DE10225679A1 - Bearing ring for mounting of blade roots of variable stator blades in HP compressor of gas turbine, is divided into individual segments with box section construction and with free ends bevelled in relation to circumferential direction - Google Patents

Abstract

The bearing ring for the mounting of blade roots (1) of variable stator blades (2) in the HP compressor of a gas turbine has an annular base component (3) mounted on bearing bushes (4). The bearing ring is divided into individual segments (5) which have a box section construction. The free ends of the segments are bevelled in relation to the circumferential direction. Conical bearing bushes are installed in the segments, widening towards the outer side, and the cone angle of the recess in the segment for the fitting of the bearing bush is the same as or greater than half the angle between the axes of the outermost stator blades.

Description

The invention relates to a bearing ring for mounting of blade feet of adjustable stator blades in the High pressure compressor of a gas turbine according to the preamble of Main claim.

In detail, the stator ring has an annular shape Base body on which bearing bushes are mounted, which the Store the shovel feet.

The invention thus relates to a bearing ring (shroud), such as modern, especially in high pressure compressors Turbofan engines for internal storage of the adjustable stator Buckets is used. Such bearing rings or shrouds are usually made of aluminum, steel alloys or made of titanium. Such a construction shows for example US 5,062,767 A.

The prior art shows bearing rings (shrouds) that are formed in two parts. These are in one, based on the Longitudinal axis of the gas turbine, radial plane divided. Are there the individual base bodies are each ring-shaped. she are screwed together or in a similar manner fixed to the bearing bushes for the shovel feet or the Store shovel feet directly.

Here it proves disadvantageous that a pre-assembly of the bearing ring is required. The front and rear Bearing ring halves that must always be installed in pairs are considered as related components. Farther the space between adjacent rotors of the Gas turbine can be minimized to create unwanted air vortices avoid. This results in a very substantial manufacturing and assembly effort.

The prior art shows a modification of the bearing rings Constructions in which these are bent for assembly. After insertion in the high pressure compressor, the Bearing ring bent back into its actual shape. From this can - due to plastic deformation and difficult assembly - damage to the bearing ring during installation result. Incidentally, this procedure is only for thin ones Bearing rings with low rigidity in the bending direction are suitable.

The invention has for its object a bearing ring to create the type mentioned above, which with simple Structure and simple, inexpensive to manufacture Avoids disadvantages of the prior art and in particular one enables easy assembly.

According to the invention, the object is characterized by the features of Main claim solved, the sub-claims show more advantageous embodiments of the invention.

According to the invention it is thus provided that the bearing ring in individual segments is divided.

The bearing ring according to the invention is characterized by a number significant benefits.

By manufacturing in segments it is possible to use the bearing ring to be assembled without the application of large external forces. The difficult handling of front and rear Bearing ring halves, together with the bushings, screws and nuts, eliminated. A possible incorrect assembly of the Screws. The solution according to the invention offers the possibility the bearing bushes on the stator blades or in the Pre-assemble bearing ring segments or the bearing bushes after Install the bearing ring segments.

Furthermore, it is particularly advantageous according to the invention that the Gap between adjacent rotors with the profile of the Bearing rings filled and sealed accordingly. This results in a not inconsiderable one Weight reduction of the entire gas turbine.

The segments of the bearing ring according to the invention must Assembly should not be bent. Rather, you can directly in prefabricated state can be used. This too is advantageous because of damage or material changes can be completely excluded.

It is particularly advantageous if the segments are designed like a box profile. This creates the gap between adjacent rotors optimally with low weight filled.

To ensure a safe installation of two adjacent segments allow, a bevel in the circumferential direction is required. The helix angle should be equal to or greater than half of the angle that a segment exceeds when the segment is pushed radially outward along the middle of the segment. The Segments can be tapered, facing the outside have expanding bushings. The cone angle of the recess of the Segments for inserting the bearing bush should be equal to or be greater than half the angle between the axes of the outermost stator blades. The center line of the segment is then the mounting direction. A jamming or malfunction in the This completely eliminates assembly.

The segment itself can either be closed Box profile or be designed as an inwardly open box profile. In the latter construction, it is particularly favorable if in addition, a cover element or the like is provided to to close the cavity of the box section.

The division is preferably carried out by wire EDM. The additional axial gaps are in the design point of the compressor is negligible.

