An exemplary gas turbine includes a rotor unit, a tie-bolt, a cooling air pipe, and a clamping member. The rotor unit includes rotor blades and rotor disks. The rotor blades are arranged on outer circumferential surfaces of the rotor blades. The tie-bolt extends along the central axis of the rotor u
An exemplary gas turbine includes a rotor unit, a tie-bolt, a cooling air pipe, and a clamping member. The rotor unit includes rotor blades and rotor disks. The rotor blades are arranged on outer circumferential surfaces of the rotor blades. The tie-bolt extends along the central axis of the rotor unit through the rotor disks and fastens the rotor disks. The cooling air pipe has the tie-bolt arranged therethrough and forms a ring-shaped cooling air flow path in an internal space thereof with the tie-bolt through which a cooling air is passed. The clamping member is arranged in the ring-shaped cooling air flow path so as to support the tie-bolt with respect to the cooling air pipe.
대표청구항▼
1. A gas turbine comprising: a rotor unit including a plurality of rotor disks and a plurality of rotor blades, the rotor blades being respectively arranged on outer circumferential surfaces of the rotor disks;a tie-bolt disposed along a central axis of the rotor unit and passing through the rotor d
1. A gas turbine comprising: a rotor unit including a plurality of rotor disks and a plurality of rotor blades, the rotor blades being respectively arranged on outer circumferential surfaces of the rotor disks;a tie-bolt disposed along a central axis of the rotor unit and passing through the rotor disks, the tie-bolt being operable to fasten the rotor disks;a cooling air pipe, the tie-bolt being disposed in the cooling air pipe thereby defining a ring-shaped cooling air flow path in an internal space between the cooling air pipe and the tie-bolt, the ring-shaped cooling air flow path being operable to pass cooling air therethrough; anda clamping member disposed in the ring-shaped cooling air flow path and operable to support the tie-bolt with respect to the cooling air pipe, to pass the cooling air therethrough, and to pressurize the cooling air when the clamping member is rotated,wherein the clamping member includes an inner ring having an inner circumferential surface and an outer circumferential surface,an outer ring having an inner circumferential surface and an outer circumferential surface, anda plurality of support arms each having one end connected to the outer circumferential surface of the inner ring and another end connected to the inner surface of the outer ring. 2. The gas turbine according to claim 1, wherein the rotor unit includes a compressor rotor, a turbine rotor, and a hollow shaft which couples the compressor rotor and the turbine rotor, andthe cooling air pipe extends from a compressor rotor disk through the hollow shaft to a turbine rotor disk. 3. The gas turbine according to claim 1, wherein the inner circumferential surface of the inner ring is in contact with an outer circumferential surface of the tie-bolt,the outer circumferential surface of the outer ring is in contact with an inner circumferential surface of the cooling air pipe, andthe plurality of support arms are configured in an impeller shape to pressurize the cooling air when rotated. 4. The gas turbine according to claim 1, wherein at least one of a leading edge and a trailing edge of one of the support arms has a linear shape, andan extension of the linear shaped leading edge or the linear shaped trailing edge forms a crossing angle with respect to a straight line perpendicular to and passing through the central axis. 5. The gas turbine according to claim 1, wherein at least one of a leading edge and a trailing edge of one of the support arms has a curved shape, andan extension passing through ends of the curved shaped leading edge or the curved shaped trailing edge forms a crossing angle with respect to a straight line perpendicular to and passing through the central axis. 6. The gas turbine according to claim 1, wherein the inner ring and the outer ring are disposed at a same axial position. 7. The gas turbine according to claim 1, wherein the inner ring has a shape in which an inner diameter of the inner ring decreases along the central axis, andthe tie-bolt includes a stopper having a shape corresponding to the shape of the inner ring. 8. The gas turbine according to claim 1, wherein the inner ring has a shape in which an inner diameter of the inner ring decreases along the central axis forming a stepped portion, andthe tie-bolt includes a stopper having a shape corresponding to the stepped portion of the inner ring. 9. The gas turbine according to claim 1, wherein the clamping member includes one or more stopper protrusions extending from an inner surface of the inner ring toward the central axis, andthe tie-bolt includes a groove defined at a position corresponding to the one or more stopper protrusions. 