FR3105996A1 - Locking member for assembling a first part and a second part of a turbomachine - Google Patents

Abstract

Locking member (8) extending in one direction and intended for assembling a first part and a second part of a turbomachine, said member (8) having a generally C-shaped section (20) and having a base (22) from which extend a first leg (24) and a second leg (26), each leg having a first end (28, 30) connected to the base (22) and a second end free (32, 34), characterized in that the base (22) and / or at least one of the branches (24, 26) of the locking member comprises an internal hollow zone (44) extending along said direction. Figure to be published with the abstract: Figure number 3

Description

Locking member intended for the assembly of a first part and a second part of a turbomachine

Technical field of the invention

This document relates to a locking member intended for the assembly of a first part and a second part of a turbomachine, for example an abradable ring sector on a turbine casing.

State of the prior art

FIG. 1 represents part of a turbine 2 of a turbomachine of the prior art, known in particular from document FR 2 931196, in the name of the Applicant.

In the rest of the description, the terms upstream and downstream are defined with respect to the direction of circulation of the gases within the turbomachine. In addition, the terms axial, radial and circumferential are defined with respect to the axis of the turbomachine.

Figure 1 illustrates in particular the fixing of an abradable ring sector 4 on a turbine casing 6 or on a part fixed to said casing, by means of locking members 8.

The abradable ring sector 4 and the casing 6 each comprise a cylindrical annular flange 10, 12 extending axially downstream. Furthermore, the rim of each abradable ring sector 4 comprises a tooth or a projecting member 14, engaged in a housing or a notch 16 of complementary shape to the rim of the casing 12.

Such a complementarity of form makes it possible to immobilize the ring sector 4 on the casing in rotation. Furthermore, said projecting member 14 makes it possible, in combination with a stop 18 complementary to the sector on the casing, to immobilize the ring sector 4 axially with respect to the casing 6.

As is best seen in Figure 2, each locking member 8 is a ring sector having a section in the general shape of C or U 20. Said sector comprises an annular base 22 extending radially, an annular branch radially external 24 and a radially internal annular branch 26, each branch comprising a first downstream end connected to the base 28, 30 and a second free upstream end 32, 34. The internal branch 26 and the external branch 24 each comprise a bearing surface cylindrical 36, 38 at their second end, said bearing surfaces 36, 38 being turned towards each other and bearing respectively on the cylindrical rim 10 of the abradable ring and on the cylindrical rim of the housing 12.

The locking member 8 has an elasticity allowing it to be mounted and dismounted on the aforementioned flanges 10, 12, the branches 24, 26 of the locking member exerting a radially oriented force on the flanges 10, 12, in the mounted position. This effort makes it possible to fix or hold radially in position each ring sector 4 on the casing.

The locking member 8 is full, with the exception of housings 40,42 intended for gripping the locking member 8,

It has been found that, when mounting the locking member 8, the spacing of the two branches 24, 26 relative to each other generates, given the stiffness of said locking member 8, stresses high in the material. During such assembly or disassembly, the stresses generated exceed the elastic limit of the material, so that the locking member 8 undergoes a plastic deformation causing its damage.

Therefore, the locking member 8 is intended for single use and must be replaced after each dismantling. The structure of the locking member 8 also requires an operator to exert a significant effort during assembly and disassembly of the locking member 8, which makes it difficult to assemble and disassemble.

This document aims to remedy these drawbacks in a simple, reliable and inexpensive manner.

Presentation of the invention

To this end, the present document relates to a locking member extending mainly along a main direction of extension and intended to maintain in contact a first part and a second part of the casing of a turbomachine, said locking member having a section in the general shape of C and comprising a base from which extend a first branch and a second branch, each branch having a first end connected to the base and a second free end, characterized in that the base and/or the at least one of the arms of the locking member comprises an internal hollow zone which extends over a major part of the extension length of the locking member in said main direction of extension.

Each branch is intended to bear against one of the first and second turbomachine parts, so as to hold said parts together by pinching.

Such a structure makes it possible to increase the deformation capacity of the locking member, so as to reduce the force necessary to ensure its deformation during the assembly or disassembly phase of the locking member. In this way, it is possible to facilitate its installation by an operator. For example, the extraction force can be reduced compared to the prior art, which facilitates the assembly and disassembly operations by an operator.

Furthermore, the mechanical stresses in the locking member are then limited during assembly or disassembly, which makes it possible to avoid a risk of plastic deformation and damage to the locking member. The latter can then be reused after assembly and disassembly.

Improving the deformation capacity of the locking member 8 also makes it possible to reduce the dimensional manufacturing tolerances, and thus limit the manufacturing costs of such a locking member.

Furthermore, the hollow zone makes it possible to limit the mass of the locking member. The mass gain per locking member can for example be estimated between 30 and 40% compared to the prior art.

The hollow area can extend into the base and into each of the branches.

As a variant, the hollow zone can extend in the base only or in one and/or the other of the branches only.

The hollow zone can comprise several distinct parts, separated axially, circumferentially and/or radially from each other. The separation between the distinct parts of the hollow zone can be achieved by means of partitions.

The hollow zone can open out at at least one of the circumferential ends of the locking member.

The hollow zone can emerge at each circumferential end of the locking member.

Such characteristics make it possible to further improve the deformation capacity of the locking member.

The main direction of extension of the locking member can be a circumferential direction which extends around an axis.

The circumferentially extending locking member may extend over an angular range between 5 and 30° relative to the aforementioned axis.

Alternatively, the locking member may be rectilinear.

