DE19959665A1 - Flow channel wall segment fixing device for axial flow machine uses projection segments provided by machine housing - Google Patents

Abstract

The fixing device has a seating provided by the machine housing (5) for locating the wall segment (8) defining the flow channel in the vicinity of the rotor blades (1) of the axial flow machine, in the axial direction. The seating is provided by a projection segment (10) extending radially inwards from the machine housing, which also serves for preventing axial movement of the wall segment, by cooperation with the latter in the manner of a bayonet closure upon rotation of the wall segment in the peripheral direction.

Description

The invention relates to a fastening arrangement for the flow box Limit the axial flow machine in the area of rotor blades zenden wall segments, which in the axial direction in a Ma Machine housing provided and then inserted by ge suitable means secured against a displacement movement in the axial direction become. The technical environment is exemplified by the EP 0 844 369 A1.

Fastening arrangements according to the preamble of claim 1 are in manifold embodiments have become known. Constructively special Another problem with two-stage axial high-pressure turbines annulus strongly angled outward, d. H. with one under a right relatively large angle to the axis of rotation widening flow channel for the Working gases, the assembly process associated with the second stage Wall segment. As is known, the person carrying the blades must Rotor together with the stage II guide vanes as a package in the Ge housing of the turbomachine are introduced, after which another Zu must be possible to the guide vane segments to this to be able to attach. For this reason, they must be on the guide vanes following wall segments, which are the run following the guide vanes surrounded by shovels, retrofitted, but the already Blades placed over the rotor form an obstacle  can. One way to assemble the wall segments if present This problem is described in the aforementioned EP 0 844 369 A1 wrote.

In the following, another fastening arrangement for the schil current application or generally according to the preamble of the claim 1 are shown, in which the wall segments in an optimal manner are secured against a shifting movement in the axial direction, these wall segments can be positioned or fixed in a simple manner should be bar (= object of the present invention).

The solution to this problem is characterized by the inclusion as well as the means preventing the displacement movement for each wall segment ment as one of the machine housing essentially in the radial direction inside protruding projection segment is formed, which from the zuge ordered wall segment with a substantially radial direction bridge segment projecting outside in the manner of a bayonet catch and thus after a circumferential rotation of the wall segments direction is attacked. Advantageous further training is part of the Un claims.

Put simply, the said are in the area of the blades provided wall segments according to the invention by a bayonet held in the desired manner. Such a bayonet lock is known for elements to be fixed on a circular ring well suited. A similar application is now available here. The Machine housing represents a circular ring, the fixing area, at wel chem the wall segments are to be attached, on the face above the um alternately catch projections, here called projection segments, as well Has recesses. A wall can now be placed in each of these recesses segment with a corresponding projection, here called web segment,  are introduced in the axial direction, after which all wall segments in Circumferential direction of the machine housing shifted or rotated so far until the web segments of the wall segments are assigned Reach behind the projection segments of the machine housing. After that you can the wall segments are no longer moved in the axial direction.

Viewed in the radial direction of the turbomachine, the sol Wall segments fixed in the axial direction on foot sections of the support this upstream guide vanes, since the latter are indeed are already mounted before the wall segments in the manner according to the invention to be assembled. Any special shoulders or the like are thus not mandatory. In this context, advantageously at the same time through the wall segments these upstream guide vanes against a sliding movement in the axial direction can be secured by the guide vanes in the axial direction on the subsequently installed wall segment support, but there are other arrangements in this regard possible.

Coming back to the bayonet-type connection between the Wall segments and the machine housing should be a suitable measure he provided that the wall segments turn back and thus an unwanted loosening of this bayonet lock prevents. For the purpose of In an advantageous preferred embodiment, at least one the wall segments prevent the locking bar from rotating ment should be provided, which between the wall segment and the Ma machine housing is arranged and on these two elements via a extending in the axial direction groove-nose connection is fixed. There however, all components thermally expand or expand can, especially if the turbomachine is a High-pressure turbine of a gas turbine engine, it is recommended  distributed over the circumference of the machine housing several such Rie provide gel segments, with a single bar segment also several cover adjacent wall segments and thus face each other can lock a rotary movement. For their part, the bolt provided in the area of the last stage of a high pressure turbine segments advantageously in the axial direction with their rear end on egg nem suitably designed projection of the first guide vane of the following supported switched low pressure turbine.

This, as well as further advantages and features, also emerge from the following description of a preferred exemplary embodiment. The attached FIG. 1 shows a section of a high-pressure turbine with a fastening arrangement according to the invention in a longitudinal section, while in FIG. 2 the section BB from FIG. 1 is shown. All features described in more detail can be essential to the invention.

