IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0280440
(2011-10-25)
|
등록번호 |
US-9017030
(2015-04-28)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
13 |
초록
▼
A turbine engine airfoil structure including an airfoil adapted to extend across a gas passage, and a platform structure defining an endwall located at one end of the airfoil and positioned at a location forming a boundary of the gas passage. A saddle portion is associated with at least one airfoil
A turbine engine airfoil structure including an airfoil adapted to extend across a gas passage, and a platform structure defining an endwall located at one end of the airfoil and positioned at a location forming a boundary of the gas passage. A saddle portion is associated with at least one airfoil surface of the airfoil, the saddle portion defining a contour having a first radially outer edge located on the at least one airfoil surface and a second radially inner edge located radially inwardly from the radially outer edge. The contour includes a curvature in a plane extending generally perpendicular to the at least one airfoil surface and passing through the saddle portion, the curvature being radially spaced from the endwall and defining an apex located between the radially outer and inner edges of the saddle portion.
대표청구항
▼
1. A turbine engine airfoil array comprising: a laterally extending endwall with a series of airfoils projecting radially therefrom, each airfoil having a convex suction surface corresponding to an airfoil suction side and a laterally opposite concave pressure surface corresponding to an airfoil pre
1. A turbine engine airfoil array comprising: a laterally extending endwall with a series of airfoils projecting radially therefrom, each airfoil having a convex suction surface corresponding to an airfoil suction side and a laterally opposite concave pressure surface corresponding to an airfoil pressure side extending axially in chord between opposite leading and trailing edges;the airfoils cooperating with the endwall to define a series of fluid flow passages for directing flow in a downstream direction from the leading edge toward the trailing edge;a saddle portion associated with each suction surface, the saddle portion defining a contour having a first radially outer edge located on a respective suction surface and a second radially inner edge located radially inwardly from the radially outer edge;wherein the contour comprises a curvature in a plane extending radially and generally perpendicular to the suction surface and passing through the saddle portion, the curvature being a convexly curved portion and defining an apex located between the radially outer and inner edges of the saddle portion, wherein the apex of the curvature defines a center of curvature lying in the plane extending radially and generally perpendicular to the suction surface, and the center of curvature is located laterally at or inwardly from the suction surface in a lateral direction toward the pressure surface;wherein the radially inner edge of the saddle portion is located on the endwall, and wherein the contour comprises an inner section extending from the radially inner edge toward the apex and an outer section extending from the radially outer edge toward the apex, the inner and the outer sections each defining a radial dimension measured in a direction from the radially inner edge to the radially outer edge of the saddle portion and lying in the plane extending radially and generally perpendicular to the suction surface and a lateral dimension measured in a direction from the suction surface to the radially inner edge on the endwall and lying in the plane extending radially and generally perpendicular to the suction surface, wherein the radial dimension of the inner section is greater than the lateral dimension of the inner section, and the lateral dimension of the outer section is greater than the radial dimension of the outer section. 2. The airfoil array of claim 1, wherein the saddle portion is located along a downstream portion of the suction surface. 3. The airfoil array of claim 2, wherein the saddle portion extends axially along at least a portion of a region of the suction surface defined from about an axial midpoint of the airfoil to the trailing edge, the radially outer and inner edges of the contour diverging in a radial direction from a substantially common upstream point located adjacent to the mid-point of the airfoil and at a junction of the suction surface and the endwall, wherein the radially outer and inner edges extend to a maximum radial dimension adjacent to the trailing edge. 4. The airfoil array of claim 1, wherein the curvature of the contour further comprises a concavely curved portion in the plane extending radially and generally perpendicular to the suction surface, the concavely curved portion being contiguous with the convexly curved portion. 5. The airfoil array of claim 4, wherein the concavely curved portion is defined laterally within or inwardly from the suction surface as defined by a continuous wall surface outside of a boundary of the saddle portion. 6. The airfoil array of claim 1, wherein the radially inner edge of the saddle portion is located radially at the suction surface at a junction of the suction surface with the endwall. 7. The airfoil array of claim 1, wherein the saddle portion comprises a first saddle portion, and the airfoil including a second saddle portion associated with each suction surface, the second saddle portion defining a second contour having a first radially outer edge located on a respective suction surface and a second radially inner edge located on the respective suction surface and located radially inwardly from the radially outer edge; and wherein the second contour comprises a second curvature in a plane extending radially and generally perpendicular to the suction surface and passing through the second saddle portion, the second curvature being convexly curved and defining an apex located between the radially outer and inner edges of the second saddle portion. 8. The airfoil array of claim 1, wherein the suction surface is radially and axially asymmetrical relative to the pressure surface at the location of the saddle portion. 9. The airfoil array of claim 1, wherein the outer section defines a radially outwardly facing ledge. 