The invention relates to a retention system used to prevent axial and/or radial movement of a shaped object in a correspondingly shaped slot and, more particularly, to a retention system and method for retaining a turbine blade dovetail in a retention ring dovetail slot.
In a conventional turbine compressor component, stator blades are held in a retaining ring by means of a dovetail connection (i.e., a dovetail on the blade is received in a complimentary slot in the retaining ring), and the retaining ring, in turn, is secured within a circumferential slot in the compressor casing.
The fit between the blade and the dovetail slot in the ring is loose to allow for assembly and tolerances. Therefore, if the blades are not properly retained, the loose fit may allow the hardware to move in the slot, leading to excessive wear. The excessive wear would eventually fail the part, requiring the unit to be shut down until a repair can be made.
Additionally, radial movement of the blade in the dovetail slot allows for a variation of the tip radius during the machining process. Reduced variation in radial clearance could potentially increase performance and avoid excessive tip rubs.
Typically, each stator blade is retained in the ring to limit motion along the ring dovetail slot by one or more stakes. This is a process where material at the edge of the ring slot is plastically deformed and displaced into a void created by a local chamfer of the stator dovetail. This is a manual and highly variable process which can in some cases provide inadequate retention of the stator blade in the ring slot. Vibratory forces acting on the stator can produce wear on the stake leading to eventual failure of the retention feature. Once the stake is worn, the blade can then slide freely in the ring slot. At very high amplitudes, this motion can lead to wearing of the ring dovetail and eventual failure of the ring. This could then lead to blade liberation and subsequent collateral damage to the gas turbine. This problem has been addressed in recent designs of the assignee via a set screw solution, disclosed in commonly-owned, pending application Ser. No. 11/282,603, filed Nov. 21, 2005. There have also been many documented instances of stators being installed incorrectly either by inserting the airfoil in the ring backwards or inserting the stator or ring in the wrong axial position (stage). Some of these mis-assemblies have been identified as causes of subsequent failure of machine equipment.
There remains a need, however, for a reliable, mistake-proof retention technique for securing airfoil stator blading in turbo-machinery.
In one exemplary embodiment, the invention relates to a retention system for use in assembling a turbine blade dovetail a mating dovetail slot in a retaining ring, the retention system comprising: a first retention slot formed in the blade dovetail; a second retention slot formed in a retaining ring, the second slot in open communication with the first retention slot, wherein the first retention slot is positioned such that it is aligned with the second retention slot when the dovetail is assembled in the dovetail slot; and a locking member disposed in the first and second retention slots.
In another aspect, the invention relates to a method of retaining a turbine blade dovetail in a retention ring dovetail slot comprising: forming a retention slot in the blade dovetail; forming a locking slot in the retention ring such that the locking slot opens into the retention slot; and inserting a locking member in the retention slot and the locking slot.
The invention will now be described in detail in connection with the drawings identified below.
The following detailed description of an exemplary, non-limiting embodiment of the present invention is applied to gas turbine compressor stator blades that are retained in the compressor casing via a retaining ring (typically comprised of plural arcuate segments). This embodiment, however, is exemplary only, and the invention is intended to embrace any other application where it is desired to retain a part within a slot.
In the exemplary embodiment, a retention slot 34 is formed in the blade dovetail 30, with the slot oriented substantially perpendicular to an axial insertion direction A of the dovetail 30 into the dovetail slot 32. In other words, retention slot 34 extends in substantially the same circumferential direction as the retaining ring 26, that is substantially perpendicular to the length dimension of the blade dovetail 30. A lock wire slot 36 is formed in the retaining ring 26, also in the circumferential direction, and in open communication with the dovetail slot 32 that receives the stator blade dovetail 30, and thus also substantially perpendicular to the blade dovetail 30. Thus, upon assembly, the retention slot 32 and the lock wire slot 36 are aligned in a radial direction such that a lock wire 38 may be inserted into both slots 36 and 32 to thereby retain the stator blade dovetail 30 in the ring 26 (see
Turning now to
Note that in
While the invention has been described in connection with what is presently considered to be the most practical and preferred embodiments, it is to be understood that the invention is not to be limited to the disclosed embodiments, but on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.