The reference numeral 1 denotes a rearmost blade of an axial high-pressure turbine (generally an axial flow machine), the rotor of which is not shown any further. The machine axis is also not shown; however, the axial direction is shown in FIG. 1 by an arrow A and the radial direction perpendicular to the machine axis is shown by an arrow R directed outward from the machine axis lying centrally in nen. In FIG. 2, the axial direction A perpendicular to the drawing plane; the circumferential direction U is represented here by an arrow.

In the annular flow channel 2 of the high-pressure turbine with respect to the machine axis, into which the rotor blades arranged in a ring shape protrude 1 and in which the hot working gases are guided essentially in the axial direction A (from left to right), upstream of these rotor blades 1 are annular Guide vanes 3 are provided, which are fastened in a suitable manner - here in the circumferential direction via offset pins 4 - in each case via their foot section 3 a on the machine housing 5 of the high-pressure turbine, this being not shown in more detail. The Fußab sections 3 a of all guide vanes 3 form the outer wall of the flow channel 2 .

Downstream of the rotor blade 1 , ie further to the right in the axial direction A, a part of a guide blade 6 of the low-pressure turbine downstream of the high-pressure turbine, as usual, can be seen. These guide vane 6 is attached to a at the root portion 6a provided nose 6 a "on the engine housing 5 or suspended in a suitable seat 7 thereof. Ana log of the foot portions 3a also limit the foot portions 6 a the Strö flow duct 2 on the outside. In Axial direction A viewed between the foot sections 3 a of the high-pressure guide vanes 3 and the foot sections 6 a of the low-pressure guide vanes 6 is in the area of the rotor blades 1 of the flow channel 2 on the outside by wall segments 8 arranged in an annular manner with respect to the machine axis, the channel of which on their flow channel 2 the side facing the labyrinth sealing elements 9 bear. the so-called running gap between the labyrinth sealing elements 9 and the sealing tips 1 a 'segment on the provided at the free end of the moving blade 1 shroud 1 a should, as usual, be as small as possible.

As already explained at the outset, when the flow machine or turbine is assembled, the rotor carrying the rotor blades 1 is introduced together with the guide blades 3 , as it were, as a package into the machine housing 5 , in the opposite direction to the axial direction A, that is to say here in FIG. 1 the rotor with the guide vanes 3 is pushed into the machine housing 5 from right to left. Thereafter, there still has to be a possibility of access to the guide vanes 3 in order to be able to fasten them in the axial direction in a manner not shown. For this reason, the wall segments 8 following the guide vanes 3 in the working gas flow direction (= axial direction) with the labyrinth sealing elements 9 attached to them, which give the guide vanes 3 following rotor blades 1 around, must be installed subsequently, but with the already above the ro placed rotor blades 1 form an obstacle.

As can be seen from FIG. 1, the individual wall segments 8 , coming essentially from the right against axial direction A, can be pushed in under a tilting movement in the plane tensioned by the axial direction A and the radial direction R, as is basically the case mentioned at the beginning EP 0 844 369 A1 is described, however, the fixing of the wall segments 8 is then not yet possible. In or actually considered ge radial direction R, the wall segments 8 can be seen as he is based on the foot sections 3 a of the upstream guide vanes 3 , but then the simplest possible fixation of the wall segments 8 in the axial direction A is required. This is done by a bayonet lock described in more detail below:
As is apparent in particular from Fig. 1, on the machine housing 5 in the radial direction R inwardly projecting boss segments 10 vorgese hen, each extending over a certain angular segment of, for example, he stretch 25 °. Between two projection segments 10 there is a recess or gap (not shown) which extends, for example, over an angle segment of 20 °. As can further be seen from the two FIGS. 1, 2, each wall segment 8 has a web segment 11 which projects outward in the radial direction R and which extends, for example, over an angular segment of 17 °. Thus, each wall segment 8 can first be inserted into the machine housing against the axial direction A in such a way that the web segment 11 is pushed through one of said gaps. If all wall segments are pre-positioned in this way, they can be moved together in the circumferential direction U by, for example, 20 angular degrees or rotated about the machine axis, after which each web segment 11 engages a projection segment 10 of the machine housing 5 . In this state shown in Fig. 1, then none of the wall segments 8 can move in the axial direction A, so that they continue in the radial direction R on the foot sections 3 a supporting wall segments 8 are secured in the axial direction A by the described bayonet lock against a displacement movement .

