DE1041739B - Adjustable guide vane ring for axial turbo machines, especially axial gas turbines - Google Patents

Description

GERMAN

The invention relates to a guide vane ring for an axial turbomachine of the thermal type, in particular for axial gas turbines, the turbine in an annular channel formed by two concentric rings is arranged and its blades on the inlet side from a fixed part, on the outlet side from a This opposite along a concentric to the pivot axis according to a cylinder jacket Gap pivotable part exist, the fixed blade parts the outer ring with the (primarily) at the same time firmly connect and serve as a carrier of a labyrinth seal serving inner ring the pivotable blade parts are mounted both in the outer and in the inner ring.

It is well known that the turbo machine, like the turbo compressor and the gas turbine, suffers from the low Partial load efficiency, especially when compared with the results obtained with internal combustion piston engines be achieved. As is known, an improvement in the partial load efficiency can be achieved through use of adjustable rows of blades, which is mainly from the hydraulic turbo machine area is known. In the thermal turbo machine area, which mainly includes turbo compressors, steam and Gas turbines include, but face significant difficulties in the use of adjustable blades because of the high temperatures occurring here. That is why they have only been used sporadically so far been.

In a known type of guide vane rings with adjustable blades, these are overhung, which has the disadvantage that the gap between the smooth blade ends and the wheel hub especially in the case of overpressure turbines, it must be made relatively large in order not to ensure operational safety to endanger. The pressure seal is impaired as a result.

There are also guide vane rings for axial turbomachines become known in which from guide vanes made of elastic sheet metal material in the area of their leading edge both with the outer as well as with the inner ring of the two rings forming the flow channel are, while these blades are movable at their front edges in the direction of flow Elements of the annular channel are guided that the angle of attack of the guide vanes by twisting or axial displacement of these movable elements can be changed. Besides that If thin guide vanes are unfavorable in terms of flow, they are also unsuitable for higher temperatures. Finally, to improve the partial load efficiency in connection with two-part guide vanes also proposed the pivoting adjustable guide vane ring

for axial turbo machines,
in particular axial gas turbines

Applicant:

Swiss

Locomotive and machine factory,
Winterthur (Switzerland)

Representative: Dipl.-Ing. R. Beetz, patent attorney,
Munich 22, Steinsdorfstr. 10

Dipl.-Masch.-Ing. Hermann Bleuler,

Zolläkon, Zurich (Switzerland),
has been named as the inventor

ble blade part relative to the stationary along a concentric to the pivot axis according to a cylinder jacket running gap and separate the fixed part over the inner ring of the turbine ring channel at the same time as a carrier of a labyrinth seal. By a Such a rigid connection with other fixed turbine parts can be ensured by the labyrinth seal are centered, which also helps to reduce the flow losses and thus in particular to improve them of the partial load efficiency ^ contributes. However, it is also disadvantageous in these known guide vane designs that that even with relatively small pivoting angles of the pivotable blade parts sharp-edged flow deflections occur at the two outer edges of the gap, which to vortex formation and thus again to impairment of the part-load efficiency of the turbine to lead.

The invention is based on the last-mentioned known gas turbine construction, and it lies The main task of such turbines is to control the flow conditions at the split guide vanes in terms of a further increase in the partial load efficiency. One should such an improvement at the same time allow a favorable cooling of the blades.

According to the invention, the object set is essentially achieved in that the separation

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between the Festeii and the pivotable Split the blade in the area of the greatest blade thickness and the arc angle belonging to the gap delimiting wall of the pivotable blade parts is so large that even in the outermost regulating positions of the pivotable blade parts a tangential connection to the profile of the fixed blade parts is guaranteed.

By such an offset of the gap separating the two blade parts, the circular arc section the gap cross-section can easily be chosen so large that even in the extreme swiveling positions the swiveling shovel parts still have a practically tangential connection of the dem Gap adjacent wall of the pivotable blade part to the wall located in front of the gap of the fixed blade part is guaranteed. Refinements of the invention relate to proposals for a favorable cooling of the guide vanes divided according to the invention.

In the drawing, an exemplary embodiment of the subject matter of the invention is shown. It shows

1 shows a longitudinal section through a gas turbine guide vane ring and the adjacent blade sets,

FIG. 2 shows a cross section through the guide vane ring according to the circular sectional area ΙΙ-ΙΓ of FIG. 1,
Fig. 2a shows a special design of the guide vanes. In the housing 1 of an axial gas turbine, the guide vane ring 2, which is provided with adjustable blades, is arranged between the adjacent rotor blade sets 3, 4 of the rotor 5. The hot gases flow through the blade rings in the direction of the arrows 6.

The guide vanes are designed in two parts. On the entry side, they consist of the fixed ones Blade parts 8, which form a rigid connection between the outer and inner blade retaining ring 9 and 10, respectively form. On the outlet side, they consist of the rotatable blade parts 11. Nevertheless, the two form Divide a whole by making their boundary surfaces aerodynamically favorable and with only a narrow gap 12,13 are connected to one another. This is facilitated by the fact that the one adjacent to the fixed blade parts 8 Part 14 of the movable blade parts 11 has an arcuate profile and that further the profile of the fixed blade parts tangentially adjoins this circular arc. Here is the one for the circular arc profile 14 belonging central angle 8 chosen so large that even in the extreme regulating positions 11 'and 11 "of the movable blade parts 11; another tangential connection of the profile of the fixed blade parts 8 is guaranteed.

