Electrostatic spray drying nozzle assembly

The invention claimed is: 1. An electrostatic sprayer comprising: a high voltage input head; an elongated nozzle body supported in downstream relation to said input head; a liquid feed tube made of electrically conductive material disposed within said elongated nozzle body and extending in downstream relation to said input head; said liquid feed tube being connectable to a pressurized liquid supply for directing liquid through said liquid feed tube; said elongated nozzle body and liquid feed tube defining an annular atomizing gas passage within said elongated nozzle body; said input head having a high voltage cable input section in electrical contact with said liquid feed tube and for connection to a high voltage electrical source for electrically charging said liquid feed tube and liquid directed through said liquid feed tube; said input head having a pressurized gas inlet in communication with said annular atomizing gas passage and for connection to a pressurized atomizing gas supply for directing pressurized atomizing gas through said annular atomizing gas passage; an internal mix spray nozzle assembly mounted at a downstream end of said elongated nozzle body; said spray nozzle assembly including a spray tip mounted at a downstream end of said elongated nozzle body that defines an internal mixing chamber downstream of said liquid feed tube that converges inwardly in downstream direction and communicates with a discharge orifice of the spray tip; said liquid feed tube including an end section having a reduced diameter liquid passage for accelerating electrically charged liquid directed through said liquid feed tube; said end section having a plurality of cross slots for directing electrically charged liquid flow streams radially outward of said liquid feed tube into said mixing chamber; and an air guide mounted adjacent an upstream end of said spray tip in surrounding relation to said liquid feed tube for defining an inwardly converging gas passage in communication with said annular atomizing gas passage for channeling and converging pressurized atomizing gas from said annular atomizing gas passage through an annular gas passage surrounding the liquid feed tube end section defined between said air guide and said liquid feed tube end section directly across said cross slots for interaction and atomization of the electrically charged liquid discharging from said cross slots and for direction of atomized liquid into said mixing chamber for subsequent discharge from said spray tip discharge orifice. 2. The electrostatic sprayer of claim 1 including a center locater for supporting the downstream end of said liquid feed tube centrally within said air guide and spray tip, said center locator having a central opening through which said liquid feed tube extends and a plurality of radial support legs that support the liquid feed tube centrally within the elongated nozzle body while permitting a passage of atomizing gas from the annular atomizing gas passage and through the annular gas passage surrounding the liquid feed tube defined between said air guide and said liquid feed tube end section. 3. The electrostatic sprayer of claim 1 in which said spray tip has a central discharge orifice aligned with said liquid feed tube. 4. The electrostatic sprayer of claim 1 in which said spray tip has an outer radial flange supported against a reduced diameter annular lip of said elongated nozzle body adjacent a downstream end thereof. 5. The electrostatic sprayer of claim 1 in which said cross slots define an impingement surface against which electrically charged liquid directed through said liquid feed tube impinges and is directed radially outwardly through said cross slots for interaction by pressurized atomizing gas channeled by the air guide. 6. An electrostatic sprayer comprising: a high voltage input head; an elongated nozzle body supported in downstream relation to said input head; a liquid feed tube made of electrically conductive material disposed within said elongated nozzle body and extending in downstream relation to said input head; said liquid feed tube being connectable to a pressurized liquid supply for directing liquid through said liquid feed tube; said elongated nozzle body and liquid feed tube defining an annular atomizing gas passage within said elongated nozzle body; said input head having a high voltage cable input section in electrical contact with said liquid feed tube and for connection to a high voltage electrical source for electrically charging said liquid feed tube and liquid directed through said liquid feed tube; said input head having a pressurized gas inlet in communication with said annular atomizing gas passage and for connection to a pressurized atomizing gas supply for directing pressurized atomizing gas through said annular atomizing gas passage; an internal mix spray nozzle assembly mounted at a downstream end of said elongated nozzle body; said spray nozzle assembly including a spray tip mounted at a downstream end of said elongated nozzle body that defines an internal mixing chamber downstream of said liquid feed tube that converges inwardly in downstream direction and communicates with a discharge orifice of the spray tip; said liquid feed tube including an end section having a reduced diameter liquid passage for accelerating electrically charged liquid directed through said liquid feed tube; said end section having a plurality of cross slots for directing electrically charged liquid flow streams radially outward of said liquid feed tube into said mixing chamber; an air guide mounted adjacent an upstream end of said spray tip in surrounding relation to said liquid feed tube for defining an inwardly converging gas passage in communication with said annular atomizing gas passage for channeling and converging pressurized atomizing gas from said annular atomizing gas passage through an annular gas passage surrounding the liquid feed tube end section defined between said air guide and said liquid feed tube end section directly across said cross slots for interaction and atomization of the electrically charged liquid discharging from said cross slots and for direction of atomized liquid into said mixing chamber for subsequent discharge from said spray tip discharge orifice; and said liquid feed tube having a pointed terminal end disposed within said mixing chamber for directing an electrostatic field into said mixing chamber for further charging atomized liquid particles within said mixing chamber prior to discharge from the spray tip discharge orifice. 7. The electrostatic sprayer of claim 1 in which said mixing chamber includes a frustoconical downstream section that communicates with said discharge orifice. 8. The electrostatic sprayer of claim 6 in which said spray tip discharge orifice is axially aligned with said pointed terminal end of the liquid feed tube.