There is proposed a bladed rotor for a turbo-machine, the rotor having a rotational axis and including a hub defining a plurality of circumferentially spaced-apart slots around its periphery. Each slot slideably receives a root portion of a respective rotor blade, the root portion of each blade defi
There is proposed a bladed rotor for a turbo-machine, the rotor having a rotational axis and including a hub defining a plurality of circumferentially spaced-apart slots around its periphery. Each slot slideably receives a root portion of a respective rotor blade, the root portion of each blade defining a radially inwardly open retaining groove within which a respective region of a retaining ring locates to retain the blades in said slots. The retaining ring also engages within a plurality of radially inwardly open hub grooves formed around the hub. The retaining ring engages each said hub groove such that a radial gap is defined between the retaining ring and a radially outermost region of each hub groove.
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1. A bladed rotor for a turbo-machine, the bladed rotor having a rotational axis and comprising a hub including a plurality of circumferentially spaced-apart ribs around the periphery of the hub, the ribs defining a plurality of spaced-apart slots, each of the spaced-apart slots slideably receiving
1. A bladed rotor for a turbo-machine, the bladed rotor having a rotational axis and comprising a hub including a plurality of circumferentially spaced-apart ribs around the periphery of the hub, the ribs defining a plurality of spaced-apart slots, each of the spaced-apart slots slideably receiving a root portion of a respective rotor blade of a plurality of rotor blades, the respective root portion of each respective rotor blade of the plurality of rotor blades defining a radially inwardly open blade retaining groove within which a respective region of a retaining ring locates to retain each of the rotor blades in the respective spaced-apart slots without the retaining ring making contact with a radially outermost region of the respective blade retaining grooves, wherein the retaining ring also engages within a plurality of radially inwardly open hub grooves formed in the ribs spaced around the hub,the retaining ring engages each of the hub grooves such that a radial gap is defined between the retaining ring and a radially outermost region of each of the blade retaining grooves, andthe engagement of the retaining ring within each of the hub grooves is effective to maintain a radial gap between the retaining ring and a radially outermost region of each of the blade retaining grooves wherein the retaining ring defines a first contact surface on a first flank of the retaining ring for engagement within each of the hub grooves, and the first contact surface lying at an acute angle to a plane orthogonal to the rotational axis of the bladed rotor, wherein each of the hub grooves defines a corresponding internal contact surface for contact with the first contact surface of the retaining ring, and the internal contact surface of each of the hub grooves lies at a substantially equal acute to a plane orthogonal to the rotational axis of the bladed rotor as the first contact surface of the retaining ring. 2. The bladed rotor according to claim 1, wherein each of the hub grooves defines a respective radially outermost internal surface, andthe retaining ring engages the hub grooves in a radially spaced relation to the respective radially outermost internal surfaces. 3. The bladed rotor according to claim 1, wherein the retaining ring is urged into engagement with the hub grooves such that the first contact surface of the retaining ring makes contact with the internal contact surface of each of the hub grooves over a contact area which is greater than each respective area of the radially outermost internal surface of each of the hub grooves. 4. The bladed rotor according to claim , wherein the retaining ring defines a second contact surface on an oppositely directed flank of the retaining ring and which lies in a plane orthogonal to the rotational axis, andthe second contact surface of the retaining ring is urged into contact with a radial surface of the hub. 5. The bladed rotor according to claim 4, wherein the second contact surface of the retaining ring is also urged into contact with a respective radial surface of the root portion of each of the rotor blades. 6. The bladed rotor according to claim 5, wherein the second contact surface of the retaining ring extends radially across an interface between the hub and the root portion of each of the rotor blades blade at a circumferential position of each of the rotor blades, which provides a seal across the interface, thereby helping to prevent axial leakage of gas past the retaining ring at the circumferential positions of the rotor blades. 7. The bladed rotor according to claim 1, wherein the retaining ring includes a region which is tapered in a radial cross-section so as to narrow in a radially outward direction. 8. The bladed rotor according to claim 7, wherein the region of the retaining ring which is tapered in the radial cross-section has a frustoconical radial cross-section shape. 9. The bladed rotor according to claim 1, wherein the retaining ring is radially outwardly biased. 10. The bladed rotor according to claim 9, wherein the radially outwards bias of the retaining ring is effective to urge the retaining ring into the engagement with the hub grooves. 11. The bladed rotor according to claim 1, provided in the form of a compressor rotor for a gas turbine engine. 12. The bladed rotor according to claim 1, wherein each hub groove extends completely across the circumferential width of its respective rib, and is thus open at both ends. 13. The bladed rotor according to claim 1, wherein a root platform of each rotor blade has an axial length which is substantially equal to an axial length of each rib, whilst a dovetail or fir-tree part of the blade root has an axial length which is equal to a length of the respective slot within which it is received. 14. The bladed rotor according to claim 1, wherein the retaining ring is urged into engagement with the hub grooves such that a first contact surface of the retaining ring makes contact with an internal contact surface of each of the hub grooves over a contact area which is greater than each respective area of the radially outermost internal surface of each of the hub grooves. 15. The bladed rotor according to claim 1, wherein the respective retaining grooves are interspaced between and radially aligned in end-to-end relationship with the hub grooves formed in the ribs. 16. The bladed rotor according to claim 1, wherein each of the hub grooves defines a corresponding internal contact surface for contact with a first contact surface of the retaining ring, andthe internal contact surface of each of the hub grooves is arranged to face towards a main body of a hub of the bladed rotor, the outward bias of the retaining ring urging a second contact surface of the retaining ring into intimate contact with an adjacent radial surface of the hub of the bladed rotor.
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이 특허에 인용된 특허 (4)
Agram Daniel (Melun FRX) Charbonnel Jean-Louis (Boissise le Roi FRX) Joly Philippe G. E. (Vaux le Penil FRX) Miraucourt Grard G. (Brie Comte Robert FRX) Naudet Jacky S. (Bondoufle FRX) Prato Jean-Cla, Annular gasket disposed at one axial extremity of a rotor and covering blade feet.
Adde Danielle C. R. (Cesson FRX) Charbonnel Jean-Louis (Boissise le Roi FRX) Gougeon Philippe F. P. (Fontainebleau FRX) Miraucourt Gerard G. (Brie Comte Robert FRX), Axial fixing arrangement for rotor blades of a turbomachine.
Bouru, Michel A.; Charbonnel, Jean-Louis; Prato, Jean-Claude, Sealing and retaining device for a rotor notched with pin settings receiving blade roots.
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