The moving guide vane parts are adjusted by means of levers 16 which are attached to the vane journals 20 are clamped and engage in a common adjusting ring 20.

The connection established between the inner and outer retaining rings by means of the fixed guide vane parts 8 makes it possible to mount the movable guide vane parts 11 also on their inner sides by means of pins 17. For this purpose, the inner retaining ring is divided in the plane of the blade axes, and the two ring halves IQ and 10a are screwed together. Compared to the flying one, this arrangement is more stable and more vibration-proof. In particular, the rigid guide vane web connection allows the pressure sealing labyrinth 18 between the rotor blade sets 3 and 4, which is arranged on the inner retaining ring 10, 10a , to be centered exactly with respect to the intermediate ring 19 of the rotor 5 and thus the seal very much; effective.

A special embodiment of the guide vanes with regard to the cooling possibility is shown in FIG. 2a. The fixed guide vane part 8 here has a cavity 23 which faces the movable vane part 11 is open. At the outer end of the blade, the cavity 23 is connected to a cooling air line through the bore 24 connected. The cooling air that has entered the cavity passes through the two gaps 12 and 12 13 into the blade channels 25, which is intended to prevent coking of the column. Besides cause the emerging air bands, especially on the convex side of the blade, that the separation of the Flow is prevented and the surfaces of the movable vane parts 11 are cooled.

The adjustable blade part 11 is also shown in FIG. 2a with a cavity 26. This is through Channels 27 with the cavity 23 of the fixed blade part and through openings 28, 29, 30 with the two-sided Blade channels 25 connected, so that an air flow except through the column 12,13 also through the cavity 26 and through the openings 28, 29, 30 is blown and thus the movable blade part additionally cools.

Instead of connecting the cavity 23 of the fixed guide vane parts 8 to the cooling air line, as shown, one could connect the cavity 26 of the movable blade parts with her, in which case the Cavity 23 would be flushed from the movable blade part.

Furthermore, the air outlet openings 28, 29, 30 could instead only be in the vicinity of the inner one, as shown Shovel retaining ring 10a are arranged so that the hot gas flow, which the foot portion 34 of the Impeller 4 acted upon, assumes a lower temperature than the radially outer gas flow. This cools the mechanically most heavily stressed blade sections.

Claims (8)

Claims ·. 1. Guide vane ring for axial turbomachines of the thermal type, in particular for axial gas turbines, which is arranged in an annular channel of the turbine formed by two concentric rings and whose blades consist of a stationary part on the inlet side, and on the outlet side from a gap running concentrically to the pivot axis according to a cylinder jacket pivotable part exist, wherein the fixed blade parts firmly connect the outer ring with the (primarily) serving as a carrier of a labyrinth seal inner ring and the pivotable blade parts are mounted both in the outer and in the inner ring, characterized in that the separation between the fixed and pivotable blade parts (8 and 11) in the area of the greatest blade thickness and the arc angle (γ) belonging to the gap delimiting wall of the pivotable blade parts (11) is so large that even in the extreme regulation positions (H ', 11 ") of the pivotable blade parts (11) a tangential connection to the profile of the fixed blade parts (8) is guaranteed. 2. Guide vane ring according to claim 1, characterized in that each of the fixed guide vane part (8) has a cavity (23) open towards the movable blade part (11). 3. guide vane ring according to claim 2, characterized in that each of the cavity (23) of the fixed blade part (8) connected at least at one end of the blade to a coolant line (24) is. 4. guide vane ring according to claims 1 to 3, characterized in that each of the between the fixed and the movable blade part existing gap (12, 13) as a blow-out channel in The coolant flow entering the cavity (23) is used for the purpose of, on the one hand, gap coking and to prevent the separation of the flow, on the other hand, to the movable blade part (11) cool. 5. guide vane ring according to claims 1 and 2, characterized in that each of the movable Blade part (8) also has at least one cavity (26) and that this with the Cavity (23) of the fixed blade part (8) is connected by channels (27). 6. guide vane ring according to claims 1, 2 and 5, characterized in that each cavity (26) of the movable blade part (11) a coolant line is connected and the coolant flow through channels (27) after Can pass on cavity (23) of the fixed part (8). 7. guide vane ring according to claims 1, 2 and S, characterized in that each cavity (26) of the movable blade part (11) has blow-out openings (28, 29, 3Q) that are connected to the Blade channels are connected. 8. guide vane ring according to claims 1 and 7, characterized in that at least a part of the exhaust openings (28 to 30) of the movable blade part (11) after the blade roots (34) of the following barrel blade ring (4) are directed. Considered publications:
German Patent Nos. 911839, 908 211, 091; German patent application N7815Ia / 14c;
Swiss patents No. 288 242, 102 824; French patent specification No. 967 212. 1 sheet of drawings © 809 653/121 10.5S