IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0004476
(2001-11-16)
|
우선권정보 |
EP-0125032 (2000-11-16) |
발명자
/ 주소 |
|
출원인 / 주소 |
- Siemens Aktiengesellschaft
|
대리인 / 주소 |
Harness Dickey & Pierce PLC
|
인용정보 |
피인용 횟수 :
4 인용 특허 :
10 |
초록
▼
A gas turbine blade is used for closed steam cooling. A partition, preferably designed as a metal sheet, divides a first part cavity in the axial direction. This is done in such a way that steam is capable of being guided out of the first subspace into an inlet edge cavity and from this into a secon
A gas turbine blade is used for closed steam cooling. A partition, preferably designed as a metal sheet, divides a first part cavity in the axial direction. This is done in such a way that steam is capable of being guided out of the first subspace into an inlet edge cavity and from this into a second subspace with an impact-cooling effect, This has the advantage that closed steam cooling is designed to be particularly simple and cost-effective in manufacturing terms, while at the same time the inlet edge has an aerodynamically favorable shape.
대표청구항
▼
A gas turbine blade is used for closed steam cooling. A partition, preferably designed as a metal sheet, divides a first part cavity in the axial direction. This is done in such a way that steam is capable of being guided out of the first subspace into an inlet edge cavity and from this into a secon
A gas turbine blade is used for closed steam cooling. A partition, preferably designed as a metal sheet, divides a first part cavity in the axial direction. This is done in such a way that steam is capable of being guided out of the first subspace into an inlet edge cavity and from this into a second subspace with an impact-cooling effect, This has the advantage that closed steam cooling is designed to be particularly simple and cost-effective in manufacturing terms, while at the same time the inlet edge has an aerodynamically favorable shape. nozzle and a second nozzle adjacent to the end nozzle, the printhead including an ink delivery channel, a portion of the printhead being shaped to balance forces acting on the ink ejected from the end nozzle, the portion of the printhead including an end wall positioned proximate the end nozzle in the ink delivery channel, the end nozzle and the second nozzle forming a nozzle array, the end wall being positioned adjacent the end nozzle as viewed from a plane of the nozzle array, wherein the end wall is positioned at a distance from about 2 microns to about 10 microns from an edge of the end nozzle. 7. An inkjet printing apparatus comprising: a source of ink; and a printhead having an end nozzle and a second nozzle adjacent to the end nozzle, a portion of the printhead being shaped to balance forces acting on the ink ejected from the end nozzle, wherein the forces acting on the ink ejected from the end nozzle are in a direction perpendicular to the ink. 8. The inkjet printing apparatus according to claim 7, wherein the portion of the printhead is shaped such that the end nozzle is positioned at an angle relative to the second nozzle. 9. The inkjet printing apparatus according to claim 7, wherein the portion of the printhead includes an ink deflection device positioned proximate to the end nozzle. 10. The inkjet printing apparatus according to claim 9, wherein the ink deflection device includes a heating pad. 11. The inkjet printing apparatus according to claim 9, wherein the ink deflection device is positioned on a surface of the printhead. 12. The inkjet printing apparatus according to claim 11, wherein the ink deflection device includes a heating pad. 13. The inkjet printing apparatus according to claim 7, the printhead including an ink delivery channel, wherein the portion of the printhead includes an end wall positioned proximate the end nozzle in the ink delivery channel. 14. The inkjet apparatus according to claim 13, the end nozzle and the second nozzle forming a nozzle array, wherein the end wall is positioned adjacent the end nozzle as viewed from a plane of the nozzle array. 15. The inkjet printing apparatus according to claim 13, wherein the end wall is at least partially positioned at a location on a first side of the end nozzle and the second nozzle is positioned on a second side of the end nozzle. 16. The inkjet printing apparatus according to claim 7, wherein the portion of the printhead includes an ink deflection device positioned such that ink ejected from the last nozzle is ejected in a direction away from the second nozzle as viewed from a plane substantially perpendicular to a plane defined by the ejected ink. 17. A printhead comprising: a housing, portions of the housing defining a plurality of nozzle bores including an end nozzle bore and a second nozzle bore adjacent to the end nozzle bore, a portion of the housing shaped to balance forces acting on ink in a substantially perpendicular direction relative to a path of ink ejected through the end nozzle bore and the adjacent nozzle bore as viewed from a plane substantially perpendicular to a plane defined by the ejected ink. 18. The printhead according to claim 17, the housing defining an ink delivery channel, wherein the portion of the housing includes an end wall positioned proximate the end nozzle bore in the ink delivery channel. 