This invention relates to a method for machining the annulus of a gas-turbine rotor provided with integrally formed-on blades and a tooling for the performance of the method.
Under the aspects of reliability, weight reduction, performance increase and service life, gas-turbine rotors, and in particular the rotors of the compressors of gas turbine engines, are provided with a blading which is integrally formed on the annular periphery of a disk. Such components are termed “blisks”, with the term “blisk” being a shortened form of “blade integrated disk”. As is generally known, blisks are manufactured by welding, in particular friction welding, separately manufactured blades to the peripheral annular surface of the preferably forged disk or by a cutting or chemical stock removal process starting at the outer annular surface of the disk. Upon shaping the blades by the known material removal processes, the blade surfaces and edges and the bottom thereby produced between the blades, which is termed annulus, are finish-machined. Because of the small distance between adjacent blades and the complexly and even differently curved and twisted pressure and suction sides of the blades, the annulus, which is remote from the blade tips, and the transition area (fillet) between annulus and the lateral blade surfaces are machined by a copy-milling cutter having a crowned tip. The copy-milling or die-sinking cutter, which is also referred to as ball nose cutter, is provided with a conical cutting portion behind the ball tip and can be positioned such in the gap between two adjacent blades that the lateral surface of the copy-milling cutter will not collide with the sides of the blade airfoils. Machining of the annulus and fillet areas by use of the copy-milling cutter, whose crowned tip must be routed over the annulus in a multitude of adjacent paths, is very time-consuming and produces adjoining, crescent-shaped machining paths with high roughness or profile deviation on the annulus surface due to which the blisks will not satisfy high aerodynamic requirements.
In a broad aspect the present invention provides a method for finish-machining the annulus between opposite blades of a blisk and a corresponding tool for the performance of the method to reduce machining time and tool wear and obtain an even annulus surface with minimum shape or profile deviation which satisfies high aerodynamic requirements.
With a method for machining the annulus of an integrally bladed rotor, the present invention essentially provides for material removal from the annulus on a wide, even machining path using the front-side cutting surface of an essentially cylindrical cutter head. This type of machining enables an essentially even, smooth annulus surface to be obtained with a reduced number of overlapping machining paths. The time required for machining the annulus and the tool wear are reduced. The improved conditions for chip removal also enable the surface quality of the annulus to be improved, thereby providing for the integrally bladed rotor to satisfy high requirements on aerodynamics.
Since the maximum machining width is less than the minimum distance between opposite fillets of the blades and can be more than half the minimum fillet distance, the annulus and the respective transition area (fillet) to the lateral blade surface can be completely machined by only two overlapping machining paths.
According to the present invention, the cutting tool for the performance of the method has an essentially cylindrical cutter head with a plane front-side cutting area and correspondingly straight cutting edges arranged on a tool shank. The diameter of the tool shank is constricted such in the portion situated between the blades during machining that, as machining in a constant position is performed, it is prevented from colliding with the blade surfaces.
In accordance with a further feature of the present invention, the peripheral lateral surface of the cutter head is concave and has correspondingly curved cutting edges. The curvature of the lateral surface is intended to avoid sharp edges.
The diameter of the cutter head is less than the minimum distance between the opposite fillets and preferably larger than half the minimum distance between the two fillets.
The present invention is more fully described in light of the accompanying drawing showing a preferred embodiment. In the drawings,
As shown in
Number | Date | Country | Kind |
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10 2008 010 252.0 | Feb 2008 | DE | national |
This application claims priority to German Patent Application DE 102008010252.0 filed Feb. 20, 2008, the entirety of which is incorporated by reference herein.