JP2013253597A - Turbine rotor and blade assembly with blind hole - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a turbine rotor and blade assembly with blind holes.SOLUTION: A turbine rotor and blade assembly is provided for a steam turbine. The turbine rotor and blade assembly may include a rotor, a plurality of buckets arranged around the rotor, a plurality of locking blades arranged around the rotor, and blind holes arranged adjacent to the locking blades and around the rotor.

Description

  This application and the resulting patent relates generally to turbomachines, and more particularly to turbine rotors and blades used in steam turbines with redundant lock blade retention screw holes to reduce tangential stress. The present invention relates to an assembly (hereinafter referred to as a turbine rotor / blade assembly).

  Steam turbine airfoils or buckets are generally disposed around the rotor at regular intervals in a bucket assembly. A bucket assembly can be created by inserting one bucket tangentially into the opening on the rotor and sliding the bucket circumferentially around the rotor. The bucket can be attached to the rotor by complementary male and female dovetails and other configurations. However, in order to close the bucket assembly, the last bucket must be held by features other than the dovetail. This last bucket, commonly referred to as a lock blade or closure bucket, can be secured to the rotor by one or more blade retention screws and the like entering or screwed into the rotor. Other types of connection means and other types of bucket assemblies can also be used.

  During operation, large centrifugal loads may be applied on the bucket and rotor. Thermally induced loads that occur simultaneously with such centrifugal loads and load transients can induce stress in the adjacent areas where the dovetail and bucket are attached to the rotor. These stresses can be large enough to adversely affect the cycle fatigue life of the rotor. Of particular concern may be the stress concentration of the rotor in relation to the blade retention screw that may enter directly into the rotor or otherwise be inserted.

  Accordingly, there is a need for improved turbine rotor and blade assemblies in steam turbines and the like. Preferably, such an improvement in the turbine rotor and blade assembly can reduce tangential thermal stress and improve the fatigue life of the entire rotor.

US Pat. No. 7,901,187

  The present application and the resulting patent provide a turbine rotor blade assembly for a steam turbine. The turbine rotor and blade assembly includes a rotor, a plurality of buckets disposed around the rotor, a plurality of lock blades disposed around the rotor, and disposed around the rotor adjacent to the lock blades. Blind holes.

  The present application and resulting patents further provide a turbine rotor and blade assembly for a steam turbine. The turbine rotor and blade assembly described herein includes a rotor, a plurality of buckets disposed about the rotor, a plurality of lock blades disposed about the rotor, and the lock blades to the rotor. A locking blade retaining screw for fixing and a blind hole disposed about the rotor adjacent to the locking blade may be included.

  The present application and the resulting patent provide a steam turbine. The steam turbine described herein is disposed around a rotor, a plurality of buckets disposed around the rotor, a plurality of locking blades disposed around the rotor, and the locking blades. A lock blade holding hole; a lock blade holding screw disposed in the lock blade holding hole for fixing the lock blade to the rotor; and one or more blind holes disposed around the rotor adjacent to the lock blade. Can be included.

  These and other features and improvements of the present application and resulting patent will become apparent to those skilled in the art upon review of the following detailed description of the preferred embodiments with reference to the drawings and claims. Let's go.

1 is a schematic diagram of one embodiment of a steam turbine comprising a plurality of sections. FIG. 1 is a partial perspective view of a turbine rotor blade assembly that can be described herein. FIG.

  Referring now to the drawings in which various reference characters represent similar elements throughout the several views, FIG. 1 is a schematic diagram of one embodiment of a steam turbine 10 that may be used herein. . The steam turbine 10 may include a first section 15 and a second section 20. Sections 15, 20 can be high pressure sections, medium pressure sections, and / or low pressure sections. Each of the sections 15, 20 can have a plurality of stages. The outer shell or casing 25 can be divided axially into an upper half section 30 and a lower half section 35, respectively. The rotor shaft 40 can extend through the casing 25 and can be supported by a plurality of journal bearings 45. Also, a plurality of seals 50 can surround the rotor shaft 40 around the ends or otherwise. The central section 55 can include one or more steam inlets 60. A flow splitter 65 can extend between the sections 15, 20.

  In use, the flow of steam 70 can enter sections 15, 20 through the steam inlet 60, and the stage can extract mechanical work from the steam and cause the rotor shaft 40 to rotate. The stream of steam 70 can then exit the sections 15, 20 for further processing and the like. The steam turbine 10 described herein is for illustrative purposes only. Steam turbines and / or other types of turbomachines with many other configurations and many other or different components may also be used herein.

  FIG. 2 illustrates a portion of a steam turbine 100 that may be described herein. Specifically, the steam turbine 100 may include a turbine rotor and blade assembly 110. Turbine rotor 120 includes a dovetail slot 130 formed therein. Multiple buckets 140 can be mounted on the rotor by tangential insertion and the like. Each bucket 140 can include a blade 150 and a dovetail 160. The dovetail 160 may be configured to mate with a dovetail slot 130 that is conformal to the rotor 120 (and vice versa). The rotor 120 and bucket 140 can have any size, shape, or configuration. Other components and other configurations can be used herein.

