Embodiments of the invention relate to a nozzle assembly for electrostatic deposition comprising a single point nozzle, the single point nozzle being conically shaped and including an apex and a circular base, the circular base including a smaller diameter cylindrical protrusion including a counter
Embodiments of the invention relate to a nozzle assembly for electrostatic deposition comprising a single point nozzle, the single point nozzle being conically shaped and including an apex and a circular base, the circular base including a smaller diameter cylindrical protrusion including a counter bore which connects to a passage leading to the apex; and a nozzle body, in contact with the single point nozzle and including a first through bore, a larger second through bore and a cross drilled port into the first through bore; and a cylindrical electrode, at least partially inserted within the first through bore of the nozzle body and in contact with the counter bore of the single point nozzle, the electrode including a bore mating aligned with the cross drilled port of the nozzle body, and inlets positioned at either end.
대표청구항▼
1. A nozzle assembly for electrostatic deposition of a charged fluid, comprising: a single point nozzle, the single point nozzle being conically shaped and including an apex and a circular base, the circular base including a smaller diameter cylindrical protrusion including a counter bore which conn
1. A nozzle assembly for electrostatic deposition of a charged fluid, comprising: a single point nozzle, the single point nozzle being conically shaped and including an apex and a circular base, the circular base including a smaller diameter cylindrical protrusion including a counter bore which connects to a passage leading to the apex, the apex including a precision ground flat, cut perpendicular to a centerline of the apex for controlling meniscus size and reducing firing voltage;a nozzle body, in contact with the single point nozzle and including a first through bore, a large second through bore and a cross drilled port into the first through bore; anda metal electrode at least partially inserted within the first through bore of the nozzle body and in contact with the counter bore of the single point nozzle, the electrode including a fluid passageway and a bore mating;wherein the bore mating acts as a fluid inlet and is alignable with the cross drilled port of the nozzle body, and wherein the cross drilled port of the nozzle body, the bore mating of the electrode, the electrode fluid passageway, and the passage of the single point nozzle create a fluid channel for a charged fluid to pass to the apex of the single point nozzle, and the nozzle is configured to electrostatically deposit a fluid at a rate less than about 4 milliliters per hour. 2. The nozzle assembly of claim 1, further comprising a vapor housing body at least partially surrounding the single point nozzle. 3. The nozzle assembly of claim 1, wherein the nozzle body is cylindrical. 4. The nozzle assembly of claim 1, wherein the cylindrical protrusion comprises grooves capable of holding O-rings. 5. The nozzle assembly of claim 1, wherein the electrode further comprises grooves capable of holding O-rings. 6. The nozzle assembly of claim 1, wherein the single point nozzle is one-piece manufactured. 7. The nozzle assembly of claim 1, wherein the nozzle assembly is capable of spraying a target at less than about milliliters per hour flow rate. 8. The nozzle assembly of claim 1, wherein the single point nozzle comprises a ceramic. 9. The nozzle assembly of claim 1, wherein the single point nozzle comprises zirconia. 10. The nozzle assembly of claim 1, further comprising an inductor ring, positioned near the single point nozzle. 11. The nozzle assembly of claim 10, wherein the inductor ring is grounded through a network including one or more of a resistor, capacitor or inductor. 12. The nozzle assembly of claim 10, wherein the inductor ring reduces the firing voltage of the nozzle. 13. The nozzle assembly of claim 10, wherein the inductor ring lessens the electric field between the nozzle and target substrate. 14. A method of manufacturing a nozzle assembly for electrostatic deposition of a charged fluid, the method comprising: forming a single point nozzle, the single point nozzle being conically shaped and including an apex and a circular base, the circular base including a smaller diameter cylindrical protrusion including a counter bore which connects to a passage leading to the apex, the apex including a precision ground flat, cut perpendicular to a centerline of the apex for controlling meniscus size and reducing firing voltage;forming a nozzle body, including a first through bore, a large second through bore and a cross drilled port into the first through bore;forming a cylindrical metal electrode, the electrode including a bore mating and a fluid passageway; contacting the cylindrical electrode with the nozzle body; and contacting the cylindrical electrode and nozzle body with the single point nozzle;wherein the cross drilled port of the nozzle body, the bore mating of the electrode, the electrode fluid passageway, and the passage of the single point nozzle create a fluid channel for a charged fluid to pass to the apex of the single point nozzle and the nozzle is configured to electrostatically deposit a fluid at a rate less than about 4 milliliters per hour. 15. The method of claim 14, wherein forming a single point nozzle comprises one-piece manufacturing. 16. The method of claim 14, wherein forming a single point nozzle comprises forming a ceramic single point nozzle. 17. The method of claim 14, wherein forming a single point nozzle comprises forming a zirconia single point nozzle. 18. The method of claim 14, further comprising forming a vapor housing body. 19. The method of claim 18, further comprising coupling the vapor housing body with the single point nozzle. 20. A method of using a nozzle assembly for electrostatic deposition of a charged fluid, the method comprising: introducing a fluid into a nozzle assembly, the nozzle assembly comprising: a single point nozzle, the single point nozzle being conically shaped and including an apex and a circular base, the circular base including a smaller diameter cylindrical protrusion including a counter bore which connects to a passage leading to the apex, the apex including a precision ground flat, cut perpendicular to a centerline of the apex for controlling meniscus size and reducing firing voltage;a nozzle body, in contact with the single point nozzle and including a first through bore, a larger second through bore and a cross drilled port into the first through bore; anda metal electrode sealed at least partially inserted within the first through bore of the nozzle body and in contact with the counter bore of the single point nozzle, the electrode including a bore mating aligned with the cross drilled port of the nozzle body, and a fluid passageway;wherein the cross drilled port of the nozzle body, the bore mating of the electrode, the electrode fluid passageway, and the passage of the single point nozzle create a fluid channel to the apex of the single point nozzle;electrically contacting the fluid with the electrode; and dispensing the fluid from the nozzle assembly to a target at a rate less than about 4 milliliters per hour. 21. The method of claim 20, wherein the single point nozzle comprises a ceramic. 22. The method of claim 20, wherein the single point nozzle comprises zirconia. 23. The method of claim 20, wherein a single point nozzle is one-piece manufactured.
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