EP1811131A2 - Set of fixed sectorised diffuser inserts for a turbomachine compressor - Google Patents

Abstract

The synchronizing ring for a turbine compressor comprises coaxial internal (20) and external (52) shells, between which radial blades (24) are mounted. A collar (56) on the external shell allows the ring to be attached to a frame. The leading (26) or trailing (28) edges of the blades are attached to areas on the external shell which are less rigid than those connected to the collar.

Description

The present invention relates to a set of sectored fixed rectifiers for a compressor of a turbomachine, such as an airplane turbojet or turboprop.

A turbomachine compressor comprises a plurality of compression stages each comprising an annular row of moving blades mounted on a shaft of the turbomachine, and an annular row of fixed rectifiers carried by an outer casing.

Each annular row of fixed rectifiers is sectored and formed of sets of rectifiers circumferentially mounted end to end around the axis of the compressor, each set of rectifiers comprising two coaxial ferrules interconnected by radial blades, and being formed either of a single casting, either by fixing the ends of the blades on the ferrules.

A foundry assembly has a smaller axial footprint than an assembly formed by attaching the blades to the ferrules, but the leading and trailing edges of the blades of this assembly of a workpiece are connected to parts of the ferrule external which are themselves connected to annular mounting tabs on the outer casing and are therefore thick and very rigid.

As a result, the stresses at which the leading and trailing edges of the blades are subjected to operation are essentially supported by these leading and trailing edges which are thin and weak and are not partially damped by the outer shroud. which can lead to damage or destruction of the leading and trailing edges of the blades in their areas of connection to the outer shell.

The invention is intended to avoid this disadvantage while retaining the advantages of fixed sets of rectifiers formed of a casting.

It proposes for this purpose a set of sectorized fixed rectifiers for a turbomachine compressor, made in one piece and comprising two inner and outer shrouds extending coaxially one inside the other, radial blades s extending between the ferrules and connected by their radial ends to the ferrules, and two outer annular tabs carried by the outer ferrule and extending outside thereof, for mounting the set of rectifiers on a housing, characterized in that the leading or trailing edges of the blades are connected to areas of the outer shell less rigid than those connected to the annular mounting tabs.

According to the invention, the connection of the leading edges and / or leakage of the blades to parts of the outer shell which are less rigid than those connected to the annular mounting lugs, makes it possible to better pass the forces between the edges of the ring. attack and leakage of the blades and the ferrule and thus to support the ferrule at least a portion of the stresses at which the leading and trailing edges of the blades are subjected in operation. This results in a significant increase in the life of these sets of fixed rectifiers.

According to another characteristic of the invention, at least one of the axial ends of the outer shell comprises a rim which extends substantially parallel to one of the annular mounting lugs and to which the leading edges or trailing edges of the blades.

The shapes and dimensions of the or each rim of the outer shell are determined so that this flange has sufficient flexibility to better distribute the constraints of the leading or trailing edges of the blades in operation.

In one embodiment of the invention, the upstream end of the outer shell comprises a flange which is connected to the leading edges of the blades and which extends substantially parallel to the upstream annular lug.

As a variant or as an additional feature, the downstream end of the shell comprises a flange which is connected to the trailing edges of the blades and which extends substantially parallel to the downstream annular tab.

The or each annular mounting lug which extends substantially parallel to such a rim of the outer shell is connected to a median portion of the shell, which may have a different thickness or radial dimension and for example greater than that of the rim.

The median portion of the outer shell may have a thickness or radial dimension optimized for the eigenfrequencies of the blades and ferrules while also improving the transmission of stresses between the blades and the outer shell.

The invention also relates to a turbomachine compressor, characterized in that it comprises at least one annular row of fixed rectifiers formed of sets of rectifiers as described above, mounted circumferentially end to end around the axis of the compressor , and a turbomachine, such as a turbojet engine or an airplane turboprop, comprising such a compressor.

• la figure 1 est une vue schématique partielle en coupe axiale d'un compresseur haute-pression de turbomachine, et représente un ensemble de redresseurs fixes formé de fonderie selon la technique antérieure ;
• la figure 2 représente un autre ensemble de redresseurs fixes de la technique antérieure ;
• la figure 3 est une vue schématique en perspective d'un ensemble de redresseurs fixes selon l'invention ;
• les figures 4 et 5 sont des vues schématiques en perspective de variantes de réalisation de l'ensemble de redresseurs fixes selon l'invention.

