assembly of claim 2 wherein the exit orifice communicates through an outwardly flared section with a discharge orifice. 4. The spray nozzle assembly of claim 3 wherein the discharge orifice has a rectangular configuration. 5. The spray nozzle assembly of claim 1 wherein each vein has an enlarged upstream end portion that defines a curved right angle section of the respective feedback passage that communicates with the respective up stream orifice. 6. The spray nozzle assembly of claim 1 wherein the raised planar separating surface of each of the first and second nozzle parts defines a respective downstream lip that extends in a radially inward direction such that upon mating of the first and second nozzle parts the exit orifice is defined by the downstream lips and the recessed planar separating surfaces. 7. The spray nozzle assembly of claim 1 further including an inlet body and a retaining cap and wherein the first and second nozzle parts are held in assembled relation and secured to a downstream end of the inlet body by the retaining cap. 8. The spray nozzle assembly of claim 7 wherein the nozzle body has a frustoconical downstream end portion that is received within a complementary frustoconical recess in the retaining cap. 9. The spray nozzle assembly of claim 8 wherein the frustoconical downstream end portion has a conical slope of between approximately 7° and approximately 30° to a horizontal axis. 10. A spray nozzle assembly for producing an oscillating spray discharge, the spray nozzle assembly comprising: an inlet body having a liquid passage connectable to a liquid supply; a nozzle body secured at a downstream end of the inlet body by a retaining cap; a liquid inlet passage in the nozzle body that communicates with the liquid passage in the inlet body and that converges via an inwardly converging conical section that defines a liquid inlet orifice; an expansion chamber in the nozzle body that communicates in a downstream direction with the liquid inlet orifice; an exit orifice in the nozzle body that communicates in the downstream direction with the expansion chamber; a pair of longitudinal veins and a pair of outwardly disposed feedback passages in the expansion chamber, each vein defining a respective downstream orifice to a respective one of the feedback passages adjacent the exit orifice and an upstream orifice to the respective one of the feedback passages adjacent the inlet orifice; said nozzle body comprising first and second nozzle parts each of which has a plurality of planar separating surfaces, said planar separating surfaces of said first and second nozzle parts each having a raised planar separating surface and a recessed planar separating surface with the raised planar separating surface being raised relative to the recessed planar separating surface; and said recessed planar separating surface of each of the first and second nozzle parts supporting a respective one of the longitudinal veins. 11. The spray nozzle assembly of claim 10 wherein the exit orifice communicates through an outwardly flared section with a discharge orifice. 12. The spray nozzle assembly of claim 10 wherein the nozzle body has a frustoconical downstream end portion that is received within a complementary frustoconical recess in the retaining cap. 13. The spray nozzle assembly of claim 12 wherein the frustoconical downstream end portion has a conical slope of between approximately 7° and approximately 30° to a horizontal axis. 14. A spray nozzle assembly for producing an oscillating spray discharge, the spray nozzle assembly comprising: a nozzle body; a liquid inlet passage in the nozzle body that converges via an inwardly converging conical section that defines a liquid inlet orifice; an expansion chamber in the nozzle body that communicates in a downstream direction with the liquid inlet orifice; an exit orifice in the nozzle body that communicates in the downstream direction with the expansion chamber; a pair of longitudinal veins and a pair of outwardly disposed feedback passages in the expansion chamber, each vein defining a respective downstream orifice to a respective one of the feedback passages adjacent the exit orifice and a respective upstream orifice adjacent said liquid inlet orifice; said nozzle body comprising first and second nozzle parts each of which has a plurality of planar separating surfaces; a liquid inlet body and a retaining cap, said first and second nozzle parts being held in assembled relation and secured to a downstream end of the liquid inlet body by the retaining cap; and said nozzle body having a frustoconical downstream end portion that is received within a complementary frustoconical recess in the retaining cap; said frustoconical downstream end portion having a conical slope of between approximately 7° and approximately 30° to a horizontal axis; and said frustoconical recess in said retaining cap having a fine surface finish of approximately 16 micro-inches or less. 15. A spray nozzle assembly for producing an oscillating spray discharge, the spray nozzle assembly comprising: a nozzle body; a liquid inlet passage in the nozzle body that converges via an inwardly converging conical section that defines a liquid inlet orifice; an expansion chamber in the nozzle body that communicates in a downstream direction with the liquid inlet orifice; an exit orifice in the nozzle body that communicates in the downstream direction with the expansion chamber; a pair of longitudinal veins and a pair of outwardly disposed feedback passages in the expansion chamber, each vein defining a respective downstream orifice to a respective one of the feedback passages adjacent the exit orifice and a respective upstream orifice adjacent said liquid inlet orifice; said nozzle body comprising first and second nozzle parts that are separated in opposed relation to each other and which each has a plurality of planar separating surfaces; said planar separating surfaces of said first and second nozzle parts each including a raised planar separating surface and a recessed planar separ