  The turbine rotor and blade assembly 110 may also include a lock blade 170. As described above, the dovetail 160 does not exist in the lock blade 170. Rather, the base 180 of the lock blade 170 can be held in the rotor 120 by a plurality of blade holding screws 190 and the like. The blade retention screw 190 may or may not include a head on one end, but can be a grab screw or other type of set screw. Each blade holding screw 190 can be positioned in the blade holding hole 200. The blade retention hole 200 can extend into the rotor 120 adjacent to the lock blade 170 and into the base 180 of the lock blade 170 where the lock blade 170 is retained. Any number of blade retention screws 190 can be used. Each component described herein can have any size, shape, or configuration. Other components and other configurations can also be used herein.

  As described above, there may be a tendency for tangential thermal stress to occur around the blade retention hole 200 during operation. Accordingly, the turbine rotor and blade assembly 110 can have a plurality of blind holes 210. The blind hole 210 can be positioned in the rotor 120 on one or both sides of the blade holding hole 200. The blind hole 210 can be disposed around the lock blade 170 on both its axial and radial sides. The blind hole 210 can have a similar size, shape, and configuration as compared to the blade retention hole 200. However, blind hole 210 can also have any size, shape, or configuration. Also, blind holes 210 of different sizes, shapes, or configurations can be used together herein. Any number of blind holes 210 can be used herein.

  Thus, blind hole 210 can improve the fatigue life of turbine rotor and blade assembly 110 by “shielding” blade retention hole 200 from local stress fields and the like. The blind hole 210 may span the blade retention hole 200 in the tangential direction and protect the blade retention hole 200 from tangential stresses that may be damaged. Thus, the blind hole 210 can improve the fatigue life of the rotor 120 and related components and extend the component life.

  It should be understood that the foregoing relates only to the specific embodiment of the present application and the resulting patent. Many changes and modifications may be made herein by one skilled in the art without departing from the general spirit and scope of the invention as defined by the appended claims and their equivalents.

10 steam turbine 15 first section 20 second section 25 casing 30 upper half 35 lower half 40 rotor shaft 45 bearing 50 seal 55 central section 60 steam inlet 65 flow splitter 70 steam flow 100 steam turbine 110 rotor blade set Solid 120 Rotor 130 Dovetail slot 140 Bucket 150 Blade 160 Dovetail 170 Lock blade 180 Base 190 Blade holding screw 200 Blade holding hole 210 Blind hole

Claims (20)

A turbine rotor and blade assembly for a steam turbine,
A rotor,
A plurality of buckets disposed around the rotor;
A plurality of locking blades disposed around the rotor;
An assembly comprising a blind hole disposed about the rotor adjacent to the lock blade.   The assembly of claim 1, wherein the locking blade includes a base.   The assembly of claim 2, further comprising one or more blade retention holes extending to a base of the rotor and the lock blade.   The assembly of claim 3, further comprising a blade retaining screw extending into each blade retaining hole to secure the locking blade to the rotor.   The assembly of claim 3, wherein the blind hole and the one or more blade retention holes have similar depths.   The assembly of claim 1, wherein the rotor includes a dovetail slot in which the plurality of buckets are disposed.   The assembly of claim 6, wherein each of the plurality of buckets includes a dovetail that mates with the dovetail slot.   The assembly of claim 7, wherein each of the plurality of buckets includes a blade extending from the dovetail.   The assembly of claim 1, further comprising a plurality of blind holes.   The assembly of claim 1, further comprising a first blind hole on a first axial side of the lock blade and a second blind hole on a second axial side of the lock blade. .   The assembly of claim 1, further comprising a first blind hole on a first radial side of the lock blade and a second blind hole on a second radial side of the lock blade. . A turbine rotor and blade assembly for a steam turbine,
A rotor,
A plurality of buckets disposed around the rotor;
A plurality of locking blades disposed around the rotor;
A lock blade holding screw for fixing the lock blade to the rotor;
A turbine rotor and blade assembly comprising a blind hole disposed about the rotor adjacent to the lock blade.   The assembly of claim 12, wherein the locking blade includes a base and the locking blade retaining screw extends to the base.   13. The assembly of claim 12, further comprising one or more blade retention holes extending to a base of a lock blade for the rotor and the lock blade retention screw.   The assembly of claim 14, wherein the blind hole and the one or more blade retention holes have similar depths.     The assembly of claim 12, wherein the rotor includes a dovetail slot in which the plurality of buckets are disposed.   The assembly of claim 12, further comprising a plurality of blind holes.   The assembly of claim 12, further comprising a first blind hole on a first axial side of the lock blade and a second blind hole on a second axial side of the lock blade. .   The assembly of claim 12, further comprising a first blind hole on a first radial side of the lock blade and a second blind hole on a second radial side of the lock blade. . A steam turbine,
A rotor,
A plurality of buckets disposed around the rotor;
A plurality of locking blades disposed around the rotor;
A lock blade holding hole disposed around the lock blade;
A lock blade holding screw disposed in a lock blade holding hole for fixing the lock blade to the rotor;
A steam turbine comprising one or more blind holes disposed about the rotor adjacent to the lock blade.