DE102005059084A1 - Turbomachine, in particular gas turbine - Google Patents

Abstract

The invention relates to a rotor of a turbomachine, in particular a gas turbine rotor, with a plurality of rotor blade rings (11, 12) assigned to a turbine or a compressor and positioned one behind the other in the axial direction, each rotor blade ring having a rotor base body (15, 16) with several rotor blades (17, 18). and wherein the rotor blades of a rotor blade ring are anchored via blade roots (19, 20) in axial grooves of the respective rotor base body which extend essentially in the axial direction and are secured in their anchoring position in the rotor base body against displacement in the axial direction. According to the invention, the rotor blades (17) have at least one rotor blade ring (11) hook-like securing elements (30) which, in the anchoring position on a low-pressure side of the rotor blade ring (11), rest against the rotor base body (15), the hook-like securing elements (30) between the rotor base body (15) of the rotor blade ring (11) and a sealing element (29) which extends between the rotor base body (15) and a rotor base body (16) of a rotor blade ring (12) adjoining the low-pressure side, are fixed on both sides in the axial direction.

Description

The The invention relates to a turbomachine, in particular a gas turbine, according to the preamble of claim 1.

Turbomachinery In particular, gas turbines, both in the area of a turbine as well as in the area of a compressor several in the axial direction one behind the other positioned blade rings wherein each blade ring has a particular disc-shaped rotor main body and a plurality with the rotor body having rotating blades. The present invention relates a turbomachine, in particular a gas turbine, in which the Blades of blades wreaths over her Shovel feet in grooves, which run essentially in the axial direction of the rotor body, So in so-called axial grooves, are attached. The blades the blade wreaths have to while in their mounting position or their anchoring position in the axial grooves of the rotor body be secured against displacement in the axial direction.

to Axial securing the over their blade feet in axial grooves a rotor body attached blades of a blade ring come in the Practice usually so-called wire locks are used. With such wire locks becomes a wire-shaped Securing element in a groove between the blade roots of the Blades and the rotor body is formed, threaded to so the blades towards a displacement in the axial direction to back up. Each blade usually has a separate one wire form Fuse element used, creating a complex assembly of Wire retention is caused. Furthermore, wire retainers are subject to tolerances.

at another known from the prior art variant of Axialsicherung the blades find so-called locking plates Use, also as a closure plate or as locking plates be designated. Such locking plates are both in one Ring groove of the rotor body as well as in an annular groove of the rotor body anchored in the rotor blades guided. Increase such safety plates the load on the blade root of the blades and thus the occurring edge loads.

Of these, Based on the present invention, the problem underlying to create a novel turbomachine.

This Problem is solved by that the aforementioned turbomachine by the features of characterizing part of claim 1 is further developed. According to the invention the blades of at least one blade ring hook-like Securing elements in the anchoring position on a Low pressure side of the blade ring on the rotor body of the same abut, wherein the hook-like securing elements between the Rotor body the blade ring and a sealing element, which itself between the rotor body and a rotor body a subsequent on the low pressure side blade ring extends, are fixed on both sides in the axial direction.

in the The sense of the present invention have in their axial position to be secured blades over hook-like securing elements which between the rotor main body of respective blade ring and the sealing element by clamping fixed on both sides. As a result, a completely new type of fuse guided in axial grooves Blades opposite provided an unintentional displacement in the axial direction, which is characterized by a simple assembly and disassembly, and with the help of these continue leakage flows in the radially inner region the blade wreaths can be minimized. Furthermore, by the axial securing of the blades according to the invention those on the shovel feet of the same acting load is not increased.

Preferably is the sealing element over a the bay-like securing elements adjacent portion bayonet-like on the rotor body of the blade ring, its blades before a shift secured in the axial direction, fastened, this section the sealing element, the hook-like securing elements of the blades fixed on both sides in the axial direction.

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 section of a gas turbine according to the invention according to a first embodiment of the invention; and

2 a section of a gas turbine according to the invention according to a second embodiment of the invention.

1 shows a section of a turbine 10 a gas turbine according to the invention, namely a gas turbine aircraft engine, arranged in the region of two in the axial direction one behind the other, rotating blade rings 11 . 12 , being between the two illustrated blade rings 11 . 12 a fixed vane ring 13 is arranged. The turbine 10 will be in the direction of in 1 illustrated arrow 14 flows through in the axial direction.

