DE102004004915A1 - sealing arrangement - Google Patents

Abstract

The invention relates to a sealing arrangement, in particular for a gas turbine such as an aircraft engine. DOLLAR A The sealing arrangement serves to seal a gap between a rotor and a stator, in particular the sealing of a gap between radially inner ends of fixed vanes and a rotor and / or a gap between radially outer ends of rotating blades and a fixed housing, wherein the stator a honeycomb seal (15) comprising a plurality of honeycomb cells (16), and wherein the honeycomb cells (16) are separated from one another by walls (18, 19). DOLLAR A According to the invention, at least the transverse to the direction of rotation (17) of the rotor walls (18) of the honeycomb sealing cells (16) in the rotational direction (17) of the rotor made radially obliquely.

Description

The The invention relates to a sealing arrangement, in particular for a gas turbine or an aircraft engine, according to the preamble of claim 1

gas turbines consist of several assemblies, such as, inter alia from a fan (Fan), a combustion chamber, preferably several compressors as well several turbines. In the case of preferably several turbines it is in particular a high-pressure turbine and a low-pressure turbine, in the case of the several compressors, in particular a high pressure compressor as well a low pressure compressor. In a turbine and a compressor a gas turbine are in the axial direction or in the flow direction the gas turbine positioned one behind the other several vane rings, each vane ring having a plurality of circumferentially spaced ones Having vanes. Between each two adjacent Leitschaufelkränzen is each positioned a blade ring, the more blades having. The blades are associated with a rotor and rotate along with the rotor opposite a fixed housing as well as the likewise stationary trained vanes of Vane rings.

to Optimizing the efficiency of a gas turbine, leaks on the one hand between the rotating blades and the fixed housing and on the other hand, between the stationary vanes and the rotor be avoided by effective sealing systems. So it is from the Prior art already known for sealing such column the stator, so the fixed housing or the radially inner Ends of the fixed vanes, one more honeycomb cells assign comprehensive honeycomb seal, wherein the honeycomb seal cells through walls are separated from each other. These honeycomb seals are particularly effective associated with the rotor or the rotating blades sealing fins together, wherein such a sealing finger opposite the stator-side honeycomb seal rotates.

To In the prior art, the walls run the honeycomb cells separating the honeycomb seal, exactly in the radial direction, so that, for example, the sealing fins relative to transverse to the direction of rotation the sealing fins running walls the honeycomb seal cells are oriented vertically.

at a rubbing of the rotor, in particular the sealing fins, in the The stator-side honeycomb seal thus hits the rotor in axial direction Viewing direction perpendicular to the transverse to the direction of rotation of the rotor running walls the honeycomb seal cells, whereby the rotation or rotation of the Rotor is opposed to a resistance. Such a running Walls of the Wade seal cells are namely formed relatively stiff, whereby the walls of the honeycomb seal cells as good as not deform. When entering the rotor, in particular Sealing fins, in a honeycomb seal accordingly become level the technology of the walls the honeycomb seal cells removed at least partially. in this connection Accordingly, the honeycomb seal is damaged as well as the sealed Gap enlarges what overall is a disadvantage.

Of these, Based on the present invention, the problem underlying a novel sealing arrangement, in particular for a gas turbine or an aircraft engine to create.

This Problem is solved by a seal assembly according to claim 1. At least according to the invention the transverse to the direction of rotation of the rotor walls of the Wadeichtungszellen turned radially obliquely in the direction of rotation of the rotor.

in the For the purposes of the present invention, it is proposed that at least the transverse to the direction of rotation of the rotor walls of the honeycomb seal cells are set radially obliquely in the direction of rotation of the rotor. Therefore the walls are lost the sealing cells in the axial direction no longer perpendicular to the rotor, in particular to the rotor-side sealing fins, rather these walls are lost at a certain angle to the rotor. As a result, a deformability the walls provided the honeycomb seal cells, so when rubbing of the rotor, in particular the rotor-side sealing fins, in the honeycomb seal An ablation or cracking of the walls is avoided. With the Accordingly present sealing arrangement is therefore an effective Sealing a gap between a rotor and a stator possible.

Preferably are the transverse to the direction of rotation of the rotor walls of the Wadeichtungszellen so inclined in the direction of rotation of the rotor, that the rotor facing edges of these walls facing away from the rotor edges these walls are offset in the direction of rotation of the rotor. The one facing the rotor Edges of these walls and / or the edges facing away from the rotor of these walls domed or straight.

According to an advantageous embodiment of the invention, in addition to the transverse to the direction of rotation of the rotor walls of the honeycomb sealing cells and in the direction of rotation of the rotor extending walls of Wadeichtungszellen obliquely employed.

preferred Further developments of the invention will become apparent from the dependent claims and the following description. Embodiments of the invention without being limited to this to be closer to the drawing explained. Showing:

1 a highly schematic side view in the axial direction of a multi-honeycomb cells comprehensive honeycomb seal of a seal assembly according to the prior art;

2 a highly schematic top view in the radial direction of the multi-honeycomb cells comprehensive honeycomb seal after 1 ;

3 a highly schematic side view in the axial direction of a multi-honeycomb cells comprehensive honeycomb seal of a seal assembly according to a first embodiment of the present invention;

4 a highly schematic top view in the radial direction of the multi-honeycomb cells comprehensive honeycomb seal after 3 ;

5 a highly schematic plan view in the radial direction of view on a plurality of honeycomb sealing comprehensive honeycomb seal a seal assembly according to a second embodiment of the present invention; and

6 a highly schematic plan view in the radial direction of view on a plurality of honeycomb sealing comprehensive honeycomb seal a seal assembly according to a third embodiment of the present invention.

