FR2751393A1 - SEALING DEVICE FOR PARTS ROTATING IN RELATION TO ONE ANOTHER - Google Patents

Abstract

Sealing device for sealing the space between two parts (3, 4) in rotation with respect to each other, with a sealing element (1, 2) arranged between the interior and exterior parts (3 , 4) and surrounding the interior part (3), the sealing element (1, 2) being constructed as a part surrounding the interior part (3) by forming a closed ring which is mounted movable in the radial direction relative to the outer part (4). In particular, the sealing device (1, 2) comprises a brush seal (2) and a seal support (1) for fixing the brush seal (2) to the external part (4 ) with respect to which the lining support (1) is mounted movable in the radial direction. The objective is to seal spaces in the form of annular slots between parts of a jet engine, in particular between the rotor and the guide blades of the jet engine.

Description

1 SEALING DEVICE FOR ONE ROTATING PARTS

IN RELATION TO THE OTHER

  The present invention relates to a sealing device for sealing the slot between rotating parts relative to each other, namely

  an inner part and an outer part, with a sealing element arranged between the inner part and the outer part and surrounding the inner part.

  In the field of engine construction, there are a whole series of application cases in which

  two parts rotating in relation to each other must be sealed against the flow of gas passing through the engine. One such application is for example the sealing between the guide blades and the rotor of a jet engine.

  To seal spaces in the form of annular slots between engine parts rotating relative to one another, sealing devices 20 are known according to which the sealing element comprises a brush seal and one

  seal support receiving and carrying the brush seal to fix the brush seal to the part, from among the two parts of the motor to be sealed relative to one another, which happens to be the part outside.

  Because of the large temperature differences which appear during the operation of an engine, in particular between the rotor and the guide blades, relatively large variations in the radial width of

  the annular gap between the rotating parts relative to each other, these variations can only be partially compensated for by the elastic brush seals 35 used today.

  The object of the invention is therefore to propose a sealing device of the aforementioned type, in particular for use in the field of engine construction, which is capable of compensating for relatively large variations5 in the radial height of the space. to seal. This problem is solved according to the present invention by a sealing device such that the lining support is mounted in a fixing device which is formed by sliding elements arranged on the interior part or on the exterior part and by guide elements. arranged on the other respective part (external part or internal part), the sliding elements being distributed over the circumference of the lining support and being housed in the guide elements so as to be centered and movable in the radial direction. According to the invention, there is provided a sealing device intended to seal the space between two rotating parts relative to each other, namely an inner part and an outer part, with a

  sealing element arranged between the interior part and the exterior part and surrounding the interior part.

  According to the invention, the sealing element is constructed as a part which surrounds the internal part by forming a closed ring and which is mounted movable in the radial direction relative to the external part. The construction of the sealing element in the form of a closed ring has the advantage that the sealing element30 can expand independently as a function of the temperature and can therefore better adapt to the annular gap between the internal part. and the outer room. According to one embodiment of the invention, it is provided that the sealing element comprises a 3 brush seal and a seal support for fixing the brush seal to the external part, the seal. sealing and the support being constructed as a unit surrounding the interior part by forming a closed ring and the lining support being mounted movable in radial direction relative to the exterior part. This has the advantage of stabilizing the brush lining by means of the lining support and thus forming a sealing element 10 which is solid in itself. Another advantage is that the brush seal with the seal holder can

be changed easily.

  According to one embodiment, it is provided that the sealing device comprises a fixing device in which the lining support is mounted centered, movable in the radial direction relative to the external part and protected against any twisting in the circumferential direction. According to a variant of this embodiment, provision is made for the fixing device to contain sliding elements arranged on one of the parts, interior or exterior, and guide elements arranged on the respective respective part, exterior or interior, the elements sliding being housed centered in the guide elements so as to be movable in the radial direction and fixed in torsion in the circumferential direction. An advantage of this variant is that oscillations due to friction appearing between the sliding elements and the guide elements are attenuated and that the behavior in oscillation between the internal part and the external part is therefore improved. According to one embodiment, the fixing device comprises a support element which is designed in the form of a projecting part extending in the circumferential direction and to which the packing support is supported to fix its position in the axial direction. According to another embodiment, it is provided that the sliding elements are formed by slides which are provided on the lining support and which are housed movable in the radial direction in grooves formed by the guide elements. According to another embodiment, provision is made for the sliding elements to be implemented by extensions, designed in the form of arches, of the lining support formed by a piece of curved sheet metal, these

  extensions being housed movable in the radial direction in slots formed by the guide elements. The advantage of this embodiment is the low weight of the sealing device, reduced expenses and therefore attractive costs during manufacture.