Each of the two in 1 illustrated blade rings 11 . 12 has a preferably disc-shaped rotor body 15 respectively. 16 , with blades 17 respectively. 18 the blade wreaths 11 respectively. 12 over scoop feet 19 respectively. 20 in so-called axial grooves of the respective rotor body 15 respectively. 16 attached or anchored. The axial grooves of the rotor body 15 respectively. 16 in which the blades 17 respectively. 18 over her shovel feet 19 respectively. 20 are anchored, extend substantially in the axial direction of the turbine 10 , To the shovel feet 19 . 20 the blades 17 . 18 close radially outward blades 21 . 22 with, between the blade feet 19 . 20 and the blades 21 . 22 the blades 17 . 18 Schaufelfußplattformen 23 . 24 are formed.

The between the two blade rings 11 . 12 positioned vane ring 13 includes several fixed vanes 25 , wherein at a radially inner end of blades 26 the fixed vanes 25 a platform 27 is formed, which in the embodiment of the 1 a seal 28 is attached in the form of a brush seal, with other types of seals are used. The stator-side seal 28 acts according to 1 with one between the two blade rings 11 . 12 positioned, rotor-side sealing element 29 together to form a radially inner gap between the rotating blade rings 11 . 12 and the fixed vane ring 13 seal.

To secure the blades 17 of the blade ring 11 in its anchoring position in the axial grooves of the corresponding rotor body 15 and thus to secure them from accidental displacement in the axial direction are the blades 17 of the blade ring 11 hook-like security elements 30 assigned in the anchoring position on a low pressure side of the blade ring 11 on the rotor body 15 the same concern. As 1 can be removed, are the security elements 30 the shovel feet 19 the blades 17 assigned and lie with a radially inner section 31 on the rotor body 15 of the blade ring 11 at.

The hook-like security elements 30 are for axial securing of the blades 11 between the rotor body 15 of the blade ring 11 and the sealing element 29 , which is located between the rotor body 15 of the blade ring 11 and the rotor body 16 of the adjoining on the low pressure side blade ring 12 extends, fixed on both sides in the axial direction. According to 1 become the hook-like security elements 30 between the rotor body 15 of the blade ring 11 , the rotor blades to be secured with respect to their axial position 17 includes, and the rotor-side sealing element 29 clamped on both sides.

In the embodiment of 1 is the rotor-side sealing element 29 over a section 32 which is adjacent to the hook-like securing elements 30 the blades 17 is positioned, bayonet-like on the rotor body 15 of the blade ring 11 attached. The section 32 of the sealing element 29 has a nose-like projection 33 which has a non-illustrated opening in a groove 34 of the rotor body 15 is insertable in the axial direction. After introduction of the projection 33 of the sealing element 29 over the opening in the groove 34 of the rotor body 15 is the sealing element 29 Rotatable in the circumferential direction, so as the bayonet-type fastening of the sealing element 29 on the rotor body 15 of the blade ring 11 , its blades 17 to secure against displacement in the axial direction are to be fastened. When rotated in the circumferential direction to the bayonet-type fastening of the sealing element 29 on the rotor body 15 of the blade ring 11 become the hook-like security elements 30 between the rotor body 15 and the sealing element 29 clamped so the blades 17 and 18 fix on both sides. The section 32 of the sealing element 29 , which is the bayonet-type fastening of the sealing element 29 on the rotor body 15 of the blade ring 11 serves, fixed on the hook-like security elements 30 the blades 11 both sides in the axial direction.

Another embodiment of a gas turbine according to the invention shows 2 , wherein also in the embodiment of 2 a detail of a turbine 35 is shown. The embodiment of 2 corresponds to many embodiments of the embodiment of the 1 so that like reference numerals are used to avoid unnecessary repetition for like assemblies. In the following, only the details are dealt with by which the embodiment of the 2 from the embodiment of 1 different.

In the embodiment of 2 have the blades 17 as well as in the embodiment of 1 hook-like security elements 30 in the anchoring position on a low-pressure side of the rotor blade ring 11 on the rotor body 15 the same concern. The hookarti gene fuse elements 30 are in turn between the rotor body 15 of the blade ring 11 and the sealing element 29 Fixed in the axial direction on both sides, with the sealing element 29 between the rotor body 15 of the blade ring 11 whose rotor blades are to be secured against displacement in the axial direction, and the rotor body 16 of the adjoining on the low pressure side blade ring 12 extends.

