This application claims priority of European Patent Office application No. 09152225.0 EP filed Feb. 5, 2009, which is incorporated by reference herein in its entirety.
This invention relates to an annular vane assembly for a gas turbine engine.
More particularly, the invention relates to an annular vane assembly for a gas turbine engine, the assembly including a vane segment comprising an arcuate rail and at least one vane that extends radially inwardly from the arcuate rail, the assembly also including a hollow cylindrical casing in the inside curved surface of which is formed an annular groove for receiving the arcuate rail of the vane segment.
One known vane segment 1 is shown in
The vane segment 1 of
The known annular vane assembly of
There are various mechanisms by which vane segment 1, once fitted to casing 11, can be secured in place.
One such mechanism is as shown in
Another mechanism is as shown in
A further mechanism is shown in
According to the present invention there is provided an annular vane assembly for a gas turbine engine, the assembly including a vane segment comprising an arcuate rail and at least one vane that extends radially inwardly from the arcuate rail, the assembly also including a hollow cylindrical casing in the inside curved surface of which is formed an annular groove for receiving the arcuate rail of the vane segment, the arcuate rail being secured in the annular groove by means of one or more resilient strips interposed between the rail and the groove, the or each resilient strip comprising a planar main body and sprung wings that extend to either side of the main body, the wings being angled with respect to the plane of the main body, the or each resilient strip being moveable circumferentially between (i) a first position in which the strip exerts a force radially on the arcuate rail to secure the rail in the annular groove and (ii) a second position in which the wings of the strip occupy recesses in the assembly to relieve the radial force and release the rail in the groove.
In an assembly according to the preceding paragraph, it is preferable that there is one resilient strip and in the first position it exerts a radially inward force on the arcuate rail.
In an assembly according to the preceding paragraph, it is preferable that the rail includes flanges that run along either side of the rail, and the groove includes recesses that run along either side of the groove, first surfaces comprising radially inwardly facing surfaces of the flanges engaging with second surfaces comprising radially outwardly facing surfaces of the recesses, and the resilient strip is interposed between third surfaces comprising radially outwardly facing surfaces of the flanges and fourth surfaces comprising radially inwardly facing surfaces of the recesses, in the first position (i) the wings of the strip exerting a radially inward force on the third surfaces and (ii) the main body of the strip exerting a radially outward force on the fourth surfaces.
It is preferable that an assembly according to the preceding paragraph further comprises a further strip interposed between the resilient strip and the third surfaces, in the first position the wings of the resilient strip exerting the radially inward force on the third surfaces via the agency of the further strip, the recesses in the assembly comprising recesses in each side of the further strip, the circumferential movement of the resilient strip between the first and second positions being circumferential movement relative to the further strip.
In an assembly according to the preceding paragraph, it is preferable that the recesses of the further strip include encountered sides that are encountered by the wings of the resilient strip when the resilient strip is moved circumferentially relative to the further strip from the second to the first positions, and wherein the encountered sides subtend an angle to the circumferential direction of substantially less than 90 degrees.
In an assembly according to either of the preceding two paragraphs, it is preferable that the ends of the resilient and/or further strips include a tooling hole whereby a tool can be attached to the resilient/further strip to facilitate the circumferential movement of the resilient strip relative to the further strip between the first and second positions.
In an assembly according to any one of the preceding six paragraphs, it is preferable that the arcuate rail and annular groove incorporate a complementary protrusion and depression to circumferentially locate the rail within the groove.
In an assembly according to any one of the preceding seven paragraphs, it is preferable that the or each vane of the vane segment extends radially inwardly to a further arcuate rail of the vane segment.
The assembly according to any one of the preceding eight paragraphs may be a compressor assembly.
The invention will now be described, by way of example, with reference to the accompanying drawings, in which:
a, already referred to, is a perspective view of a known vane segment;
b, already referred to, is a perspective view of a known hollow cylindrical casing to which fits the known vane segment of
c, already referred to, shows a mating relationship between an outer rail of the vane segment of
Referring to
Resilient strip 33 comprises a planar main body 41 and sprung wings 43 that extend to either side of main body 41. Wings 43 are angled with respect to the plane of main body 41 such that (i) main body 41 exerts a radially outward force on surfaces 39, and (ii) wings 43 exert a radially inward force on further strip 35. Further strip 35 in turn exerts a radially inward force on surfaces 37. This causes radially inwardly facing surfaces 45 of flanges 9 to be biased against radially outwardly facing surfaces 47 of recesses 17, clamping flanges 9 onto surfaces 47. In this manner, vane segment 1 is securely held in position in annular groove 15 of casing 11.
Referring to
When insertion takes place, strips 33, 35 are positioned relative to one another as shown in
In the positioning of
Following insertion of strips 33, 35, strip 33 is slid circumferentially relative to strip 35 in order to bring strips 33, 35 to the positioning shown in
The removal of strips 33, 35 is the reverse of insertion. Thus, strip 33 is slid circumferentially relative to strip 35 to bring strips 33, 35 to the positioning of
During insertion of strips 33, 35, strip 33 is slid circumferentially relative to strip 35 to bring wings 43 of strip 33 into engagement with strip 35. During removal of strips 33, 35 the reverse occurs. To assist in this sliding tooling holes 51 are provided in the ends of strips 33, 35 whereby an appropriate tool can be attached to strips 33, 35 to facilitate the sliding. The holes 51 of the two strips 33, 35 are of the same size, and, in the positioning of
Recesses 49 of strip 35 include sides 53 that are encountered by wings 43 of strip 33 when transition is occurring from the positioning of
Referring to
In the above description two strips 33, 35 are used. It is to be appreciated that further strip 35 could be dispensed with, and the recesses 49 of further strip 35 formed instead in radially outwardly facing surfaces 37 of flanges 9 of rail 5. Resilient strip 35 would be slid into groove 15 at the same time as rail 5, with wings 43 of strip 35 occupying the recesses in surfaces 37. Once rail 5 is in the correct circumferential position then strip 35 would be slid circumferentially relative to rail 5 to bring wings 43 out of the recesses in surfaces 37 to a position where they bias against the remaining raised portions of surfaces 37. The reverse would occur in removal of vane segment 1.
In the above description one 35 or two 33, 35 strips are used between radially outwardly facing surfaces 37 of flanges 9 and radially inwardly facing surfaces 39 of recesses 17. It is to be appreciated that instead one or two pairs of strips could be used between radially outwardly facing surfaces 47 of recesses 17 and radially inwardly facing surfaces 45 of flanges 9, one strip of the or each pair being located at each side of rail 5. The one or two strips at each side of rail 5 would operate in corresponding manner to one strip 35 or two strips 33, 35.
Number | Date | Country | Kind |
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09152225.0 | Feb 2009 | EP | regional |