It helps to simplify assembly if the Bearing bush and / or the area of the recess of the segment, in which the bearing bush is used with a locking device is provided. The individual bearing bushings therefore do not need to be additionally fixed, rather they are merely locked in place and held securely in this way.

The connection of adjacent segments is preferably carried out by means of intermediate holding elements. They can do this be trained that they with positive locking approaches are provided which are bent or deformed accordingly, to secure the segments.

The invention is described below with reference to Exemplary embodiments described in connection with the drawing. It shows:

Fig. 1 is a schematic diagram of a portion of a gas turbine,

Fig. 2 is a perspective view of a two-part bearing ring according to the prior art,

Fig. 3 is an axial partial sectional view of an embodiment according to the prior art,

Fig. 4 shows a further axial, circumferentially offset sectional view of the Fig. 3 embodiment shown by the prior art,

Fig. 5 is a partial axial view of the bearing ring according to the invention with segments,

Figure 6 is an axial sectional view., Analogous to FIGS. 3 and 4, a first embodiment of the invention,

Fig. 7 is a sectional view, analogous to FIG. 6, a further exemplary embodiment,

Fig. 8 is an enlarged sectional view, similar to FIGS. 6 and 7, an embodiment of a cylindrical bearing bush,

Fig. 9 shows another embodiment, similar to the illustration of FIG. 8,

Fig. 10 is a perspective view of a holding element according to the invention,

Fig. 11 is an illustration of the FIG. Retaining member shown 10 in association with schematically illustrated adjacent segments of the bearing ring,

Fig. 12 is a partial view of segments, similar to the illustration of FIG. 5, in the preassembled state,

Fig. 13 is a view similar to FIG. 8, a pre-assembled state, and

Fig. 14 is a view similar to FIG. 9, a pre-assembled state of a bearing bush.

Fig. 1 shows in a very simplified way, a portion of a device known from the prior art gas turbine. Area A identifies the positioning of a bearing ring for the storage of stator blades 2 . The further description of the schematically indicated construction can be dispensed with, since it is known from the prior art.

In Fig. 2 in a perspective exploded view of a well-known from the prior art, divided in a radial plane bearing ring is shown, which includes a front body 10 and rear body 11. The two base bodies 10 , 11 are each turned out at the end and provided with a rubber filling 12 in the annular space formed here. In each of the two base bodies 10 , 11 there are half recesses 13 which are used for mounting bearing bushes 4 (see FIGS. 3 and 4), which in turn support a blade root of the respective stator blade 2 . The stator blades 2 can be rotated in a known manner in order to be able to change their angle of attack. As a result, the supply air flow is directed in such a way that the inflow angle for the subsequent rotor blade is optimal in every operating state of the compressor or compressor, that is to say it can be adapted to the operating conditions.

Fig. 3 shows the division of the bearing ring in a radial plane, as well as the assignment of the two base bodies 10, 11.

FIG. 4 shows the axial screw by means of a threaded bolt 14 and a nut 15.

In Fig. 5 is a partial end view of the bearing ring according to the invention. It can be seen from the illustration that the bearing ring comprises individual segments 5 , into each of which a plurality of recesses are made, in each of which a bearing bush 4 for receiving a blade root 1 of a stator blade 2 is inserted.

Furthermore, FIG. 5 shows in a simplified representation that the respective end regions 16 of the segments 5 are beveled, as will be described in detail in connection with FIG. 12.

FIGS. 6 to 9 show different embodiments of a base body 3 of the segments 5. In the embodiment of FIGS. 6 and 7, the base body 3 is in each case formed as a closed box section 17 , on which a support section 18 is placed, in which recesses for receiving the bearing bushes 4 are formed.

FIG. 6 shows conical bearing bushes 4 that widen outwards, while FIG. 7 shows an exemplary embodiment with cylindrical bearing bushes 4 . These have, as can also be seen from the illustration in FIG. 6, latching devices 7 , so that the bearing bushes 4 only have to be inserted into the segment 5 in order to be completely assembled.

A sealing area 19 seals the bearing ring from rotating components of the high-pressure compressor, as is known from the prior art. Here, for example, a so-called run-in covering is provided, which the prior art also describes.

In Fig. 8, the base body 3 is formed only in the form of a box profile 20 , which is designed as a closed profile and is provided with recesses in order to hold cylindrical bearing bushes 4 . These have, as can also be seen from the illustration in FIG. 13, locking devices 7 (locking lugs), so that the bearing bushes 4 only have to be inserted into the segment 5 in order to be fully assembled.

