A dovetail type circumferential slot fixing for retaining blades of a bladed rotor assembly of a turbomachine which requires no additional loading slot. The shape and dimensions of the dovetail roots of the blades and the dovetail blade-retaining slot are such as to allow the blades to be loaded by
A dovetail type circumferential slot fixing for retaining blades of a bladed rotor assembly of a turbomachine which requires no additional loading slot. The shape and dimensions of the dovetail roots of the blades and the dovetail blade-retaining slot are such as to allow the blades to be loaded by introducing a flank of each root dovetail into the slot and rolling the blades in an axial direction. The blades are held outwards against radially inward facing faces of the blade-retaining slot by a support means which may be a detachable plate, flange member or nose bullet that engages the blade platforms.
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1. A bladed rotor assembly for a turbomachine comprising a hub having a dovetail shaped, circumferentially extending blade retaining slot, and a plurality of aerofoil shaped blades having dovetail shaped roots, each root having a toe portion and a heel portion, said roots being mounted in the blade
1. A bladed rotor assembly for a turbomachine comprising a hub having a dovetail shaped, circumferentially extending blade retaining slot, and a plurality of aerofoil shaped blades having dovetail shaped roots, each root having a toe portion and a heel portion, said roots being mounted in the blade retaining slot, the blade retaining slot having a radial cross-sectional shape dimensioned, constructed and arranged to permit the toe portion of the dovetail shaped roots to be first inserted into a corresponding toe portion of the blade retaining slot, and a heel portion of the dovetail shaped roots to be subsequently inserted into a corresponding heel portion of the blade retaining slot, thereby radially aligning the blade root portion in the dovetail shaped slot; and a blade root platform located between the dovetail shaped roots and the aerofoil shaped blades and provided with support means for radially outwardly torquing the blade root platform. 2. The bladed rotor assembly according to claim 1, wherein the blade root platform comprises two circumferentially extending edges having radially inwardly facing surfaces contacting radially outwardly facing surfaces of first and second radial extensions of the hub, said second radial extensions comprising said support means. 3. The bladed rotor assembly according to claim 2, wherein one of said two circumferentially extending edges of the platform contacts said first radial extension of the hub, said first radial extension being integral with the hub, and the other circumferentially extending edge of the platform contacts said second radial extension of the hub, said second radial extension being detachable from the hub. 4. The bladed rotor assembly according to claim 3, wherein the detachable extension comprises a segmented plate, a radially outwardly facing portion of the plate contacting a recess in one of the radially inwardly facing surfaces of the blade root platform and a radially inwardly facing portion of the segmented plate contacting a recess in a radially outwardly facing portion of the hub. 5. The bladed rotor assembly of claim 1, wherein one or more of the blades is provided with a means for engaging a feature of the hub to prevent the blades from traveling around the hub within the blade retaining slot. 6. The bladed rotor assembly of claim 5, wherein one or more of the blades is provided with splines which engage complementary shaped splines provided on the hub, thereby preventing the blades from traveling around the hub within the blade retaining slot. 7. The bladed rotor assembly of claim 1, wherein the hub is a compressor hub and surfaces of the toe and heel portions of the dovetail shaped blade retaining slot face radially inwardly and are angled relative to a radial plane, and engage respective radially outwardly facing surfaces of the toe and heel portions of the dovetail shaped root upon said insertion. 8. The bladed rotor assembly of claim 1, wherein center lines of the radial cross-sectional shape of the blade roots are offset from stacking lines of the blades. 9. A bladed rotor assembly for a turbomachine comprising a hub having a dovetail shaped, circumferentially extending blade retaining slot, and a plurality of aerofoil shaped blades having dovetail shaped roots, each root having a toe portion and a heel portion, mounted in the blade retaining slot, the blade retaining slot having a radial cross-sectional shape dimensioned, constructed and arranged to permit the toe portion of the dovetail shaped roots to be first inserted into corresponding toe portion of the blade retaining slot, and a heel portion of the dovetail shaped roots to be subsequently inserted into a corresponding heel portion of the blade retaining slot, thereby radially aligning the blade root portion in the dovetail shaped slot; the dovetail shaped blade retaining slot having a radially inwardly facing toe and heel surface angled relative to a radial plane, which engage respectively radially outwardly facing surfaces of said toe and heel portions of the dovetail shaped roots; and a blade root platform located between the dovetail shaped roots and the aerofoil shaped blades and provided with a support means for radially outwardly torquing the blade root platform. 