FR2952704A1 - Annular combustion chamber for turbo shaft engine e.g. turbojet-prop engine of airplane, has spark plug equipped in one of two tubular guides, where two tubular guides are placed in chamber by utilizing opening - Google Patents

Abstract

The chamber has a spark plug (11) provided in an external casing and extended in guiding units composed of a chimney (15) and tubular guides (20, 24), where the guiding units are assembled in an opening (13) of a revolution wall of the chamber. The tubular guides are crossed axially by the spark plug, and are assembled with an axial clearance (j2) and a transversal clearance on the chimney that is fixed on the revolution wall of the chamber. The tubular guides are placed in the chamber by utilizing the opening. The spark plug is equipped in one of the two tubular guides.

Description

Rotating guide of a spark plug in a combustion chamber of a turbomachine

The present invention essentially relates to guiding a spark plug in an annular combustion chamber of a turbomachine, such as a jet engine or an airplane turboprop. An annular turbomachine combustion chamber is mounted in an outer casing and comprises an annular chamber bottom wall connected to two substantially cylindrical shells of revolution and coaxial extending downstream, and a shroud or cowling fixed on the bottom of the casing. chamber and extending upstream. The fairing guides the flow of air supplied by the compressor of the turbomachine and sharing in a central stream for supplying the combustion chamber and in two external veins intended to bypass the combustion chamber. The air from the compressor is fed into the combustion chamber and mixed with a fuel, the combustion of the mixture being initiated by at least one spark plug mounted on the outer casing and passing through an orifice of the outer shell.

In order to achieve the sealing of the combustion chamber at this orifice, it is known to mount guide means in this orifice, which comprise a tubular guide axially traversed by the spark plug and mounted with an axial and transverse play on a chimney fixed on the outer shell of the chamber and opening therein through the aforementioned orifice. The clearance allows the relative displacements between the chamber and the outer casing resulting from their differential expansions during the different phases of flight, without the candle abutting or leaning against the edges of the orifice of the outer shell of the chamber .

Such an arrangement is described in patent application FR 2 927 367, in the name of the applicant.

As explained in this document, the guide comprises a first sleeve surrounding the spark plug and mounted radially displaceable and with axial play in a second socket which is itself guided in the chimney, with the possibility of pivoting along an axis perpendicular to the axis of the candle. The degrees of freedom offered by such a joint comprise three translations, namely a translation along the axis of the candle and two translations along the two orthogonal axes, and two rotations, namely a rotation along the axis of the candle and a rotation along the aforementioned perpendicular axis. The contact surface between the first bushing and the spark plug is weak, which results in rapid wear of the spark plug. In addition, the axial clearance formed between the first bushing and the second bushing allows high frequency vibrations of the first bushing, which also damages the spark plug. Finally, the displacement of the spark plug relative to the guide can cause the guide to be lifted or tilted relative to its support on the chimney, which causes an influx of air into the combustion chamber, which will disturb the ignition of the the candle in all cases of use. The invention aims in particular to provide a simple, effective and economical solution to this problem. For this purpose, it proposes a combustion chamber of a turbomachine, comprising at least one spark plug carried by an outer casing of the combustion chamber and extending in guide means mounted in an orifice of a wall of revolution of the chamber, these guide means comprising a tubular guide axially traversed by the spark plug and mounted with axial and transverse play on a chimney fixed to the wall of revolution of the chamber and opening into it by the said orifice, characterized in that the candle is rotulante mounted in the tubular guide.

The swivel mounting of the spark plug in the tubular guide has sufficient degrees of freedom to compensate for relative displacements between the chamber and the outer casing resulting from temperature variations, as well as the geometrical defects resulting from manufacture.

Indeed, the degrees of freedom offered by such a joint comprise three rotations namely a rotation along the axis of the candle and two rotations along the two orthogonal axes. Such a structure thus offers more degrees of freedom than that of the prior art, which comprises only two degrees of freedom in rotation.

No effort is then transmitted from the combustion chamber to the candle, and vice versa. This arrangement also makes it possible to reduce or eliminate the aforementioned axial clearance, and to increase the contact surface between the tubular guide and the spark plug, thus reducing the wear of the spark plug.

