RU2010153518A - TURBO MACHINE ROTOR, MULTI-STAGE STEAM TURBINE AND METHOD OF INSTALLING SHOVELS - Google Patents

Abstract

1. A rotor of a turbomachine containing:! rotary drum located on the central axis,! slotted blades for a turbomachine stage attached to the rotor drum on mating surfaces in corresponding groove recesses cut in the rotor drum! at least one cooling passage formed inside the rotor drum and intended for said stage of the turbomachine, and! a low pressure outlet located at the inlet end of the rotor drum and designed to receive a cooling stream flowing through said cooling passage. ! 2. The rotor of claim 1, wherein said stage is a first, jet stage of a steam turbine rotor. ! 3. The rotor of claim 2, wherein the cooling stream is steam directed into the cooling passage from a downstream portion of the steam turbine including the space immediately downstream of each of said slotted stage blades. ! 4. The rotor of claim 3, wherein said slotted recesses are cut in the rotor drum to provide an axial entry of said slotted blades. ! 5. The rotor of claim 4, wherein said at least one cooling passage formed within the rotor drum for said stage of the turbomachine has at least one space formed between the male slot of said blade and the complementary male protrusion of the rotor drum. ! 6. The rotor according to claim 3, in which the said groove grooves are cut in the rotor drum to ensure the tangential entry of said grooved blades, and uk

Claims (20)

1. The rotor of a turbomachine, containing: rotary drum located on the central axis, blades with a grooved connection for the stage of a turbomachine attached to the rotor drum on mating surfaces in the corresponding groove recesses cut in the rotor drum, at least one cooling passage formed inside the rotor drum and intended for said stage of the turbomachine, and a low pressure outlet located at the inlet end of the rotor drum and designed to receive a cooling stream flowing through said cooling passage. 2. The rotor according to claim 1, wherein said step is a first, reactive step of a rotor of a steam turbine. 3. The rotor according to claim 2, in which the cooling stream is steam directed into the cooling passage from the part of the steam turbine located downstream, including the space located directly behind each of these stage blades with a grooved connection. 4. The rotor according to claim 3, in which these grooved recesses are cut out in a rotary drum with an axial inlet of said blades with a grooved connection. 5. The rotor according to claim 4, wherein said at least one cooling passage formed inside the rotor drum for said turbomachine stage has at least one space defined between the male groove element of said blade and the complementary male protrusion of the rotor drum. 6. The rotor according to claim 3, wherein said grooved recesses are cut in the rotor drum to provide tangential entry of said blades with a grooved connection, and said at least one cooling passage formed inside the rotor drum for the stage of the turbomachine has an opening made in the axial direction through the root of the scapula over its groove element. 7. The rotor according to claim 1, additionally having a through axial hole in the rotary drum, made at the base of each of the grooved recesses, and a rotary locking device installed in the specified through axial hole of the rotary drum and designed to hold the specified blade in the axial direction, while the specified device has a Central pin, at each end of which is made a holding head, and the front head is a rotatable half head, which when turning inwardly e radial position allows the entry of a blade with a grooved connection into the grooved cavity, and when turning into an external radial position, it holds said blade in the specified grooved groove. 8. The rotor according to claim 7, further comprising an annular intermediate insert for mounting around the rotor drum between the first and second steps for temporary use in the process of introducing blades with a grooved connection into the axial grooved recesses of the rotor drum, the axial length of the intermediate insert being proportional to axial positioning specified blades. 9. The rotor according to claim 1, having at least one through hole in the rotor drum extending from the cooling passage to the low pressure outlet, wherein at least leakage from the root of the first stage enters said outlet. 10. The rotor according to claim 9, further comprising sealing means located between the inlet side of the root portion of said blades and the leakage point from the root portion of the first stage and comprising hook-shaped seals. 11. A multi-stage steam turbine comprising: a stator located on a central axis, and a rotor located radially inside relative to the stator and containing: rotary drum blades with a grooved connection for a step of a steam turbine attached to a rotary drum on mating surfaces in respective grooved recesses cut in the rotor, at least one cooling passage formed inside the rotor drum and intended for said turbine stage, and a low pressure outlet located at the inlet end of the rotor drum and designed to receive a cooling stream flowing through the cooling passage. 12. The multi-stage steam turbine of claim 11, wherein said step is a first, reactive step. 13. The multi-stage steam turbine of claim 12, wherein the cooling stream is steam directed into the cooling passage from a portion of the steam turbine located downstream, including the space immediately adjacent to each of said blades with a grooved connection. 14. The multi-stage steam turbine of claim 13, wherein said grooved recesses are cut in a rotary drum to provide an axial inlet of said vanes with a grooved connection. 15. The multi-stage steam turbine of claim 14, wherein said at least one cooling passage formed inside the rotor drum for said turbomachine stage has at least one space formed between the groove element of said blade and the complementary male protrusion of the rotor drum. 16. The multi-stage steam turbine of claim 12, wherein said grooved recesses are cut in a rotary drum to provide tangential entry of said vanes with a grooved connection. 17. The multi-stage steam turbine according to clause 16, wherein said at least one cooling passage formed inside the rotary drum for the stage of the turbomachine has an opening made axially through the root of the blade above the groove element. 18. A multi-stage steam turbine according to claim 11, having at least one through hole in the rotor drum extending from the cooling passage to the low pressure outlet. 19. The multi-stage steam turbine according to claim 11, additionally having a through axial hole in the rotary drum, made at the base of each of the grooves, and a rotary locking device installed in the specified through axial hole of the rotary drum and designed to hold the specified blades in the axial direction, wherein said device has a central pin, on each end of which a holding head is made, and the front head is a rotatable half head, which When turning into an internal radial position, the blade allows the entry of a blade with a grooved connection into the grooved groove, and when turning into an external radial position, it holds said blade in the specified grooved groove. 20. The method of installation of the blades with a grooved connection with an axial entrance into the grooved grooves formed in the stage of the drum rotor, including: the introduction of the rotary locking device into the through axial hole made at the base of the groove recess of the stage of the drum rotor for each of the blades with a groove connection, the orientation of the half front head of the rotary locking device in the inner radial direction, the introduction of an intermediate insert into the space of the drum rotor between the specified and the next steps, the complete introduction of the blade with the grooved connection into the grooved recess of the stage of the rotary drum, the orientation of the half front head of the rotary locking device in the outer radial direction and removing the intermediate insert.