The invention will be better understood and other details, characteristics and advantages of the present invention will appear more clearly on reading the following description, given by way of non-limiting example with reference to the accompanying drawings, in which:

• FIG. 1 is a partial diagrammatic view in axial section of a high-pressure turbomachine compressor, and represents a set of fixed rectifiers formed by a foundry according to the prior art;
• Figure 2 shows another set of fixed rectifiers of the prior art;
• Figure 3 is a schematic perspective view of a set of fixed rectifiers according to the invention;
• Figures 4 and 5 are schematic perspective views of alternative embodiments of the set of fixed rectifiers according to the invention.

The compressor 10 of FIG. 1 comprises several compression stages of which only two have been shown, each stage comprising an annular row of moving blades 12 whose radially inner ends are fixed on a disk 14 carried by a rotor shaft, shown, and an annular row of fixed rectifiers 16, arranged downstream of the annular row of moving blades 12 and carried by an outer cylindrical casing 18.

The annular rows of stationary rectifiers 16 are sectored and formed of sets of rectifiers which are mounted circumferentially end to end around the axis of the compressor. Each of these sets of rectifiers comprises two internal and external coaxial ferrules 20, for example in a portion of a cylinder, which extend one inside the other and which are connected to one another by blades. 24. These blades 24 have a concave inner surface or intrados and a convex or extrados outer surface which are connected to their upstream and downstream ends forming edges 26 and 28 of attack and leakage of the air flowing in the compressor.

Each set of fixed rectifiers is hooked on the outer casing 18 by means of two external annular tabs 30 formed at the axial ends of the outer shell 22, each annular tab 30 having an annular portion 32 which extends substantially radially towards the outside of the ferrule end 22, and a substantially cylindrical portion portion 34 which extends upstream or downstream respectively from the radially outer end of the annular portion 32 and which is engaged in a corresponding annular groove 36 of the housing.

The inner surface of the outer shell 22 is aligned with the inner surface of revolution of the casing 18. A block of material 38 is fixed on the inner surface of the inner shell 20 and intended to cooperate in sealing with annular ribs 40 of the rotor shaft of the compressor, to prevent the passage of gas between the inner ring 20 and the rotor shaft.

The set of rectifiers of FIG. 1 is formed of a single piece, in particular of casting, which makes it possible to minimize the axial dimension of the outer shell 22 and thus the axial space requirement of the rectifier assembly by bringing the legs external 30 as close to the leading edges 26 and leakage 28 of the radial blades. The leading edges 26 and trailing edges 28 of the blades are thus connected to thick and rigid parts of the shell which are not flexible enough to partially absorb the stresses to which the leading and trailing edges of the blades are subjected. operation.

The set of rectifiers of FIG. 2 is formed by assembling radial blades 24 on ferrules 20, 22, more precisely by fitting and welding or brazing the ends of the blades 24 in corresponding orifices of the ferrules 20, 22. The bulk axial of such an assembly is greater than that of the assembly of Figure 1 because the attachment tabs 30 of the assembly are necessarily spaced upstream and downstream respectively, the mounting holes of the blades radials. However, this embodiment allows the leading and trailing edges of the blades to be connected to relatively thin ferrule portions which are sufficiently flexible to absorb a portion of the stresses to which the leading edges 26 and 40 are subjected. leakage 28 blades in operation.

The present invention makes it possible to combine the advantages and to avoid the disadvantages of these two embodiments.

In a first embodiment of the invention shown in FIG. 3, the outer ring 52 of the set of rectifiers 50 comprises a downstream flange 54 substantially in a portion of a cylinder which is aligned axially with the remainder of the shell and which extends substantially parallel to the downstream annular tab 56 and inside thereof. This tab 56 comprises an annular portion 58 which extends substantially radially outwardly from the shell 52, and a portion 60 substantially in a portion of a cylinder or cone which extends downstream. from the radially outer end of the annular portion 58 and which is intended to be engaged in an annular groove of the housing 18.

The radial portion 58 of the downstream flap 56 is connected to the outer shell 52 upstream of the trailing edges 28 of the radial blades 24, which are connected to the rim 54 forming the downstream end of the outer shell 52. not used to connect the outer leg 56 and does not participate in the attachment of the set of rectifiers on the housing, its thickness may be reduced to give it a certain flexibility, which allows it to absorb some of the constraints applied to the trailing edges of the blades 24 in operation. The thickness of the flange 54 may be substantially equal to that of the remainder of the ferrule (outside the connection zones of the external fastening tabs) or lower.

The portion 60 of the downstream leg 56 also comprises a radially outer annular rib 62 intended to abut on a corresponding surface of the housing when the portion 60 of the tab is engaged in the groove of the housing. In the view of FIG. 1, this surface is radial and formed by a cylindrical rim of the casing 18.

The inner ferrule 20, the blades 24 and the upstream annular flange 30 are similar to those of the assembly of FIG. 1.