Before referring to below 3 to 6 Embodiments of the present invention will be explained in more detail below with reference to 1 and 2 a known from the prior art sealing arrangement will be described.

To show 1 and 2 strongly schematized a honeycomb seal 10 a sealing arrangement according to the prior art between a not shown rotor and a likewise not shown stator of a gas turbine. 1 shows a schematic side view of the honeycomb seal 10 in axial direction, 2 shows a schematic top view of the same in the radial direction. The X-coordinate of the represented coordinate systems is the radial direction, with the Y-coordinate being the circumferential direction and with the Z-coordinate the axial direction is visualized. In the axial direction according to 1 one sees therefore on the XY-plane, in radial direction according to 2 you can see the YZ-plane.

The honeycomb seal 10 is made by several honeycomb cells 11 formed, wherein the honeycomb seal cells 11 in 1 and 2 have a rectangular cross-sectional area. It should be noted at this point that the honeycomb seals can of course also have a hexagonal cross-sectional profile.

The honeycomb cells 11 the honeycomb seal 10 are bounded by several walls. For the purposes of the present invention is to be distinguished between such walls which extend transversely or longitudinally to the direction of rotation of a rotor. The direction of rotation of a non-illustrated rotor is in 1 and 2 with an arrow 12 clarified. Transverse to the direction of rotation 12 extending walls of the honeycomb seal cells 11 are with the reference number 13 marked, along or parallel to the direction of rotation 12 extending walls of the honeycomb seal cells 11 are with the reference number 14 characterized.

As 1 can be removed, run in the prior art, the transverse to the direction of rotation 12 of the rotor running walls 13 the honeycomb seal cells 11 exactly in the radial direction, so that the same in the axial direction of the 1 perpendicular to the direction of rotation 12 are aligned with the rotor. According to the prior art accordingly form the transverse to the direction of rotation of the rotor walls 13 a resistor for the rotor 12 because of such trained walls 13 are relatively stiff and can deform, if at all, only slightly. When rubbing the rotor in the transverse to the direction of rotation of the same walls 13 they are therefore removed and damaged.

3 and 4 show a honeycomb seal 15 a sealing arrangement according to the invention according to a first embodiment of the invention in different representations or directions of view, the viewing directions of 3 and 4 the views of the 1 and 2 correspond. Also the honeycomb seal 15 of the 3 and 4 consists of several honeycomb cells 16 , wherein the honeycomb seal cells 16 have a rectangular contour in cross section. The honeycomb cells 16 are in turn limited by several walls, which in the sense of the present inventions tion relative to the direction of rotation (arrow 17 ) of a rotor are aligned optimally.

In the embodiment of 3 and 4 are the transverse to the direction of rotation of the rotor walls 18 the honeycomb seal cells 17 radially inclined in the direction of rotation of the rotor. This is best 3 (corresponds to the axial direction of view) are taken, from which the radial inclination of the walls 18 is apparent. The longitudinal or parallel to the direction of rotation 17 of the rotor running walls 19 however, as in the prior art, they run radially without such an inclination.

The transverse to the direction of rotation 17 of the rotor running walls 18 the honeycomb seal cells 16 are set so obliquely that an edge facing the rotor 20 opposite to an edge facing away from the rotor 21 is offset in the direction of rotation of the rotor, which means that the edge facing the rotor 20 in the direction of rotation 17 forward or downstream of the edge facing away from the rotor 21 is positioned. In the plan view of the honeycomb seal 10 according to 4 (corresponds to the radial direction of view) are the offset edges 20 and 21 the transverse to the direction of rotation 17 of the rotor running walls 18 shown as parallel lines. The edges 20 . 21 the walls 18 therefore run straight.

5 and 6 show two further embodiments of inventive honeycomb seals or seal assemblies. Since the embodiments of the 5 and 6 essentially the embodiment of 3 and 4 In order to avoid unnecessary repetitions, identical reference numbers are used for the same assemblies.

The embodiment of 5 differs from the embodiment of 3 and 4 in that at the honeycomb seal 22 of the 5 the edges facing the rotor 20 the transverse to the direction of rotation 17 of the rotor running walls 18 not straight, but rather curved or arched. The curvature runs in the direction of rotation 17 of the rotor. The edges facing away from the rotor 21 the transverse to the direction of rotation of the rotor walls 18 on the other hand, they are straight. It should be noted that unlike in 5 Of course, the solution shown also facing away from the rotor edges 21 as well as the rotor facing edges 20 the walls 18 can be executed curved or curved.

