RU2000122830A

RU2000122830A - CURVED COMPRESSOR BLADE

Info

Publication number: RU2000122830A
Application number: RU2000122830/06A
Authority: RU
Inventors: Питер Джон ВУД; Джон Джаред ДЕКЕР; Грегори Тодд ШТАЙНМЕТЦ; Марк Джозеф МИЛЬКЕ
Original assignee: Дженерал Электрик Компани
Priority date: 1999-12-06
Filing date: 2000-09-01
Publication date: 2002-08-10

Claims

1. The compressor blade 12 for the rotor disk 14 having an axial, tangential and radial orthogonal axis, comprising pressure and vacuum sides 18, 20, extending radially from the base 22 to the tip 24 and in the axial direction between the front and rear edges 26, 28; cross sections having corresponding chords and curved lines extending between the front and rear edges, and centers of gravity 34 aligned on the curved axis 36 of the overlapping sections; and the rarefaction side 20 is curved along the trailing edge 28 near the base 22 to reduce flow stall there.

2. The blade according to claim 1, in which the cross-sectional axis contains two orthogonal components, including the tangential cross-sectional axis 36a and the cross-sectional axial axis 36b, and the tangential cross-section axis is curved near the base 22 of the blade for bending the rarefaction side 20 there.

3. The blade according to claim 2, in which the tangential axis 36a of the cross-sectioning is first deflected forward from the base 22 in the direction of the pressure side 18 and then deflected back, in the direction of the rarefaction side 20 to a point adjacent to the tip 24, and the bending of these sections near the base changes to get there bending the rarefaction side.

4. The blade according to claim 3, in which the deflection forward is a deviation in the direction of rotation of the blade on the disk 14, and the deviation back is opposite to the direction of rotation.

5. The blade according to claim 3, in which the trailing edge 28 is oriented essentially perpendicular to the base on the curved side of the vacuum 20 and deviates back above it.

6. The blade according to claim 1, further comprising a means 36b for limiting aerodynamic bending backward of the front and rear edges 26, 28 of the blade relative to each other.

7. The blade according to claim 6, wherein the cross-section axis has two orthogonal components, including a tangential cross-section axis 36 a and a cross-section axial axis 36 b; and means for limiting bending includes bending the axial axis 36b of the overlapping sections.

8. The blade according to claim 7, in which the means for limiting bending further includes variable distributions of the chords of the cross sections.

9. The blade according to claim 8, in which the means for limiting bending further includes a leading edge 26 having an axially coplanar outer part including an extremity 24 and a part located closer to the base deflected forward from the outer part to the base 22.

10. The blade according to claim 9, in which the transition between the outer and inner parts of the leading edge is located near the middle of the span of the blade.

11. The blade according to claim 10, in which the transition in the middle of the span is in the range from 40% of the length of the scapula to 60% of the length of the scapula.

12. The blade according to claim 8, in which the means for limiting bending further includes a trailing edge 28 having an axially coplanar inner part including a base 22, and an outer part deviating from the inner part forward to the tip 24.

13. The blade according to claim 9, in which the transition between the inner and outer parts of the trailing edge is located between the middle of the span of the blade and the base 22.

14. The blade according to claim 13, in which the inner transition is in the range from about 15% of the height of the scapula to about 25% of the height of the scapula.

15. The blade according to claim 8, in which the means for limiting bending further includes a leading edge 26 having an axially coplanar outer part including an extremity 24 and an inner part deflected forward from the outer part to the base 22; and the trailing edge 28 has an axially coplanar inner part including a base 22 and an outer part deflected forward from the inner part of the trailing edge to the tip 24.

16. The blade according to claim 15, in which the transition between the outer and inner parts of the leading edge is located near the middle of the span of the blade; and the transition between the inner and outer parts of the trailing edge is located between the middle of the span and the base 22.

17. The blade according to claim 16, in which the transition in the middle of the span at the leading edge is in the range from about 40% of the height of the blade to about 60% of the height of the blade; and an inner transition at the trailing edge ranges from about 15% of the height of the blade to about 25% of the height of the blade.

18. The blade 12 of the compressor for the disk 14 of the rotor having an axial, tangential and radial orthogonal axis, containing sides 18, 20 of pressure and vacuum, extending in the radial direction from the base 22 to the tip 24 and in the axial direction between the front and rear edges 26, 28 ; cross sections having respective chords and curved lines extending between the front and rear edges, and centers of gravity 34 aligned with the curved axis 36 of the overlapping sections; the rarefaction side 20 is curved along the trailing edge 28 near the base 22 to reduce flow stall there; and in which the cross-sectional axis has two orthogonal components, including the tangential cross-sectional axis 36a and the cross-sectional axial axis 36b, and the tangential cross-section axis is curved near the base 22 of the blade for bending the rarefaction side there.

19. The compressor blade 12 for the rotor disk 14, having an axial, tangential and radial orthogonal axis, containing pressure and vacuum sides 18, 20 extending in the radial direction from the base 22 to the tip 24 and in the axial direction between the front and rear edges 26, 28 ; cross sections having respective chords and curved lines extending between the front and rear edges, and centers of gravity 34 aligned with the curved axis 36 of the overlapping sections; and means 36b for limiting aerodynamic backward bending of the leading and trailing edges of the blade relative to each other.

20. The blade according to claim 19, in which the cross-section axis 36a is curved near the base 22 of the blade for bending the rarefaction side 20 there.

21. The blade according to claim 20, extending radially outward from the rotor disk 14 in the unitary blade rim 10, and the rarefaction side 20 is curved near the disk to reduce flow stall at the base there.