The second free end of each branch of the locking member can form a bearing surface facing the bearing surface of the second end of the opposite branch.

Each support surface can be flat. Each support surface can be sloping. The two support surfaces can be separated from each other by a determined distance, within a dimensional tolerance.

Each support surface is intended to bear against one of the first and second turbomachine parts, so as to hold said parts together by pinching.

At least one housing or a grip opening can be formed at the base of the locking member.

Such a housing or such an opening facilitates the gripping of the locking member, using a tool, so as to facilitate the mounting or dismounting of the locking member by an operator.

Said housing or the opening may be formed by at least one notch located at a circumferential end of the base.

A gripping notch may be formed at each circumferential end of the base.

Said locking member may comprise a wall which may surround and delimit the hollow zone, said wall having a thickness of between 0.5 and 1 mm, for example of the order of 0.7 mm.

The wall thus forms a thin shell surrounding the hollow zone.

This document also relates to an assembly comprising a first part and a second part of the turbomachine, fixed to each other by means of a locking member of the aforementioned type.

Each branch of the locking member, in particular the second free end of each branch, can bear against a bearing zone of the corresponding turbomachine part, the parts thus being held by pinching between the branches.

The invention also relates to a turbomachine, for example a turbojet or an airplane turboprop, comprising an assembly of the aforementioned type.

Brief description of figures

is a detailed view in axial section of part of a turbomachine turbine according to the prior art,

is a perspective view illustrating a locking member of the prior art,

is a perspective view illustrating a locking member according to one embodiment of this document,

is a side view illustrating a locking member according to an embodiment of this document,

Detailed description of the invention

Figures 3 and 4 illustrate a locking member 8 according to one embodiment of the invention, which differs from the locking member presented with reference to Figures 1 and 2 in that it comprises a hollow zone 44 extending circumferentially over the entire circumferential dimension of the locking member 8.

The hollow zone 44 is delimited by a wall 46 of substantially constant thickness, comprised for example between 0.5 and 1 mm.

The wall 46 delimits the branches 24, 26 and the base 22, as well as the support faces 36, 38 facing one another. The bearing surfaces 36, 38 can be machined so that the radial distance between said bearing surfaces 36, 38 is equal to a determined distance, to within a dimensional tolerance.

As before, each bearing surface 36, 38 is intended to bear against two parts 10, 12 of the turbomachine, so as to hold said parts 10, 12 together by pinching.

The base 22 has two gripping notches 48 located at the circumferential ends 50 of the base 22.

The locking member 8 extends over an angular range of between 5 and 30° relative to the axis of the turbomachine.

As indicated above, such a structure makes it possible to increase the deformation capacity of the locking member, so as to reduce the effort necessary to ensure its deformation during the assembly or disassembly phase of the locking member 8 In this way, it is possible to facilitate its installation by an operator. Furthermore, the mechanical stresses in the locking member 8 are then limited during assembly or disassembly, which makes it possible to avoid a risk of plastic deformation and damage to the locking member 8. The latter can then be reused after assembly and disassembly.

The improvement in the deformation capacity of the locking member 8 also makes it possible to reduce the aforementioned dimensional manufacturing tolerances, in particular as regards the radial spacing between the bearing surfaces 36, 38, and thus limit the manufacturing costs of such a locking member 8.

Furthermore, the hollow zone 44 makes it possible to limit the mass of the locking member 8. The gain in mass per locking member 8 can for example be estimated between 30 and 40% compared to the prior art.

The presence of the gripping notches 48 makes it easier to grip the locking member 8, using a tool, so as to facilitate the mounting or dismounting of the locking member 8 by an operator.

Claims (10)

Locking member (8) extending mainly in a main direction of extension and intended to maintain in contact a first part (10) and a second part (12) of the casing of a turbomachine, said locking member (8) comprising a base (22) from which extend a first leg (24) and a second leg (26), the base (22) and the legs (24, 26) being arranged so that the organ lock (8) has a general C-shape in cross-section, each branch comprising a first end (28, 30) connected to the base (22) and a second free end (32, 34), characterized in that the base (22) and/or at least one of the legs (24, 26) of the locking member (8) comprises an internal hollow zone (44) which extends over a major part of the extension length of the locking member in said main direction of extension. A locking member (8) according to claim 1, wherein the hollow area (44) extends into the base (22) and into each of the legs (24, 26). Locking member (8) according to one of the preceding claims, in which the hollow zone (44) opens out at at least one of the circumferential ends of the locking member (8). Locking member (8) according to Claim 3, in which the hollow zone (44) opens out at each circumferential end of the locking member (8). Locking member (8) according to one of the preceding claims, in which the main extension direction of the locking member (8) is a circumferential direction which extends around an axis. Locking member (8) according to one of the preceding claims, in which the second free end (32) of the first branch (24) has a bearing surface (36) facing a bearing surface (38) of the second end (34) of the second branch (26). Locking member (8) according to one of the preceding claims, in which at least one housing or a gripping opening (48) is formed in the base (22) of the locking member (8). Locking member (8) according to Claim 7, in which the housing or the opening (48) is formed by at least one notch (48) located at one end of the base (22) along the main direction of extension. Locking member (8) according to Claim 8, in which a gripping notch (48) is formed at each end of the base (22) in the main direction of extension. Locking member (8) according to one of the preceding claims, in which the locking member (8) comprises a wall (46) which surrounds and delimits the hollow zone (44), the said wall (46) having a thickness of preferably between 0.5 and 1 mm.