IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0482616
(2006-07-07)
|
등록번호 |
US-7520723
(2009-07-01)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
인용정보 |
피인용 횟수 :
6 인용 특허 :
16 |
초록
▼
A cooling system for a turbine airfoil of a turbine engine having a plurality of vortex cooling chambers positioned in an outer wall defining a suction side of the turbine airfoil. The vortex cooling chambers may extend generally spanwise and be positioned in the outer wall from a position in close
A cooling system for a turbine airfoil of a turbine engine having a plurality of vortex cooling chambers positioned in an outer wall defining a suction side of the turbine airfoil. The vortex cooling chambers may extend generally spanwise and be positioned in the outer wall from a position in close proximity to the leading edge to the trailing edge. The vortex cooling chambers may form a continuous cooling fluid flow path from the leading edge to the trailing edge in the outer wall forming the suction side of the turbine airfoil. The vortex cooling chambers may be fed with cooling air from a central cooling fluid chamber through a leading edge cooling chamber.
대표청구항
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I claim: 1. A turbine airfoil, comprising: a generally elongated, hollow airfoil having a leading edge, a trailing edge, a tip section at a first end, a root coupled to the airfoil at an end generally opposite the first end for supporting the airfoil and for coupling the airfoil to a disc, and a co
I claim: 1. A turbine airfoil, comprising: a generally elongated, hollow airfoil having a leading edge, a trailing edge, a tip section at a first end, a root coupled to the airfoil at an end generally opposite the first end for supporting the airfoil and for coupling the airfoil to a disc, and a cooling system formed from at least one cavity in the elongated, hollow airfoil; an outer wail forming the generally elongated airfoil, wherein a portion of the outer wall proximate to a suction side of the generally elongated airfoil includes a plurality of vortex cooling chambers extending in a generally spanwise direction; wherein at least one row of the vortex cooling chambers is positioned in close proximity to the leading edge of the generally elongated, hollow airfoil; at least one vortex cooling chamber bleed slot positioned between each row of vortex cooling chambers and in communication with the adjacent vortex cooling chambers; at least one trailing edge bleed slot extending from one of the vortex cooling chambers through the trailing edge for exhausting cooling fluids from the generally elongated airfoil; wherein the vortex cooling chambers, the at least one vortex cooling chamber bleed slot, and the at least one trailing edge bleed slot form a continuous cooling circuit in the outer wall of the generally elongated, hollow airfoil from close proximity of the leading edge, along the suction side and through the trailing edge; and a leading edge cooling channel positioned proximate to the leading edge and extending generally spanwise and at least one leading edge bleed slot positioned in the outer wall and extending between the leading edge cooling channel and at least one of the plurality of vortex cooling chambers. 2. The turbine airfoil of claim 1, wherein the at least one vortex cooling chamber bleed slot comprises a plurality of bleed slots extending generally spanwise in the outer wall. 3. The turbine airfoil of claim 2, wherein the plurality of bleed slots form a first row of vortex cooling chamber bleed slots that are offset in a spanwise direction from a second row of vortex cooling chamber bleed slots positioned adjacent to the first row. 4. The turbine airfoil of claim 3, wherein a pattern formed from the first and second offset rows of vortex cooling chamber bleed slots is repeated throughout the rows of vortex cooling chambers and rows of vortex cooling chamber bleed slots. 5. The turbine airfoil of claim 1, wherein the at least one vortex cooling chamber bleed slot positioned between each row of vortex cooling chambers and in communication with the adjacent vortex cooling chambers extends into contact with each vortex cooling chamber along a line generally tangential to an inner surface of the vortex cooling chamber proximate to an outer surface of the suction side of the airfoil. 6. The turbine airfoil of claim 1, wherein the at least one cavity in the elongated, hollow airfoil comprises at least one central cooling fluid chamber. 7. The turbine airfoil of claim 6, wherein the central cooling fluid chamber is in fluid communication with the leading edge cooling channel through at least one central cooling fluid chamber bleed slot. 8. The turbine airfoil of claim 7, wherein the at least one central cooling fluid chamber bleed slot is positioned proximate to a pressure side of the generally elongated, hollow airfoil. 9. The turbine airfoil of claim 6, further comprising a plurality of pin fins positioned within the central cooling fluid chamber extending generally from an outer wall on a pressure side toward the suction side. 10. The turbine airfoil of claim 1, further comprising a plurality of trip strips positioned in the at least one leading edge cooling channel. 11. The turbine airfoil of claim 1, wherein at least a portion of the plurality of vortex cooling chambers include trip strips. 