10. A gas turbine comprising: a rotor unit including a plurality of rotor disks and a plurality of rotor blades, the rotor blades respectively arranged on outer circumferential surfaces of the rotor disks;a tie-bolt disposed through the rotor disks, the tie-bolt being operable to fasten the rotor disks;a first cooling air pipe, the tie-bolt being disposed in the first cooling air pipe thereby defining a first ring-shaped cooling air flow path in an internal space between the first cooling air pipe and the tie-bolt, the first ring-shaped cooling air flow path being operable to pass a portion of cooling air;a second cooling air pipe, the first cooling air pipe being disposed in the second cooling air pipe thereby defining a second ring-shaped cooling air flow path in an internal space between the second cooling air pipe and the first cooling air pipe, the second ring-shaped cooling air flow path being operable to pass a portion of the cooling air;a first clamping member disposed in the first ring-shaped cooling air flow path and operable to support the tie-bolt with respect to the first cooling air pipe; anda second clamping member disposed in the second ring-shaped cooling air flow path and operable to support the first cooling air pipe with respect to the second cooling air pipe, wherein the first and second clamping members are operable to pass the cooling air therethrough, andthe first and second clamping members are operable to pressurize the cooling air when rotated,wherein the first and second clamping members each include an inner ring having an inner circumferential surface and an outer circumferential surface,an outer ring having an inner circumferential surface and an outer circumferential surface, anda plurality of support arms each having one end connected to the outer circumferential surface of the inner ring and another end connected to the inner surface of the outer ring. 11. The gas turbine according to claim 10, wherein the rotor unit includes a compressor rotor, a turbine rotor, and a hollow shaft which couples the compressor rotor and the turbine rotor, andthe first and second cooling air pipes respectively extended from a compressor rotor disk through the hollow shaft to a turbine rotor disk. 12. The gas turbine according to claim 11, wherein the compressor rotor includes a plurality of compressor rotor disks and the turbine rotor comprises a plurality of turbine rotor disks, andthe compressor rotor is operable to pressurize a portion of the cooling air by extracting the portion of the cooling air from one of the compressor rotor disks, pressurizing the portion of the cooling air, and transferring the pressurized portion of the cooling air to one of the turbine rotor disks through the first and second cooling air pipes. 13. The gas turbine according to claim 12, wherein the rotor unit is operable to extract the portion of the cooling air passing through the first cooling air pipe and the portion of the cooling air passing through the second cooling air pipe from the compressor rotor disk, pressurize the extracted cooling air, and transfer the pressurized cooling air to one of the turbine rotor disks, andthe rotor unit is operable to extract the portion of the cooling air passing through the first cooling air pipe and the portion of the cooling air passing through the second cooling air pipe from different extraction positions. 14. The gas turbine according to claim 13, wherein the compressor rotor includes a first extraction position operable to extract the portion of the cooling air passing through the first cooling air pipe,the compressor rotor includes a second extraction position operable to extract the portion of the cooling air passing through the second cooling air pipe, andthe first extraction position is disposed at an upstream side of the second extraction position. 15. The gas turbine according to claim 11, wherein the first clamping member is arranged at a central axial position closer to the compressor rotor than the second clamping member. 16. The gas turbine according to claim 10, wherein the inner circumferential surface of the first inner ring is in contact with an outer circumferential surface of the tie-bolt,the outer circumferential surface of the first outer ring is in contact with an inner circumferential surface of the first cooling air pipe, andthe inner circumferential surface of the second inner ring is in contact with an outer circumferential surface of the first cooling air pipe;the outer circumferential surface of the second outer ring is in contact with an inner circumferential surface of the second cooling air pipe, andthe first plurality of support arms and the second plurality of support arms are each configured in an impeller shape to pressurize the cooling air when rotated. 17. The gas turbine according to claim 10, wherein the first and second clamping members have different air blowing capacities from each other. 18. The gas turbine according to claim 10, wherein a count of the first plurality of support arms of the first clamping member is different from a count of the second plurality of support arms of the second clamping member. 19. The gas turbine according to claim 10, wherein a radial length of one of the first plurality of support arms is different from a radial length of one of the second plurality of support arms. 20. The gas turbine according to claim 10, wherein a central axial width of one of the first plurality of support arms is different from a central axial width of one of the second plurality of support arms.
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이 특허에 인용된 특허 (7)
Becker Bernard (Mulheim DEX), Device for damping vibrations in rotors of turbomachines.
Reigel James R. (Cincinnati OH) Corsmeier Robert J. (Cincinnati OH) Bertke James H. (Cincinnati OH) Lenahan Dean T. (Cincinnati OH), Turbine cooling air transferring apparatus.
Benkler, Francois; Ehehalt, Ulrich; Hoell, Harald; Loch, Walter; Schneider, Peter-Andreas, Turbine with at least one rotor which comprises rotor disks and a tie-bolt.
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