10. A turbine engine airfoil structure comprising: an airfoil adapted to be supported to extend across a gas passage for a hot working gas in a turbine engine, the airfoil having a suction surface corresponding to an airfoil suction side and a laterally opposite pressure surface corresponding to an airfoil pressure side extending axially in chord between opposite leading and trailing edges;a platform structure defining an endwall located at one end of the airfoil and positioned at a location forming a boundary of the gas passage;a saddle portion associated with the suction surface, the saddle portion defining a contour having a first radially outer edge located on the suction surface and a second radially inner edge located radially inwardly from the radially outer edge; andwherein the contour comprises a curvature in a plane extending radially and generally perpendicular to the suction surface and passing through the saddle portion, the curvature being a convexly curved portion and being radially displaced from the endwall and defining an apex located between the radially outer and inner edges of the saddle portion, and the convexly curved portion extends an axial length of the saddle portion from an upstream location adjacent to an axial mid-point of the airfoil to a downstream location adjacent to the trailing edge of the airfoil, wherein the radially outer and inner edges of the contour diverge in a radial direction from a substantially common upstream point located adjacent to the mid-point of the airfoil and at a junction of the suction surface and the endwall, the radially outer and inner edges extending to a maximum radial dimension adjacent to the trailing edge; andwherein the radially inner edge of the saddle portion is located on the endwall, and a radial dimension of the contour, as measured from the inner edge to the outer edge of the saddle portion and lying in the plane extending radially and generally perpendicular to the suction surface, is equal to or greater than a lateral dimension of the contour, as measured from the suction surface to the radially inner edge on the endwall and lying in the plane extending radially and generally perpendicular to the suction surface. 11. The airfoil structure of claim 10, wherein the apex of the curvature defines a center of curvature lying in the plane extending radially and generally perpendicular to the suction surface, and the center of curvature is located laterally at or inwardly from the suction surface in a lateral direction toward the pressure surface; and wherein a distance between the apex and the center of curvature defines a radius of curvature having a radial component measured in a direction from the radially inner edge to the radially outer edge of the saddle portion and lying in the plane extending radially and generally perpendicular to the suction surface and a lateral component measured in a direction from the suction surface to the radially inner edge on the endwall and lying in the plane extending radially and generally perpendicular to the suction surface, wherein the lateral component of the radius of curvature is greater than the radial component. 12. The airfoil structure of claim 10, wherein the radially inner edge of the saddle portion is located radially at the suction surface at junction of the suction surface with the endwall. 13. The airfoil structure of claim 12, wherein the apex of the curvature defines a center of curvature lying in the plane extending radially and generally perpendicular to the suction surface, and the center of curvature is located radially outwardly from the endwall. 14. The airfoil structure of claim 12, wherein the curvature includes a convexly curved portion and a concavely curved portion located in radially spaced relation to each other. 15. The airfoil structure of claim 14, wherein at least one of the convexly curved portion and the concavely curved portion is located laterally between the suction surface and the pressure surface of the same airfoil. 16. The airfoil structure of claim 10, wherein a height of the saddle portion, defined as a lateral distance from the suction surface to the apex of the curvature defined by the contour, extends within a range between a maximum height that is about equal to a maximum thickness of the airfoil, defined by a maximum distance between the suction and pressure surfaces, and a minimum height that is about equal to a distance between the suction and pressure surfaces at the trailing edge. 17. The airfoil structure of claim 10, wherein the saddle portion comprises a first saddle portion, and the airfoil including a second saddle portion associated with the suction surface, the second saddle portion defining a second contour having a first radially outer edge located on the suction surface and a second radially inner edge located on the suction surface and located radially inwardly from the radially outer edge; and wherein the second contour comprises a second curvature in a plane extending generally perpendicular to the suction surface and passing through the second saddle portion, the second curvature defining an apex located between the radially outer and inner edges of the second saddle portion. 18. A turbine engine airfoil array comprising: a laterally extending endwall with a series of airfoils projecting radially therefrom, each airfoil having a convex suction surface corresponding to an airfoil suction side and a laterally opposite concave pressure surface corresponding to an airfoil pressure side extending axially in chord between opposite leading and trailing edges;the airfoils cooperating with the endwall to define a series of fluid flow passages for directing flow in a downstream direction from the leading edge toward the trailing edge;a saddle portion associated with each suction surface, the saddle portion defining a contour having a first radially outer edge located on a respective suction surface and a second radially inner edge located on the respective suction surface and located radially inwardly from the radially outer edge;wherein the contour comprises a curvature in a plane extending radially and generally perpendicular to the suction surface and passing through the saddle portion, the curvature being a convexly curved portion and defining an apex located between the radially outer and inner edges of the saddle portion; andthe convexly curved portion extends an axial length of the saddle portion from an upstream location adjacent to an axial mid-point of the airfoil to a downstream location adjacent to the trailing edge of the airfoil, wherein the radially outer and inner edges of the contour diverge radially extending in the downstream direction, the radially outer and inner edges extending to a maxium radial dimension at a location adjacent to the trailing edge. 19. The airfoil array of claim 18, wherein the apex of the curvature defines a center of curvature lying in the plane extending radially and generally perpendicular to the suction surface; and wherein a distance between the apex and the center of curvature defines a radius of curvature having a radial component measured in a direction from the radially inner edge to the radially outer edge of the saddle portion and lying in the plane extending radially and generally perpendicular to the suction surface and a lateral component measured in a direction from the suction surface to the radially inner edge on the endwall and lying in the plane extending radially and generally perpendicular to the suction surface, wherein the lateral component of the radius of curvature is greater than the radial component.
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