A nozzle for use in a coating apparatus for the application of a coating substance to a stent is provided. Method for coating a stent can include discharging a coating composition out from a needle of a nozzle assembly, and atomizing the coating composition as the coating composition is discharged.
A nozzle for use in a coating apparatus for the application of a coating substance to a stent is provided. Method for coating a stent can include discharging a coating composition out from a needle of a nozzle assembly, and atomizing the coating composition as the coating composition is discharged. The needle can be positioned in a chamber of the nozzle assembly, and gas can be introduced into the chamber for atomizing the coating composition.
대표청구항▼
1. A method of coating a stent, comprising: positioning a nozzle assembly having a needle disposed therein toward a stent, wherein the needle is in fluid communication with a reservoir containing a coating composition;discharging the coating composition from the reservoir out from the needle; andato
1. A method of coating a stent, comprising: positioning a nozzle assembly having a needle disposed therein toward a stent, wherein the needle is in fluid communication with a reservoir containing a coating composition;discharging the coating composition from the reservoir out from the needle; andatomizing the coating composition into droplets as the coating composition is discharged out from the needle,wherein the needle is a hypodermic needle. 2. The method of claim 1, further comprising: positioning the needle within a chamber of the nozzle assembly; andatomizing the coating composition includes introducing a gas into the chamber. 3. The method of claim 2, further comprising coupling the needle to the chamber such that an outlet of the needle does not extend through an outlet of the chamber. 4. The method of claim 2, wherein positioning the needle within the chamber includes adjusting the position of an outlet of the needle relative to an outlet of the chamber. 5. The method of claim 2, wherein positioning the needle within the chamber includes: holding the needle with a needle centering body of the nozzle assembly; andpositioning the needle centering body in the chamber to form a cavity between the needle centering body and the chamber, the cavity in fluid communication with an inlet of the chamber for receiving a gas and an outlet of the chamber for discharging the gas introduced into the chamber. 6. The method of claim 5, wherein the cavity extends entirely around the needle. 7. The method of claim 5, further comprising positioning the needle through the needle centering body. 8. The method of claim 2, further comprising holding the needle with a needle centering body of the nozzle assembly, the needle centering body coupled to the chamber. 9. The method of claim 8, wherein the discharging includes delivering the coating composition from the reservoir through a coupling of the nozzle assembly, the coupling attached to the needle centering body and in fluid communication with the needle. 10. A method of coating a stent, comprising: positioning a nozzle assembly having a needle disposed therein toward a stent, wherein the needle is in fluid communication with a reservoir containing a coating composition;discharging the coating composition from the reservoir out from the needle; andatomizing the coating composition into droplets as the coating composition is discharged out from the needle, wherein the composition is atomized within the nozzle assembly, andwherein the atomizing the of coating composition includes introducing a gas into the chamber, and an outlet of the needle extends through an outlet of the chamber to form an annular aperture through which gas introduced into the chamber exits. 11. The method of claim 10, further comprising holding the needle with a needle centering body of the nozzle assembly, the needle centering body coupled to the chamber. 12. The method of claim 10, wherein the composition includes a polymer dissolved in a solvent and optionally a therapeutic substance added thereto. 13. The method of claim 10, further comprising positioning the needle within a chamber of the nozzle assembly. 14. The method of claim 13, wherein the positioning of the needle within the chamber includes adjusting the position of an outlet of the needle relative to an outlet of the chamber. 15. The method of claim 13, wherein positioning the needle within the chamber includes: holding the needle with a needle centering body of the nozzle assembly; andpositioning the needle centering body in the chamber to form a cavity between the needle centering body and the chamber, the cavity in fluid communication with an inlet of the chamber for receiving a gas and an outlet of the chamber for discharging the gas introduced into the chamber. 16. The method of claim 15, wherein the cavity extends entirely around the needle. 17. The method of claim 15, further comprising positioning the needle through the needle centering body. 18. A method of coating a stent, comprising: positioning a nozzle assembly having a needle disposed therein toward a stent, wherein the needle is in fluid communication with a reservoir containing a coating composition;discharging the coating composition from the reservoir out from the needle;atomizing the coating composition into droplets as the coating composition is discharged out from the needle, wherein the composition is atomized within the nozzle assembly;positioning the needle within a chamber of the nozzle assembly; andatomizing the coating composition includes introducing a gas into the chamber,wherein positioning the needle within the chamber includes adjusting the position of an outlet of the needle relative to an outlet of the chamber, andwherein adjusting includes threading a needle centering body of the nozzle assembly to the chamber, the needle centering body holding the needle. 