19. The printhead according to claim 18, wherein the end wall is positioned adjacent the end nozzle bore at a location opposite the adjacent nozzle bore. 20. The printhead according to claim 18, wherein the end wall is at least partially positioned at a location on a first side of the end nozzle bore and the adjacent nozzle bore is positioned on a second side of the end nozzle bore. 21. The printhead according to claim 17, wherein the portion of the printhead includes an ink deflection device positioned proximate to the end nozzle bore. 22. The printhead according to claim 21, wherein the ink deflection device is positioned on a surface of the printhead. 23. The printhead according to claim 22, wherein the ink deflection device is positioned such that ink ejected from the end nozzle bore is ejected in a direction away from the adjacent nozzle bore. 24. The printhead according to claim 22, wherein the ink deflection device includes a heating pad. 25. The printhead according to claim 24, wherein the heating pad is at least partially positioned between the end nozzle bore and the adjacent nozzle bore. 26. The printhead according to claim 17, wherein the portion of the printhead includes an ink deflection device positioned such that ink ejected from the end nozzle bore is ejected in a direction away from the adjacent nozzle bore. 27. The printhead according to claim 17, wherein the portion of the printhead is shaped such that the end nozzle bore is positioned at an angle relative to the adjacent nozzle bore. 28. A printhead comprising: a housing, portions of the housing defining a plurality of nozzle bores including an end nozzle bore and a second nozzle bore adjacent to the end nozzle bore, a portion of the housing shaped to balance forces acting in a substantially perpendicular direction relative to a path of ink ejected through the end nozzle bore and the adjacent nozzle bore as viewed from a plane substantially perpendicular to a plane defined by the ejected ink, portions of the housing defining an ink delivery channel, the portion of the housing including an end wall positioned proximate the end nozzle bore in the ink delivery channel, the end wall being positioned adjacent the end nozzle bore at a location opposite the adjacent nozzle bore, wherein the end wall is positioned at a distance from about 2 microns to about 10 microns from an edge of the end nozzle bore. 29. A printhead comprising: a housing, portions of the housing defining a plurality of nozzle bores including an end nozzle bore and a second nozzle bore adjacent to the end nozzle bore, a portion of the housing shaped to balance forces acting in a substantially perpendicular direction relative to a path of ink ejected through the end nozzle bore and the adjacent nozzle bore as viewed from a plane substantially perpendicular to a plane defined by the ejected ink, the adjacent nozzle bore being a second nozzle bore, the printhead having a third nozzle bore adjacent to the second nozzle bore, the third nozzle bore being spaced apart from the second nozzle bore by a first distance, wherein the portion of the printhead is shaped such that the end nozzle bore is positioned spaced apart from the second nozzle bore by a second distance, the second distance being greater than the first distance. 30. The printhead according to claim 29, wherein the second distance is substantially equal to a distance that causes ink drops formed from the ink ejected from the end nozzle bore, the second nozzle bore, and the third nozzle bore to be substantially equally spaced apart at a location removed from the printhead. 31. The printhead according to claim 30, wherein the location removed from the printhead includes a location on a receiver. 32. A method of balancing forces acting on ink ejected from an end nozzle comprising: providing a printhead having a plurality of nozzles including an end nozzle; and shaping a portion of the printhead such that forces acting on the ink ejected from the end nozzle are balanced such that ink drops formed from the ink ejected by the printhead are substantially equally spaced apart at a location removed from the printhead, wherein the forces act on the ink in a direction substantially perpendicular to the ejected ink. 33. The method according to claim 32, wherein shaping a portion of the printhead such that forces acting on the ink ejected from the end nozzle are balanced includes angling the portion of the printhead such that the end nozzle is positioned at an angle relative to a second nozzle. 34. The method according to claim 32, wherein shapi
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