10. The bladed rotor assembly of claim 9, wherein the blade root platform comprises two circumferentially extending edges having radially inwardly facing surfaces contacting radially outwardly facing surfaces of first and second radial extensions of the hub, said second radial extensions comprising said support means. 11. The bladed rotor assembly of claim 10, wherein one of said two circumferentially extending edges of the platform contacts said first radial extension of the hub, said first radial extension being integral with the hub, and the other circumferentially extending edge of the platform contacts said second radial extension of the hub, said second radial extension being detachable from the hub. 12. The bladed rotor assembly of claim 11, wherein the detachable extension comprises a segmented plate, a radially outwardly facing portion of the plate contacting a recess in one of the radially inwardly facing surface of the blade root platform and a radially inwardly facing portion of the segmented plate contacting a recess in a radially outwardly facing portion of the hub. 13. The bladed rotor assembly of claim 9, wherein one or more of the blades is provided with a means for engaging feature of the hub to prevent the blades from traveling around the hub within the blade retaining slot. 14. The bladed rotor assembly of claim 13, wherein one or more of the blades is provided with splines which engage complementary shaped splines provided on the hub, thereby preventing the blades from traveling around the hub within the blade retaining slot. 15. The bladed rotor assembly of claim 9, wherein center lines of the radial cross-sectional shape of the blade roots are offset from stacking lines of the blades. 16. A bladed rotor assembly for a turbomachine comprising a hub having a dovetail shaped, circumferentially extending blade retaining slot, and a plurality of aerofoil shaped blades having dovetail shaped roots, each root having a toe portion and a heel portion, said roots being mounted in the blade retaining slot, the blade retaining slot having a radial crosssectional shape dimensioned, constructed and arranged to permit the toe portion of the dovetail shaped roots to be first inserted into corresponding toe portion of the blade retaining slot, and a heel portion of the dovetail shaped roots to be subsequently inserted into a corresponding heel portion of the blade retaining slot, thereby radially aligning the blade root portion in the dovetail shaped slot; center lines of the radial cross-sectional shape of the blade roots being offset from stacking lines of the blades; and a blade root platform located between the dovetail shaped roots and the aerofoil shaped blades and provided with a support means for radially outwardly torquing the blade root platform. 17. The bladed rotor assembly of claim 16, wherein the blade root platform comprises two circumferentially extending edges having radially inwardly facing surfaces contacting radially outwardly facing surfaces of first and second radial extensions of the hub, said second radial extensions comprising said support means. 18. The bladed rotor assembly of claim 17, wherein one of said two circumferentially extending edges of the platform contacts said first radial extension of the hub, said first radial extension being integral with the hub, and the other circumferentially extending edge of the platform contacts said second radial extension of the hub, said second radial extension being detachable from the hub. 19. The bladed rotor assembly of claim 18, wherein the detachable extension comprises a segmented plate, a radially outwardly facing portion of the plate contacting a recess in one of the radially inwardly facing surfaces of the blade root platform and a radially inwardly facing portion of the segmented plate contacting a recess in a radially outwardly facing portion of the hub. 20. The bladed rotor assembly of claim 16, wherein one or more of the blades is provided with a means for engaging a feature of the hub to prevent the blades from traveling around the hub within the blade retaining slot. 21. The bladed rotor assembly of claim 20, wherein one or more of the blades is provided with splines which engage complementary shaped splines provided on the hub, thereby preventing the blades from traveling around the hub within the blade retaining slot. 22. The bladed rotor assembly of claim 16, wherein the hub is a compressor hub and surfaces of the toe and heel portions of the dovetail shaped blade retaining slot face radially inwardly and are angled relative to a radial plane, and engage respective radially outwardly facing surfaces of the toe and heel portions of the dovetail shaped root upon said insertion.
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이 특허에 인용된 특허 (1)
Scalzo Augustine J. (Philadelphia PA) Gunderlock Richard P. (Chester Township PA), Rotor disk, blade, and seal plate assembly for cooled turbine rotor blades.
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