As further shown in FIG. 1, the wall segments with their upstream end 8 a are not only approximately at the height of the projection segments 10 on the machine housing 5 provided with a suitable recess 12 , but also on the suitably designed foot sections 3 a of the guide vanes 3 , so that the latter are secured by the wall segments 8 against a sliding movement in the axial direction A. In addition, the wall segments 8 can of course not be moved against the arrow direction A in the axial direction upstream due to the design of the machine housing 5 in the said recess 12 .

Coming back to the bayonet-type connection between the wall segments 8 and the machine housing 5 , a suitable measure is provided, which prevents the wall segments 8 fixed in the bayonet fitting from turning back out of it and thus prevents undesired loosening of this bayonet fitting. To this end, over the periphery of the machine housing 5 distributes a plurality of wall segments 8 is provided assurance against such a twisting bar segments 13, which are arranged according to the desired positioning of the wall segments 8 between this and the machine housing 5 and these two elements each have a in the axial direction A extending groove-nose connection 14 are set. The tongue and groove connections 14 between the locking segments (n) 13 and the machine housing 5 on the one hand and between the locking segments (n) 13 and the wall segments 8 on the other hand can be seen particularly clearly from FIG. 2.

However, since all components of this high-pressure turbine of a gas turbine engine can thermally expand or expand during operation, as can be seen, several locking segments 13 of this type are distributed over the circumference of the machine housing 5 , a single locking segment 13 providing a plurality of adjacent wall segments 8 covers and thus locked against rotation.

For their part, the latch segments 13 provided here in the area of the last stage of a high-pressure turbine are supported, as can be seen in the axial direction A, with their rear end in the flow direction of the working gases on a suitably designed shoulder 6 a 'at the foot section 6 a of the first guide vane 6 of the subsequent low pressure -Turbine as shown in Fig. 1; however, this and a large number of details, in particular of a constructive nature, can be designed quite differently from the exemplary embodiment shown, without departing from the content of the patent claims. It is always ensured that the wall segments 8 are optimally and simply fixed in the axial direction A, while their position in the radial direction R is clearly defined. As you can see, both the assembly and (in reverse order) disassembly is very simple and particularly suitable for a strongly angled annulus, ie flow channel 2 .

Reference list

1

Blade

1

a shroud segment

1

a 'sealing tip

2nd

Flow channel

3rd

Guide vane (the high pressure turbine)

3rd

a foot section of

3rd

4th

pen

5

Machine housing

6

Guide vane (the low pressure turbine)

6

a foot section of

6

6

a 'shoulder on

6

a

6

a "nose on

6

a

7

Recording in

3rd

)

8th

Wall segment

8th

a upstream face of

8th

9

Maze sealing element

10th

Projection segment

11

Bridge segment

12th

Recess (in

5

)

13

Bolt segment

14

Tongue and groove connection
A axial direction
R radial direction
U circumferential direction

Claims (4)

1. Fastening arrangement for the flow channel ( 2 ) of an axial flow machine in the region of blades ( 1 ) delimiting wall segments ( 8 ), which are introduced essentially in the axial direction (A) into a receptacle provided on the machine housing ( 5 ) and then by suitable means are secured against a displacement movement in the axial direction, characterized in that the receptacle and the means preventing the displacement movement for each wall segment ( 8 ) are designed as one of the machine housing ( 5 ) essentially in the radial direction (R) towards the projecting projection segment ( 10 ) is which of the associated wall segment ( 8 ) with a substantially in the radial direction (R) outwardly projecting web segment ( 11 ) in the manner of a bayonet lock and thus after a twisting movement of the wall segments ( 8 ) in the circumferential direction (U) is behind. 2. Fastening arrangement according to claim 1, characterized by at least one or the wall segments ( 8 ) against rotational movement securing bolt segment ( 13 ), which is arranged between the wall segment ( 8 ) and the machine housing ( 5 ) and on these two elements via a groove-nose connection ( 14 ) extending in the axial direction (A) is fixed. 3. Fastening arrangement according to claim 2 for wall segments provided in the area of the last stage of a high-pressure turbine, characterized in that the locking segment (s) ( 13 ) in the axial direction (A) with its rear end on a shoulder ( 6 a ' ) on the foot section ( 6 a) of the first guide vane one of the high pressure turbine downstream low pressure turbine supports / support. 4. Fastening arrangement according to one of the preceding claims, characterized in that the wall segments ( 8 ) secure the guide vanes in front ( 3 ) against displacement movement in the axial direction (A) and that the wall segments ( 8 ) move in the radial direction (R). considered on base sections ( 3 a) of these upstream guide vanes ( 3 ).