Priority is claimed to Swiss Application No. CH 00583/11, filed on Mar. 31, 2011, the entire disclosure of which is incorporated by reference herein.
The present invention relates to a rotor for a turbomachine.
A rotor conventionally comprises at least one moving blade row having a plurality of moving blades which are arranged so as to be spaced apart from one another in the circumferential direction with respect to an axis of rotation of the rotor. In this case, the moving blades project from the rotor into a gas path. A working gas flows in this gas path when the turbomachine is in operation. Furthermore, such a rotor typically comprises a rotor shaft which has for the respective moving blade row a reception slot which extends in the circumferential direction and into which the moving blades are inserted with their blade roots. Furthermore, a plurality of intermediate pieces may be provided, which are arranged in the reception slot in each case between two adjacent moving blades.
Moreover, the moving blades have in each case a blade leaf which projects from the associated blade root, via which the respective moving blade is fastened to the rotor shaft, essentially radially away from the rotor and which thus protrudes into the gas path. In the region of an inner end portion assigned to the blade root, particularly in the case of a compressor, stabilization of the gas flow when the turbomachine is in operation can be achieved by means of special contouring on a rotor outer face adjacent to the blade leaf and exposed to the gas path. This contouring is a rotor end wall contour which delimits the gas path and which, in particular, may be curved along the gas path. In this case, it is basically possible to equip the moving blades at their blade roots, on an outer face confronting the gas path, with such a curved end wall contour next to the blade leaf in the circumferential direction.
For example, the drawings of U.S. Pat. No. 5,232,348 A and of U.S. Pat. No. 2,916,257 A show curved end wall contours, the gas path-side end walls of the intermediate pieces merging flush, and free of steps, into the end walls of the blade roots. Instead of the curvature having, confronting the gas path, a configuration which is convex, a rectilinear configuration may also be provided.
In an embodiment, the present invention provides a rotor for a turbomachine. The rotor includes at least one moving blade row including a plurality of moving blades disposed adjacent to one another in a circumferential direction with respect to a rotor axis of rotation. Each one of the plurality of moving blades includes a blade root having an outer face, the outer face of the blade root including a blade root curved end wall contour next to a blade leaf of the respective moving blade in the circumferential direction. The blade root curved end wall contour has a concave curvature in an axial sectional plane of the rotor. At least one rotor shaft includes a reception slot for a respective one of the at least one moving blade row extending in the circumferential direction. Each of the plurality of moving blades is inserted into the reception slot via a respective blade root. A plurality of intermediate pieces is each disposed in the reception slot between two adjacent ones of the plurality of moving blades. Each of the plurality of intermediate pieces includes an intermediate piece curved end wall contour on an outer face of the respective intermediate piece, the intermediate piece curved end wall contour having a concave curvature in an axial sectional plane of the rotor, wherein the outer faces of the blade roots and the intermediate pieces are adjacent to one another flush radially in the circumferential direction.
The present invention will be described in even greater detail below based on the exemplary figures. The invention is not limited to the exemplary embodiments. Other features and advantages of various embodiments of the present invention will become apparent by reading the following detailed description with reference to the attached drawings which illustrate the following:
In an embodiment the present invention relates to the problem of specifying for a rotor of the type initially mentioned an improved embodiment which, in particular, is distinguished in that the end wall contour can be produced more easily. At the same time, a comparatively cost-effective modernization of existing turbomachines is also to be made possible.
The respective end wall contour, according to an advantageous embodiment, may have in axial section exactly two turning points and, in particular, merge at its axial ends tangentially into the outer face of the rotor shaft. Additionally or alternatively, the respective end wall contour may be concavely curved. Additionally or alternatively, it is possible that, in the respective end wall contour, the curvature is arranged eccentrically along the gas path, while at the same time, particularly in the case of a compressor, it may be displaced toward the inflow side.
In an embodiment, a compressor according to the invention or a turbine according to the invention is equipped with a rotor of the type described above and can be used in a turbomachine, for example in a stationary turbomachine of a power plant.
In an embodiment of the invention, in particular, there is provision for equipping not only those outer faces of the blade roots which confront the gas path but also the outer face of the intermediate pieces which confronts the gas path with an end wall contour of this type. As a result, the transition from the end wall contour of the outer face of respective blade root to the end wall contour of the outer face of the respectively adjacent intermediate piece has a simpler configuration. There is therefore no longer any need, in particular, for a complex three-dimensional shaping for the end wall contour on the blade root. The outlay for producing the end wall contours can thus be reduced. Since then, according to the invention, the intermediate pieces are also provided with such an end wall contour, it is possible, for example for the purpose of modernization, to exchange the moving blades and intermediate pieces in order to equip an existing turbomachine with the curved end wall contour at a later date.
