초록 ▼

A turbine engine variable stator vane includes a platform having a circumference adjoining opposing surfaces. A trunnion extends from one of the opposing surfaces. An airfoil is supported on the other of the opposing surfaces opposite the trunnion. The airfoil includes leading and trailing edges. An

A turbine engine variable stator vane includes a platform having a circumference adjoining opposing surfaces. A trunnion extends from one of the opposing surfaces. An airfoil is supported on the other of the opposing surfaces opposite the trunnion. The airfoil includes leading and trailing edges. An overhanging portion of the airfoil, which includes the trailing edge, extends beyond the circumference. A fillet joins the airfoil and the other opposing surface and extends along the other opposing surface in a lateral direction beyond the circumference toward the trailing edge. In one example, the fillet is provided about the entire perimeter of the airfoil. The airfoil includes pressure and suction sides. The circumference includes a relief cut extending from the suction side and adjoining a notch in the circumference to form an apex overlying the end surface.

대표청구항 ▼

What is claimed is: 1. A variable stator vane for a turbine engine comprising: a platform having a circumference adjoining opposing surfaces, and a trunnion extending from one of the opposing surfaces; an airfoil supported on the other of the opposing surfaces opposite the trunnion, the airfoil inc

What is claimed is: 1. A variable stator vane for a turbine engine comprising: a platform having a circumference adjoining opposing surfaces, and a trunnion extending from one of the opposing surfaces; an airfoil supported on the other of the opposing surfaces opposite the trunnion, the airfoil including leading and trailing edges, and an overhanging portion that includes the trailing edge, which includes an end surface that extends beyond the circumference; and a fillet joining the airfoil and the other opposing surface and extending along the other opposing surface in a lateral direction beyond the circumference toward the trailing edge, wherein the fillet extends laterally about an entire perimeter of the airfoil at the other opposing surface and the end surface. 2. The stator vane according to claim 1, wherein the end surface is generally planar. 3. The stator vane according to claim 2, wherein the end surface has a width that is greater than an airfoil thickness, with an edge extending about the overhanging portion between the end surface and the fillet, the edge thickness greater than zero. 4. The stator vane according to claim 1, wherein the fillet wraps around the trailing edge and extends to the platform. 5. The stator vane according to claim 1, wherein the platform includes a relief cut adjoining a notch to form an apex overlaying the end surface. 6. The stator vane according to claim 5, wherein the notch includes a radius overlapping the fillet on the platform. 7. The stator vane according to claim 5, comprising transition surfaces sloping from the relief cut and notch toward the end surface. 8. The stator vane according to claim 1, wherein the leading edge is inset from the circumference. 9. A variable stator vane for a turbine engine comprising: a platform having a circumference adjoining opposing surfaces, and a trunnion extending from one of the opposing surfaces; an airfoil supported on the other of the opposing surfaces opposite the trunnion and including pressure and suction sides, the airfoil including leading and trailing edges, and an overhanging portion that includes the trailing edge, which includes an end surface between the pressure and suction sides extending beyond the circumference; and wherein the circumference includes a relief cut extending from the suction side and adjoining a notch in the circumference to form an apex overlying the end surface. 10. The stator vane according to claim 9, wherein the notch includes an axially extending radius. 11. The stator vane according to claim 10, comprising a fillet joining the airfoil and the other opposing surface, wherein the radius overlaps the fillet on the platform. 12. The stator vane according to claim 9, wherein transition surfaces slope from the relief cut and notch toward the end surface. 13. The stator vane according to claim 9, wherein the end surface is generally planar, the end surface having a width greater than an airfoil thickness extending between the pressure and suction sides, the end surface extending away from the circumference toward the trailing edge. 14. The stator vane according to claim 13, comprising a fillet joining the airfoil and the other opposing surface and extending along the other opposing surface in a lateral direction beyond the circumference toward the trailing edge, wherein an edge adjoins the fillet and the end surface and wraps around the overhanging portion, the edge including a thickness that is greater than zero about the entire perimeter of the overhanging portion. 15. The stator vane according to claim 9, wherein the notch is generally perpendicular to a trailing edge chord reference line. 16. The stator vane according to claim 15, wherein the relief cut is at an obtuse angle relative to the trailing edge chord reference line. 17. The stator vane according to claim 9, wherein the pressure side includes a concave shape and the suction side includes a convex shape.