The assembly 50 shown in FIG. 4 differs from that of FIG. 3 in that the outer shell 52 also comprises an upstream rim 64 that is substantially in the form of a cylinder portion that is aligned axially with the remainder of the shell and that extends substantially in parallel to the upstream annular tab 66 for hooking the assembly and inside thereof. This lug 66 has an annular portion 68 that extends substantially radially outwardly from a portion of the shell located downstream of the zone of connection of the leading edges 26 of the blades, and a second portion 70 substantially in portion of cylinder which extends substantially axially upstream from the radially outer end of the annular portion 68 and which is intended to be engaged in an annular groove of the housing 18.

In this embodiment, the upstream and downstream annular tabs 66 and 56 are separated from each other by a median portion of outer shell 52 which has substantially the same thickness or radial dimension as the upstream and downstream edges 64 and 54 of this ferrule. This makes it possible to optimize the eigenfrequencies of the blades 24 and the outer shell 52 while improving the transmission of stresses between the leading and trailing edges of the blades and the outer shell.

In the variant embodiment of FIG. 5, the upstream annular and downstream annular tabs 56 are connected to a median part 72 of the outer shell which has a thickness or radial dimension that is clearly greater than that of the upstream and downstream flanges. of the outer shell. In the example shown, the first radial portions 58, 68 of the upstream and downstream lugs 66, respectively, are formed by the thick medial portion of the outer shell 52. This embodiment also makes it possible to improve the transmission of stresses between the blades and the outer shell.

Of course, the invention is not limited to the embodiments that have been described in the foregoing and shown in the accompanying drawings. For example, the set of rectifiers of Figure 3 could be formed with a flange 54 at its upstream end and with an annular tab 30 at its downstream end, as opposed to what is shown.

Claims (14)

Set of stationary rectifiers (50) sectorized for a turbomachine compressor (10), made in one piece and comprising two inner (20) and outer (52) ferrules extending coaxially one inside the other, radial blades (24) extending between the ferrules (20, 52) and connected at their radial ends to the ferrules, and two external annular tabs (30, 56, 66) carried by the outer ferrule (52) and extending outside thereof, for mounting the rectifier assembly on a housing (18), characterized in that the leading (26) or trailing edge (28) of the blades (24) are connected to areas of the outer shell (52) less rigid than those connected to the annular mounting flaps (56, 66). An assembly according to claim 1, characterized in that at least one of the axial ends of the outer shell (52) has a flange (54, 64) extending substantially parallel to one of the annular tabs (56, 66) and to which the leading edges (26) or the trailing edges (28) of the blades (24) are connected. Assembly according to claim 2, characterized in that the flange (64) of the outer shell (52) is at the upstream end of the shell (52) and is connected to the leading edges (26) of the blades (24) . Assembly according to claim 2, characterized in that the rim (54) of the outer shell (52) is at the downstream end of the shell (52) and is connected to the trailing edges (28) of the blades (24). Assembly according to claim 2, characterized in that the outer shell (52) comprises at its upstream end a first rim (64) to which the leading edges (26) of the blades (24) are connected, and comprises at its downstream end a second flange (54) to which the trailing edges (28) of the blades (24) are connected. An assembly according to claim 3 or 5, characterized in that the upstream annular mounting flange (66) and the upstream flange (64) are connected to a medial portion of the outer shell (52), which has substantially the same thickness or radial dimension as the upstream edge (64). An assembly according to claim 4 or 5, characterized in that the downstream annular mounting flange (56) and the downstream flange (54) are connected to a medial portion of the outer shell (52), which has substantially the same thickness or dimension radial than the downstream flange (54). An assembly according to claim 3 or 5, characterized in that the upstream annular mounting flange (66) and the upstream flange (64) are connected to a medial portion (72) of the outer shell (52), which has a thickness or radial dimension greater than that of the upstream flange (64). An assembly according to claim 4 or 5, characterized in that the downstream annular mounting flange (56) and the downstream flange (54) are connected to a medial portion (72) of the outer shell (52), which has a thickness or radial dimension greater than that of the downstream flange (54). An assembly according to claim 3 or 4, characterized in that one of the annular mounting lugs (30) is connected to an axial end of the outer shell (52). Assembly according to one of the preceding claims, characterized in that one of the annular mounting lugs (56) comprises at least one annular rib (62) radially external intended to abut on a corresponding surface of the housing (18). Assembly according to one of the preceding claims, characterized in that it is made of foundry. Turbomachine compressor (10), characterized in that it comprises at least one annular row of stationary rectifiers formed from sets of rectifiers (50) according to one of the preceding claims, mounted circumferentially end to end around the axis of the compressor. Turbomachine, such as an airplane turbojet or turboprop engine, characterized in that it comprises a compressor (10) according to claim 13.

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