6 shows a further embodiment of a honeycomb seal according to the invention 23 , wherein at the honeycomb seal 23 according to 6 in addition to the transverse to the direction of rotation 17 of the rotor running walls 18 also the walls running in the direction of rotation of the rotor 19 the honeycomb seal cells 16 are employed obliquely. Thus, in the embodiment of the 6 also in the area of the longitudinal or parallel to the direction of rotation 17 running walls 19 the edges thereof offset from each other such that an edge facing the rotor 24 the walls 19 opposite to an edge facing away from the rotor 25 is offset, wherein in the embodiment of the 6 the edge facing the rotor 24 is curved and facing away from the rotor edge 25 runs straight. This allows the flexibility of the honeycomb seal cells 16 or the walls 18 . 19 the honeycomb seal cells 16 be optimized again.

All embodiments shown have in common that at least the transverse to the direction of rotation 17 of the rotor running walls 18 the honeycomb seal cells 16 are set radially obliquely in the direction of rotation of the rotor. These are the edges 20 . 21 , Which are the transverse to the direction of rotation of the rotor walls 18 limit, offset each other. The edges 20 . 21 run either straight and / or curved. In this way, a good elastic and plastic deformability of the walls of the honeycomb seal cells is made possible, without damaging or removing the walls of the honeycomb seal cells when the rotor or rotor-side sealing fins are rubbed into the honeycomb seal. The stress of the honeycomb seal can thus be reduced, thereby increasing the life of the same. There is no unwanted increase in the gap to be sealed, which is why a higher sealing effect can be achieved. The sealing arrangement according to the invention serves, in particular, for sealing a radial gap between radially inner ends of guide vanes and a rotor. The honeycomb seals are then assigned to the radially inner ends of the guide vanes or corresponding inner end tapes of the guide vanes, the sealing fins associated with the rotor interacting with the honeycomb seal. It is also possible to seal a gap between the radially outer ends of the rotating blades and a fixed housing with such a sealing arrangement. The use of the sealing arrangement in the compressor area or turbine area of a gas turbine, in particular of an aircraft engine, is preferred.

10

honeycomb seal

11

Honeycomb seal cell

12

arrow

13

wall

14

wall

15

honeycomb seal

16

Honeycomb seal cell

17

arrow

18

wall

19

wall

20

edge

21

edge

22

honeycomb seal

23

honeycomb seal

24

edge

25

edge

Claims (9)

Sealing arrangement, in particular for a gas turbine such as an aircraft engine, for sealing a gap between a rotor and a stator, in particular for sealing a gap between radially inner ends of fixed vanes and a rotor and / or a gap between radially outer ends of rotating blades and a fixed Housing, wherein the stator a plurality of honeycomb sealing cells ( 16 ) comprehensive honeycomb seal ( 15 ), and wherein the honeycomb seal cells ( 16 ) through walls ( 18 . 19 ) are separated from each other, characterized in that at least the transverse to the direction of rotation ( 17 ) of the rotor extending walls ( 18 ) of the honeycomb seal cells ( 16 ) in the direction of rotation ( 17 ) of the rotor are set radially obliquely. Sealing arrangement according to claim 1, characterized in that the transversely to the direction of rotation ( 17 ) of the rotor extending walls ( 18 ) of the honeycomb seal cells ( 16 ) in the direction of rotation ( 17 ) of the rotor are set obliquely so that the rotor facing edges ( 21 ) of these walls ( 18 ) facing away from the rotor edges ( 21 ) of these walls ( 18 ) in the direction of rotation ( 17 ) of the rotor are offset. Sealing arrangement according to claim 2, characterized in that the edges facing the rotor ( 20 ) of these walls ( 18 ) and the edges facing away from the rotor ( 21 ) of these walls ( 18 ) run straight. Sealing arrangement according to claim 2, characterized in that the edges facing the rotor ( 20 ) of these walls ( 18 ) and / or the edges facing away from the rotor ( 21 ) of these walls ( 18 ) are curved or arched. Sealing arrangement according to claim 4, characterized in that the curvature of these walls ( 18 ) in the direction of rotation ( 17 ) of the rotor runs. Sealing arrangement according to one or more of claims 1 to 5, characterized in that in addition to the transverse direction of rotation ( 17 ) of the rotor running walls ( 18 ) of the honeycomb seal cells ( 16 ) also in the direction of rotation ( 17 ) of the rotor extending walls ( 19 ) of the honeycomb seal cells ( 16 ) are made obliquely. Sealing arrangement according to claim 6, characterized in that the rotor facing edges ( 23 ) of these walls ( 19 ) facing away from the rotor edges ( 24 ) of these walls ( 19 ) are offset. Sealing arrangement according to claim 7, characterized in that the edges facing the rotor ( 23 ) of these walls ( 19 ) and the edges facing away from the rotor ( 24 ) of these walls ( 24 ) run straight. Sealing arrangement according to claim 7, characterized in that the edges facing the rotor ( 23 ) of these walls ( 19 ) and / or the edges facing away from the rotor ( 24 ) of these walls ( 19 ) are curved or arched.