  According to another embodiment, the fixing device comprises a carrier ring provided on the lining support and forming a recess opening radially outward, a projecting part, which extends in the circumferential direction and which penetrates

  with a radial clearance in the recess of the support ring, being provided on the external part.

  Finally, according to another embodiment, it is provided that guide elements, which are fixed to the carrier ring against any offset in the circumferential direction, are provided for each projecting part. The sealing device according to the invention is advantageously used to seal spaces in the form of annular slots between parts rotating one relative to the other of a jet engine. The sealing device according to the invention is very advantageously used to seal the space in the form of an annular slot between the rotor and the guide blades of a jet engine. Other characteristics and advantages of the invention will emerge more clearly on reading

  the description below, made with reference to the accompanying drawings, in which:

  Figure 1 in cross section, a partial view of a sealing device, arranged between the rotor and the guide blades of a jet engine, according to a first embodiment of the invention; Figure 2 a top view of the embodiment of Figure 1 according to arrow A in Figure 1; Figure 3 in cross section, a partial view of a sealing device arranged between the rotor and the guide blades of a jet engine, according to a second embodiment of the invention; and Figure 4 in cross section, a partial view of a sealing device arranged between the rotor and the guide blades of a jet engine, according to a third

  exemplary embodiment of the invention.

  In the first embodiment of the invention which is shown in cross section in FIG. 1, the sealing device according to the invention serves to seal a space in the form of an annular slot between an interior part 3, in the form of 30 rotor of the jet engine, and an outer part 4, formed by a number of segments of guide blades 10, vis-à-vis the flow passing through the jet engine. The sealing device contains a packing support 1 which is designed as a part generally in the form of a circle ring which carries a brush sealing packing 2. In the usual manner in the state of the art, the brush seal 2 is formed for example by several layers 5 of a suitable heat-resistant and refractory seal material. The packing support 1 and the

  brush seal 2 together constitute a sealing element in the form of a closed ring which surrounds the interior part and which is mounted10 "floating" movable in radial direction relative to the exterior part 4.

  A support element 9 in the form of an edge or bead extending coaxially with the interior part is provided on the exterior part 4, it serves as a support surface for the lining support 1 so that the position of this support relative to the axial direction of the rotor is fixed, a movement of the lining support 1 relative to the support element 9 being at the same time possible in the radial direction. In doing so, the support element 9 is arranged on the downstream side of the flow to be sealed by the sealing element of

  so that the forces due to the flow acting on the sealing element are intercepted by the support element 9. In addition, the support element 9 has the task of making the gasket support 1 watertight relative to the external part 4.

  Sliding elements 5 are constructed on the side of the lining support 1 which is opposite to the support element 9, they cooperate with guide elements 630 constructed on the external part 4 so as to make it possible on the one hand movement of the packing support 1 and therefore of the brush packing 2 in the radial direction and of preventing on the other hand a twisting of the packing support 1 in the circumferential direction. In this way, the guide elements 6 and the sliding elements 5 allow safe centering of the lining support. The sliding elements 5 and the guide elements 6 constitute, with the support element 9, a fixing device for the sealing element formed by the packing support 1 and by the brush sealing packing 2, this device of fixation

  allowing movement of this sealing element only in the radial direction in order to compensate for variations in dimensions appearing due to temperature differences.

  As can be seen in FIG. 2, the guide elements 5 are distributed at regular intervals around the circumference of the lining support 1. Two guide elements 6 are provided on both sides of each sliding element 5 for each of the guide blade segments 10 forming the outer part 4, knowing that each segment has the width B. The sliding elements 5 are housed in these guide elements 6 so as to be movable in the radial direction and fixed in the circumferential direction. For this purpose, the guide elements 6 are at such a distance from each other that they leave between them a groove 7 which has a width a little greater than that of the sliding element 5 so that the element sliding 5 can slide in one direction or the other in a radial direction between the guide elements 6 like a slide. Instead of the isolated guide elements 6, a continuous circumferential collar can also be provided which is interrupted at

  each time by the groove 7 extending axially and which thus forms circumferential shoulders.