In the embodiment of 2 is the sealing element 29 not as in the embodiment of 1 bayonet-like with the rotor body 15 of the blade ring 11 connected, rather, is a lead 36 of the sealing element 29 between two flanges 37 and 38 the rotor body positioned one behind the other in the axial direction 15 and 16 fastened by screwing. A to the projection 36 subsequent section 39 of the sealing element 29 serves the two-sided fixation of the hook-like security elements 30 between the rotor body 15 and the sealing element 29 so as to unintentionally move the blades 17 of the blade ring 11 to prevent in the axial direction.

For the purposes of the present invention, blades of rotor blade rings guided in axial grooves are thereby secured against undesired axial displacement, that hook-like securing elements associated with the blade roots of the rotor blades are fixed between the rotor base body of the rotor blade ring and a rotor-side sealing element of a so-called inner-air-seal seal, namely on both sides in the axial direction, with all the blades of two adjacent blade rings 11 and 12 through a component 29 secured axially. In this case, the sealing element is preferably attached to the corresponding rotor body in a bayonet. The invention has the advantage that blades can be relatively easily mounted on the rotor body and disassembled. All blades of a blade ring can be fixed together via a sealing element in the axial direction.

10

turbine

11

Blade ring

12

Blade ring

13

vane ring

14

Flow direction

15

Rotor body

16

Rotor body

17

blade

18

blade

19

blade

20

blade

21

airfoil

22

airfoil

23

blade root

24

blade root

25

vane

26

airfoil

27

platform

28

poetry

29

sealing element

30

fuse element

31

section

32

section

33

head Start

34

groove

35

turbine

36

head Start

37

flange

38

flange

39

section

Claims (7)

Turbomachine, in particular a gas turbine, with a plurality of blade rings arranged in succession in the axial direction, assigned to a turbine or a compressor (US Pat. 11 . 12 ), wherein each blade ring a rotor body ( 15 . 16 ) with several blades ( 17 . 18 ) and wherein the blades of a blade ring over Schaufelfüße ( 19 . 20 ) anchored in substantially axially extending axial grooves of the respective rotor body and are secured in its anchoring position in the rotor body from displacement in the axial direction, characterized in that the blades ( 17 ) at least one blade ring ( 11 ) hook-like security elements ( 30 ) in the anchoring position on a low pressure side of the blade ring ( 11 ) on the rotor body ( 15 ) abut the same, wherein the hook-like securing elements ( 30 ) between the rotor body ( 15 ) of the blade ring ( 11 ) and a sealing element ( 29 ), which extends between the rotor body ( 15 ) and a rotor base body ( 16 ) of a low pressure side subsequent blade ring ( 12 ), are fixed on both sides in the axial direction. Turbomachine according to claim 1, characterized in that the hook-like securing elements ( 30 ) between the rotor body ( 15 ) of the blade ring ( 11 ) and a sealing element ( 19 ) are clamped on both sides in the axial direction. Turbomachine according to claim 1 or 2, characterized in that the sealing element ( 29 ) via a hook-like securing elements ( 30 ) adjacent section ( 32 ) like a bayonet on the rotor body ( 15 ) of the blade crane zes ( 11 ), whose blades ( 17 ) are secured against displacement in the axial direction, is attached. Turbomachine according to claim 3, characterized in that the section ( 32 ) of the sealing element ( 29 ) the hook-like securing elements ( 30 ) of the blades ( 17 ) fixed in the axial direction on both sides. Turbomachine according to claim 3 or 4, characterized in that the section ( 32 ) of the sealing element ( 29 ) a lead ( 33 ), which via an opening in a groove ( 34 ) of the rotor body ( 15 ) is insertable in the axial direction, wherein the sealing element ( 29 ) Is then the bayonet-like attachment of the same in the circumferential direction rotatable. Turbomachine according to claim 1 or 2, characterized in that the sealing element ( 29 ) about a lead ( 36 ) between flanges ( 37 . 38 ) the rotor body ( 15 . 16 ), between which the sealing element ( 29 ), is attached. Turbomachine according to claim 6, characterized in that a projection ( 36 ) adjacent section ( 39 ) of the sealing element ( 29 ) the hook-like securing elements ( 30 ) of the blades ( 17 ) fixed in the axial direction on both sides.