19. A method of coating a stent, comprising: positioning a nozzle assembly having a needle disposed therein next to a stent, wherein the needle is in fluid communication with a reservoir containing a coating composition;positioning the needle within a chamber of the nozzle assembly;discharging the coating composition from the reservoir out from the needle and onto the stent;atomizing the coating composition into droplets as the coating composition is discharged out from the needle, wherein the needle is a hypotube and atomizing the coating composition includes introducing a gas into the chamber;holding the needle with a needle centering body of the nozzle assembly, the needle centering body coupled to the chamber, wherein the discharging includes delivering the coating composition from the reservoir through a coupling of the nozzle assembly, the coupling attached to the needle centering body and in fluid communication with the needle; andadjusting the position of an outlet of the needle relative to an outlet of the chamber by threading the needle centering body to the chamber. 20. A method of coating a stent, comprising: positioning a nozzle assembly having a needle disposed therein toward a stent, wherein the needle is in fluid communication with a reservoir containing a coating composition;discharging the coating composition from the reservoir out from the needle;atomizing the coating composition into droplets as the coating composition is discharged out from the needle, wherein the needle is a hypodermic needle;positioning the needle within a chamber of the nozzle assembly;atomizing the coating composition includes introducing a gas into the chamber; andcoupling the needle to the chamber such that an outlet of the needle extends through an outlet of the chamber to form an annular aperture through which gas introduced into the chamber exits. 21. A method of coating a stent, comprising: positioning a nozzle assembly having a needle disposed therein toward a stent, wherein the needle is in fluid communication with a reservoir containing a coating composition;discharging the coating composition from the reservoir out from the needle;atomizing the coating composition into droplets as the coating composition is discharged out from the needle, wherein the needle is a hypodermic needle;positioning the needle within a chamber of the nozzle assembly; andatomizing the coating composition includes introducing a gas into the chamber,wherein positioning the needle within the chamber includes adjusting the position of an outlet of the needle relative to an outlet of the chamber, andwherein adjusting includes threading a needle centering body of the nozzle assembly to the chamber, the needle centering body holding the needle. 22. A method of coating a stent, comprising: positioning a nozzle assembly having a needle disposed therein toward a stent, wherein the needle is in fluid communication with a reservoir containing a coating composition;discharging the coating composition from the reservoir out from the needle;atomizing the coating composition into droplets as the coating composition is discharged out from the needle, wherein the needle is a hypodermic needle;positioning the needle within a chamber of the nozzle assembly;atomizing the coating composition includes introducing a gas into the chamber;holding the needle with a needle centering body of the nozzle assembly, the needle centering body coupled to the chamber; andadjusting the position of an outlet of the needle relative to an outlet of the chamber by threading the needle centering body to the chamber.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (51)
Robisch Herman (Schiller Park IL) Schlotfeldt Kenneth W. (Addison IL), Air brush with paint flow regulating.
Daniel Castro ; Steven Wu ; Kevin L. Woolbright ; Kurt W. Scheinpflug ; Syed F. A. Hossainy ; Li Chen, Apparatus and method for depositing a coating onto a surface of a prosthesis.
Stack Richard S. (Chapel Hill NC) Clark Howard G. (Durham NC) Walker William F. (Holcomb NY) McElhaney James H. (Durham NC), Bioabsorbable stent and method of making the same.
John T. Santini, Jr. ; Charles E. Hutchinson ; Scott A. Uhland ; Michael J. Cima ; Robert S. Langer ; Dennis Ausiello, Microfabricated devices for the delivery of molecules into a carrier fluid.
Prentice Thomas C. ; Prescott Brian P. ; Purcell Thomas ; Helm Stephen S. ; Martin Donald J. ; Brown Kevin, Multiple head dispensing system and method.
Clapper David L. ; Swanson Melvin J. ; Hu Sheau-Ping ; Amos Richard A. ; Everson Terrence P., Polybifunctional reagent having a polymeric backbone and photoreactive moieties and bioactive groups.
Tartaglia Joseph M. (Redwood City CA) Loeffler Joseph P. (Mountain View CA) Turnlund Todd H. (Mountain View CA), Polymer film for wrapping a stent structure.
Leidner Jacob,CAX ; Amellal Karim,CAX, Porous protheses and methods for making the same wherein the protheses are formed by spraying water soluble and water insoluble fibers onto a rotating mandrel.
Ragheb Anthony O. ; Bates Brian L. ; Fearnot Neal E. ; Osborne Thomas A. ; Kozma Thomas G. ; Roberts Joseph W. ; Voorhees ; III William D., Silver implantable medical device.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.