12. The turbine airfoil of claim 11, wherein the plurality of vortex cooling chambers include trip strips extending generally spanwise and positioned on an inner surface of the vortex cooling chambers proximate to an outer surface of the suction side of the generally elongated, hollow airfoil. 13. The turbine airfoil of claim 1, further comprising at least one re-supply hole in the outer wall placing at least one of the plurality of vortex cooling chambers in communication with a central cooling fluid chamber. 14. The turbine airfoil of claim 13, wherein the at least one re-supply hole comprises at least one first re-supply hole positioned downstream of a vortex cooling chamber that is adjacent to the leading edge cooling channel and at least one second re-supply hole positioned downstream of the first re-supply hole. 15. A turbine airfoil, comprising: a generally elongated, hollow airfoil having a leading edge, a trailing edge, a tip section at a first end, a root coupled to the airfoil at an end generally opposite the first end for supporting the airfoil and for coupling the airfoil to a disc, and a cooling system formed from at least one cavity in the elongated, hollow airfoil; an outer wall forming the generally elongated airfoil, wherein a portion of the outer wall proximate to a suction side of the generally elongated airfoil includes a plurality of vortex cooling chambers extending in a generally spanwise direction; wherein the at least one cavity in the elongated, hollow airfoil comprises at least one central cooling fluid chamber; a leading edge cooling channel positioned proximate to the leading edge and extending generally spanwise; at least one leading edge bleed slot positioned in the outer wall and extending between the leading edge cooling channel and at least one of the plurality of vortex cooling chambers; at least one vortex cooling chamber bleed slot positioned between each row of vortex cooling chambers and in communication with the adjacent vortex cooling chambers; at least one trailing edge bleed slot extending from one of the vortex cooling chambers through the trailing edge for exhausting cooling fluids from the generally elongated airfoil; and at least one re-supply hole in the outer wall placing at least one of the plurality of vortex cooling chambers in communication with a central cooling fluid chamber. 16. The turbine airfoil of claim 15, wherein the at least one vortex cooling chamber bleed slot comprises a plurality of bleed slots positioned in rows extending generally spanwise in the outer wall that repeat a pattern in which a first row of vortex cooling chamber bleed slots are offset in a spanwise direction from a second row of vortex cooling chamber bleed slots positioned adjacent to the first row. 17. The turbine airfoil of claim 16, wherein the at least one vortex cooling chamber bleed slot positioned between each row of vortex cooling chambers and in communication with the adjacent vortex cooling chambers extends into contact with the each vortex cooling chamber along a line generally tangential to an inner surface of the vortex cooling chamber proximate to an outer surface of the suction side. 18. The turbine airfoil of claim 15, wherein the central cooling fluid chamber is in fluid communication with the leading edge cooling channel through at least one central cooling fluid chamber bleed slot positioned proximate to a pressure side of the generally, elongated, hollow airfoil and further comprises a plurality of pin fins extending generally from an outer wall on a pressure side of the airfoil toward the suction side in the central cooling fluid chamber. 19. A turbine airfoil, comprising: a generally elongated, hollow airfoil having a leading edge, a trailing edge, a tip section at a first end, a root coupled to the airfoil at an end generally opposite the first end for supporting the airfoil and for coupling the airfoil to a disc, and a cooling system formed from at least one cavity in the elongated, hollow airfoil; an outer wall forming the generally elongated airfoil, wherein a portion of the outer wall proximate to a suction side of the generally elongated airfoil includes a plurality of vortex cooling chambers extending in a generally spanwise direction; wherein at least one row of the vortex cooling chambers is positioned in close proximity to the leading edge of the generally elongated, hollow airfoil; at least one vortex cooling chamber bleed slot positioned between each row of vortex cooling chambers and in communication with the adjacent vortex cooling chambers; and at least one trailing edge bleed slot extending from one of the vortex cooling chambers through the trailing edge for exhausting cooling fluids from the generally elongated airfoil; wherein the vortex cooling chambers, the at least one vortex cooling chamber bleed slot, and the at least one trailing edge bleed slot form a continuous cooling circuit in the outer wall of the generally elongated, hollow airfoil from close proximity of the leading edge, along the suction side and through the trailing edge; and at least one re-supply hole in the outer wall placing at least one of the plurality of vortex cooling chambers in communication with a central cooling fluid chamber. 20. The turbine airfoil of claim 19, wherein the at least one re-supply hole comprises at least one first re-supply hole positioned downstream of a vortex cooling chamber that is adjacent to the leading edge cooling channel and at least one second re-supply hole positioned downstream of the first re-supply hole.
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