A compressor rotor is provided having a rotor blade groove thereon and also includes a device for cooling the rotor in the region of a compressor rotor exit. Efficient cooling is achieved by the compressor rotor, in a compressor rotor exit region, having a ring which is pushed concentrically, and at
A compressor rotor is provided having a rotor blade groove thereon and also includes a device for cooling the rotor in the region of a compressor rotor exit. Efficient cooling is achieved by the compressor rotor, in a compressor rotor exit region, having a ring which is pushed concentrically, and at a distance, forming a gap, over a rotor disk of the rotor, and is fastened on the disk, by the rotor blades, in the compressor rotor exit region, being inserted into corresponding grooves on the ring and being retained there, by first means for directing an axial flow of cooling medium from the compressor rotor exit through the ring, and by second means for deflecting the cooling medium which issues from the ring such that the cooling medium flows back in the axial direction through the gap between the ring and the rotor disk, encompassed by the ring.
대표청구항▼
1. A compressor rotor, comprising: at least one groove for accommodating rotor blades;in a region of the compressor rotor exit, a ring which is pushed concentrically, and at a distance, forming a gap, over a rotor disk of the compressor rotor, and fastened on the rotor disk, the ring having grooves
1. A compressor rotor, comprising: at least one groove for accommodating rotor blades;in a region of the compressor rotor exit, a ring which is pushed concentrically, and at a distance, forming a gap, over a rotor disk of the compressor rotor, and fastened on the rotor disk, the ring having grooves for accommodating rotor blades in the region of the compressor rotor exit;a plurality of axial holes in a distributed arrangement over a circumference of the ring, through which flows a cooling medium for directing an axial flow of the cooling medium from the compressor rotor exit through the ring; andan annular deflection region formed in the rotor disk and in communication with the axial holes and with the annular gap between the ring and the rotor disk for deflecting the cooling medium which issues from the ring in such a way that the cooling medium flows back in the axial direction through the annular gap between the ring and the rotor disk for bringing about a reversal of a flow direction of the cooling medium. 2. The compressor rotor as claimed in claim 1, wherein the ring is fastened on the rotor disk by a form fit between an inner generated surface of the ring and an outer generated surface of the rotor disk. 3. The compressor rotor as claimed in claim 1, wherein the ring, by an upstream-disposed end face, butts against an annular stop face of the rotor disk, and the ring and the rotor disk are interconnected in this region. 4. The compressor rotor as claimed in claim 3, wherein the connection between the ring and the rotor disk is effected by a form fit. 5. The compressor rotor as claimed in claim 3, wherein the connection between the ring and the rotor disk is effected by welding. 6. A gas turbine, comprising: a compressor;a combustion chamber;a turbine; anda rotor, the rotor including a compressor rotor having at least one groove for accommodating rotor blades, and in a region of the compressor rotor exit;a ring which is pushed concentrically, and at a distance, forming a gap, over a rotor disk of the compressor rotor, and is fastened on the rotor disk, the ring having grooves for accommodating rotor blades in the region of the compressor rotor exit;a plurality of axial holes in a distributed arrangement over a circumference of the ring, through which flows a cooling medium for directing an axial flow of the cooling medium from the compressor rotor exit through the ring; andan annular deflection region formed in the rotor disk and in communication with the axial holes and with the annular gap between the ring and the rotor disk for deflecting the cooling medium which issues from the ring in such a way that the cooling medium flows back in the axial direction through the annular gap between the ring and the rotor disk for bringing about a reversal of a flow direction of the cooling medium. 7. The gas turbine as claimed in claim 6, wherein the ring is arranged on a downstream-disposed end face directly next to stationary structural parts, and the cooling medium is used for cooling the compressor rotor exit via the structural parts. 8. The gas turbine as claimed in claim 7, comprising: deflection elements arranged at a transition between the structural parts and the ring for imposing a swirl in the rotational direction of the compressor upon the cooling medium which issues from the structural parts. 9. The gas turbine as claimed in claim 8, wherein the deflection elements are designed as baffle plates. 10. The gas turbine as claimed in claim 8, wherein the deflection elements are designed as swirl nozzles. 11. The gas turbine as claimed in claim 6, wherein a seal is arranged between the structural parts and the ring. 12. A method for cooling a compressor rotor of a gas turbine, wherein the gas turbine includes a compressor, a combustion chamber and a turbine, and the compressor has a multiplicity of rotor blades which are inserted into corresponding grooves on a compressor rotor and are retained there, the compressor rotor, in a region of the compressor rotor exit, has a ring which is pushed concentrically, and forming a gap, over a rotor disk of the compressor rotor, and is fastened on the rotor disk, and the rotor blades, in the region of the compressor rotor exit, are inserted into corresponding grooves on the ring and are retained there, and a plurality of axial holes in a distributed arrangement over a circumference of the ring, through which flows a cooling medium for directing an axial flow of the cooling medium from the compressor rotor exit through the ring and an annular deflection region formed in the rotor disk and in communication with the axial holes and with the annular gap between the ring and the rotor disk for deflecting the cooling medium which issues from the ring, the method comprising:directing a cooling medium from the compressor exit through the plurality of axial holes of the ring;deflecting the cooling medium by the annular deflection region, anddirecting the cooling medium back in the axial direction through the gap between the ring and the rotor disk to bring about a reversal of a flow direction of the cooling medium. 13. The method as claimed in claim 12, further comprising: imposing a swirl upon the cooling medium before it is introduced into the means for directing of the ring. 14. The compressor rotor as claimed in claim 1, wherein the rotor is formed of a single piece extending radially from an axis of rotation to a flow path of the compressor. 15. The compressor rotor as claimed in claim 1, wherein the ring extends over at least two compressor stages. 16. The compressor rotor as claimed in claim 1, wherein the means for directing an axial flow of cooling medium from the compressor rotor exit through the ring directs the flow of cooling medium in a first direction and the means for deflecting the cooling medium which issues from the ring in such a way that the cooling medium flows back in the axial direction through the annular gap between the ring and the rotor disk deflects the cooling medium in a second direction opposite from the first direction. 17. The gas turbine according to claim 6, wherein the ring extends over at least two compressor stages. 18. The method for cooling a compressor rotor according to the method as claimed in claim 12, wherein the ring extends over at least two compressor stages.
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이 특허에 인용된 특허 (8)
Campbell David A. (Borrowash GB2) Morley Frederick W. W. (Castle Donington GB2), Air cooled turbine for a gas turbine engine.
Willkop Franz (Munich DEX) Zaehring Gerhard (Woerthsee DEX) Popp Joachim (Dachau DEX) Ruetsch Robert (Karlsfed DEX), Apparatus for optimizing the blade and sealing slots of a compressor of a gas turbine.
Tschuor, Remigi; Neuhoff, Heinz; Strelkov, Iouri, Arrangement for the admission of cooling air to a rotating component, in particular for a moving blade in a rotary machine.
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