FIG. 9, like FIG. 14, shows a further exemplary embodiment in which the box section 20 is designed as an inwardly open section which can be closed by means of a cover element 6 . Here, the cover element 6 is used to hold and lock the bearing bushes 4 and to lock the box profiles against each other (omitting the holding elements 8 ).

So as this is shown in perspective in schematic representation in Fig. 11, Fig. 10 and 11 each show an embodiment of a retaining member 8 which serves to connect adjacent segments 5. Lateral slipping (in the longitudinal axis of the engine) is prevented by retaining lugs 9 , which are bent after the mounting of the retaining element 8 in order to lead to a form-fitting holding or clamping. The positive connection of the holding element 8 and two adjacent segments also prevents the segments 5 from slipping in the radial direction.

FIG. 12 shows an assembly process for the segment 5. Analogous to the exemplary embodiment shown in FIG. 5, a total of five segments 5 per 180 ° of the circumference of the bearing ring is provided.

In addition, it is possible according to the invention to provide the bearing play required for the rotation of the stator blades 2 either between the blade root 1 and the bearing bush 4 or between the bearing bush 4 and the segment 5 .

As shown in FIG. 12, the installation of the segments 5 is easily possible if the cone angle of the recess for inserting the bearing bush 4 into the segment 5 is greater than half the angle between the axes of the outermost stator blades 2 or their blade roots 1 , The latter angle is given as 28.8 ° in the exemplary embodiment, while the first-mentioned cone angle is greater than the double angle of 14.4 °. In the exemplary embodiment, the cone angle is preselected at 30 °. For assembly, the bearing bush 4 is preassembled on the blade root 1 of the stator blade 2 , the segments 5 are subsequently pushed on.

It goes without saying that other assignments can be advantageous and pertinent for cylindrical bearing bushes 4 or for other installation measures. So it can also be useful to first guide the segments 5 over the blade feet and subsequently insert the bearing bushes 4 , as is shown, for example, in FIGS. 13 and 14.

The segments according to the invention can be designed as extruded hollow profiles, which are subsequently bent. With smaller diameters, it may be useful to cast or forge the segments 5 .

With investment casting, it is possible to cast a segment or the entire bearing ring, with the individual segments being designed as closed box profiles at their ends. In the cast version as a complete bearing ring, cast walls must be provided at the positions of the later cross-section. LIST OF REFERENCE NUMERALS 1 blade root
2 stator blades
3 basic bodies
4 bearing bush
5 segment
6 cover element
7 locking device (nose)
8 holding element
9 holding attachment
10 front body
11 rear body
12 rubber filling
13 recess
14 threaded bolts
15 mother
16 front end area
17 box profile
18 support profile
19 sealing area
20 box profile

Claims (9)

1. Bearing ring for storing blade roots ( 1 ) of adjustable stator blades ( 2 ) in the high-pressure compressor of a gas turbine, with an annular base body ( 3 ) on which bearing bushes ( 4 ) are mounted, which support the blade roots ( 1 ), characterized in that the bearing ring is divided into individual segments ( 5 ). 2. Bearing ring according to claim 1, characterized in that the segments ( 5 ) are designed as a box profile. 3. Bearing ring according to claim 1 or 2, characterized in that the free ends of the segments ( 5 ) are chamfered to the circumferential direction. 4. Bearing ring according to claim 3, characterized in that in the segments ( 5 ) conical, widening to the outside bearing bushes ( 4 ) are used, and that the cone angle of the recess of the segment ( 5 ) for inserting the bearing bush ( 4 ) is the same or is greater than half the angle between the axes of the outermost stator blades ( 2 ). 5. Bearing ring according to one of claims 1 to 4, characterized characterized that the segment as a closed Box profile is formed. 6. Bearing ring according to one of claims 1 to 4, characterized in that the segment ( 5 ) is designed as an inwardly open box profile, which is closed by a cover element ( 6 ). 7. Bearing ring according to one of claims 1 to 6, characterized in that the bearing bush 4 and / or the region of the recess of the segment ( 5 ) is provided with a latching device ( 7 ). 8. Bearing ring according to one of claims 1 to 7, characterized in that adjacent segments ( 5 ) are connected by means of intermediate holding elements ( 8 ). 9. Bearing ring according to claim 8, characterized in that the holding elements ( 5 ) are provided with positive locking lugs ( 9 ).