According to an advantageous embodiment, the end wall contours on the outer faces of the blade roots and of the intermediate pieces may be identical. Producing identical end wall contours both on the blade roots and on the intermediate pieces avoids complex three-dimensional transitions, thus simplifying the production of the end wall contours.
According to an especially advantageous embodiment, the end wall contours may have an axially symmetrical configuration. This means that the end wall contours have a rotationally symmetrical configuration with respect to the axis of rotation. In other words, the respective end wall contour is uniformly or constantly profiled in the circumferential direction in a sectional plane which contains the axis of rotation. It is consequently especially simple to apply the end wall contours to the outer faces of the blade roots and to the outer faces of the intermediate pieces.
According to another advantageous embodiment, the intermediate pieces and the blade roots may have an asymmetric configuration in the axial direction, in such a way that the intermediate pieces can be properly mounted only in a single mounting position. In the event that the curved end wall contours are configured asymmetrically in the axial direction, the form of construction proposed above avoids the faulty mounting of the intermediate pieces which would be considerably detrimental to the flow around the respective moving blades in the region of the blade root.
According to an embodiment, the reception slot may have radially inward-directed supporting contours on slot walls lying axially opposite one another, the intermediate pieces having radially outward-directed supporting contours which are complementary to the supporting contours of the reception slot and which, in the mounted state, are supported radially on the supporting contours of the reception slot. As a result, the intermediate pieces are fixed in the reception slot radially outward by means of an intensive form fit between the supporting contours bearing one against the other. So that the intermediate pieces can be introduced into the respective reception slot, the rotor shaft may be divided in an axial plane.
According to a preferred development, the blade roots may have on their inner face facing away from the gas path or facing away from their outer face shoulders which project in the circumferential direction and which, in the mounted state, are supported radially on an inner face, facing away from the respective outer face, of the respective adjacent intermediate piece. In this embodiment, therefore, the blade roots are secured radially to the rotor shaft indirectly via the intermediate pieces. Additionally, the blade roots, as well as the intermediate pieces, may have supporting contours which cooperate with the supporting contours of the reception slot.
In a preferred embodiment, the moving blades are fastened radially to the rotor shaft solely indirectly via the intermediate pieces. It is thereby possible in an especially simple way to draw the moving blades radially out of the reception slot in the event of maintenance, if, for this purpose, at least one intermediate piece is taken out of the reception slot, so that all the other intermediate pieces and blade roots can be displaced in the circumferential direction within the reception slot.
Further important features and advantages of the invention may be gathered from the subclaims, from the drawings and from the accompanying figure description relating to the drawings.
According to
The rotor 5 has, furthermore, a rotor shaft 9, into which a reception slot 10 extending in ring form in the circumferential direction is incorporated for the respective moving blade row 7. The moving blades 8 possess in each case a blade leaf 11, which in the installed state protrudes into a gas path 12 indicated in
The respective blade root 13 has, on its outer face 15 confronting the gas path 12 and located next to the blade leaf 8 in the circumferential direction, a curved end wall contour 16 which is indicated in
It is in this case especially advantageous if the end wall contours 16 of the outer faces 15 of the blade roots 13, on the one hand, and at the outer faces 17 of the intermediate pieces 14, on the other hand, are identically shaped geometrically. In particular, the flush transitions on the mutually adjacent outer faces 15, 17 of the blade roots 13 and of the intermediate pieces 14 can thereby be implemented. For example, the outer faces 15 of the blade roots 13 and the outer faces 17 of the intermediate pieces 14 may be adjacent to one another flush radially in the circumferential direction, as can be seen in
An embodiment is especially expedient in which the end wall contours 16 of the outer faces 15 with the blade roots 13 and the end wall contours 16 of the outer faces 17 of the intermediate pieces 14 have an axially symmetrical configuration. This means that the end wall contours 16 have a profile which remains constant in the circumferential direction. The respective profile arises in this case as a result of a longitudinal section which contains the axis of rotation 6, as in
In the embodiments shown in
In so far as the end wall contours 16 are configured asymmetrically with respect to the axial direction, as indicated in
As a result of the asymmetric shaping of the intermediate pieces 14 and of the blade roots 13, in the case of faulty mounting a visible gap between the blade root 13 and intermediate piece 14 would necessarily remain, so that incorrect mounting can be noticed immediately.
According to
According to
While the invention has been described with reference to particular embodiments thereof, it will be understood by those having ordinary skill the art that various changes may be made therein without departing from the scope and spirit of the invention. Further, the present invention is not limited to the embodiments described herein; reference should be had to the appended claims.
Number | Date | Country | Kind |
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00583/11 | Mar 2011 | CH | national |