  In the second embodiment of the invention which is shown in Figure 3, the sealing device is used as in the first embodiment to seal an annular slot35 between an inner part 3, formed by a rotor 8 a jet engine, and an external part 4, formed by a number of segments of guiding blades 10. The lining support 1 is formed by a part in curved sheet metal which is supported by one of its5 sides against an element of support 9 provided on the external part 4. On the side opposite to the support element 9, the sheet metal part forming the lining support 1 has extensions constructed in the form of arches which constitute sliding elements 5 which are housed10 movable in the radial direction in slots formed by guide elements 6 provided on the outer part 4. The sliding elements 5 and the guide elements 6 cooperate again with the support element 9 to have a mounting which allows movement in the radial direction of the lining support 1 and therefore of the brush seal 2 but which fixes the position of the lining support 1 relative to the axial direction of the rotor and prevents a shift of the lining support 1 in the circumferential direction. The essential function 20 is a safe centering of the lining support 1 with at the same time a possible relative movement in the radial direction. The third exemplary embodiment, shown in FIG. 4, of the sealing device according to the invention also serves to seal an annular slot between an internal part 3, formed by a rotor of a jet engine, and an external part 4, formed by segments of guiding blades 10. The packing support 1 is formed by a curved sheet metal part which carries the brush seal 2. A support ring 8, also constructed as a curved sheet metal part, is arranged on the lining support 1, it forms a recess 12 which opens radially towards the outside and into which penetrates a projecting part 13 provided on the external part 4, that is to say on 9 each of the guide blade segments 10, and extending in circumferential direction. In this exemplary embodiment, the carrier device formed by the carrier ring 8 and cooperating with the protruding parts 13 on the guide blade segments 10 is used as well to fix the packing support 1 and therefore the brush packing 2 with respect to the axial direction of the rotor 3 only to allow movement of the lining support 1 in the radial direction. To prevent an offset or a twist of the lining support 1, there are provided for each of the protruding parts 13 guide elements 6 which are formed in the embodiment shown in FIG. 4 by small plates and which are fixed to the supporting ring 8.15 Although the invention has been particularly shown and described with reference to a mode of

  preferred embodiment thereof, it will be readily understood by persons experienced in this technique that modifications in form and in details can be made without departing from the spirit or the field of the invention.

Claims (9)

  1. Sealing device for sealing the slot between parts (3, 4) rotating relative to each other, namely an inner part (3) and an outer part (4), with an element sealing (1, 2), which is arranged between the inner part (3) and the outer part (4), which surrounds the inner part (3), which is constructed as a closed ring and which is mounted movable in the direction radial with respect to the outer part (4), characterized in that the lining support (1) is mounted in a fixing device (5, 6, 9; 6, 8, 13) which is formed by sliding elements ( 5) arranged on the inner part (3) or on the outer part (4) and by guide elements (6) arranged on the other respective part (part   outer (4) or inner part (3)), the sliding elements (5) being distributed over the circumference of the lining support (1) and being housed in the guide elements (6) so as to be centered and movable in the direction radial.   2. Sealing device according to claim 1, characterized in that the sealing element (1, 2) comprises a brush seal (2) which is   held in the packing support (1).   3. Sealing device according to claim 1 or 2, characterized in that the fixing device (5, 6, 9) comprises a support element (9) which is constructed in the form of a projecting part extending in circumferential direction and to which the packing support (1) seals, surface against   surface, to fix its position in the axial direction. 4. Sealing device according to claims 1 to 3, characterized in that the elements   Sliders (5) are formed by slides which are provided on the packing support (1) and which are housed movable in the radial direction in grooves (7) formed by the guide elements (6). 5. Sealing device according to   Claims 1 to 3, characterized in that the sliding elements (5) are formed by extensions,   constructed in the form of arches, the lining support (1) formed by a piece of curved sheet metal, these extensions being housed movable in the radial direction   in slots formed by the guide elements (6).   6. Sealing device according to claim 1, characterized in that the fixing device (6, 8, 13) comprises a carrier device (8) provided on the packing support (1) and forming a recess (12) s opening radially outwards and in that a projecting part (13) which extends in the circumferential direction and which penetrates with a radial clearance in the recess (12) of the carrier ring (8), is provided on the outer part (4) .20 7. Sealing device according to claim 6, characterized in that guide elements (6), which are fixed to the carrier ring (8), are provided for each projecting part (13). 8. Use of a sealing device according to   one of claims 1 to 7 for sealing the annular gap between parts, rotating one by   compared to the other, a jet engine. 9. Use of a sealing device according to one of claims 1 to 7 for sealing   the space in the form of an annular slot between the rotor and the guide blades of a jet engine.