It is also avoided misalignment of the spark plug and the guide causes a tilting of the guide relative to its support plane on the chimney and a large influx of air into the combustion chamber, which disrupt the ignition or re-ignition. - Ignition of the candle. In a first embodiment of the invention, the tubular guide comprises a first spherical outer surface element, which is traversed by the spark plug, and a second spherical inner surface element, surrounding the first element and mounted with axial play and transversal on the chimney. Wear therefore appears mainly at the interface between the two elements of the guide, inexpensive and easy to replace, and not at the level of the candle itself. Advantageously, the second element of the tubular guide comprises an outer annular flange extending transversely and engaged with play in an annular groove inside the chimney.

The clearance between the flange and the flue mainly allows a radial displacement of the second element, but can also allow axial displacement thereof. Advantageously, the axial clearance of the second element relative to the chimney is substantially zero or less than 0.8 mm. In an alternative embodiment, the first element of the tubular guide is made integrally with the candle. Preferably, the outer surface of the first element of the guide is convex, the inner surface of the second element of the guide being concave. Of course, the opposite can also be achieved without influencing the operation of the invention. Advantageously, the first and second elements of the guide comprise stops intended to limit the articulation of said elements along an axis perpendicular to the chimney. The first member has a flared radially outer end which facilitates mounting of the candle. In an alternative embodiment, the combustion chamber in which the spherical outer surface of the first element comprises means, such as flats, cooperating with complementary means 20 of the second element and allowing the introduction of the first element, in an angular position given in the second element and ensuring its maintenance in the second element after rotation of the first element about its axis on for example 90 °. The invention further relates to a turbomachine such as an airplane turbojet or turboprop, comprising an annular combustion chamber according to the invention. The invention will be better understood and other details, characteristics and advantages of the invention will become apparent on reading the following description given by way of nonlimiting example with reference to the appended drawings, in which: FIG. longitudinal sectional view of a portion of a conventional combustion annular chamber; - Figure 2 is a detail view illustrating the rotatable mounting of the candle according to a first embodiment of the invention; - Figure 3 is a detail view of the ring, the guide and the chimney of Figure 2, the candle and the chimney being coaxial; - Figure 4 is a view corresponding to Figure 3, the candle and the chimney being offset; FIG. 5 is a perspective view of the first element of the tubular guide, according to a second embodiment of the invention; FIG. 6 is a perspective view of the second element of the tubular guide according to the second embodiment; - Figures 7, 9, 11 and 13 are perspective views, illustrating the successive steps of mounting the first element in the second element; - Figures 8, 10 and 12 are views in longitudinal section corresponding respectively to Figures 7, 9 and 11; - Figure 14 is a longitudinal sectional view of the guide means of the candle according to a third embodiment of the invention. As illustrated in FIG. 1, an annular combustion chamber 1 of a turbomachine such as an airplane turbojet or turboprop is mounted in an outer casing 2 and comprises an outer shell 3 of revolution comprising a downstream annular flange of fixing on the housing 2, an inner ring 4 of revolution comprising an annular flange downstream mounting on an inner housing, and a chamber bottom 5 on which are mounted fairings 6 extending upstream. Fuel injection rods 7, distributed around the axis of the turbomachine, open into chamber bottom 5, at the level of injection heads 8. Deflectors 9 are arranged around each injection head 8 The air flow supplied by the compressor of the turbomachine is guided by fairings 6 and divided into a central stream intended to feed the combustion chamber 1 and two external veins intended to bypass the combustion chamber. The baffles 9 form a flow of air swirling into a primary combustion zone 10 of the combustion chamber 1. This air is mixed with the fuel atomized by the injection heads 8, the mixture being ignited by at least one 11. The candle 11 is mounted, by its outer end, on an adapter 12 fixed to the outer casing 2. The inner end of the candle 11 through an orifice 13 (see Figure 2) formed in the outer shell 3, until to be flush with the inner surface of the outer shell 3.

The orifice 13 is equipped with guiding means 14 for the spark plug 11 comprising a tubular chimney 15 opening into the chamber through said orifice 13, as well as a guide surrounding the spark plug and mounted with axial and transverse play on the chimney 15. Figure 2 shows a guide and a chimney 15 used in a combustion chamber according to a first embodiment of the invention. The chimney 15 has, in the same manner as before, a generally tubular shape with circular section. A radially inner end of the chimney is mounted and welded around the orifice, via a shoulder 16 bearing on the edge of the orifice 13 and facilitating the positioning of the chimney 15. The outer end the chimney has an annular flange 17 extending radially outwardly with respect to the axis of the chimney on which is fixed an annular wall 18 extending parallel to the flange 17 and delimiting an internal annular groove 19 with this one.

The guide comprises a first element 20 having a ring 21 slidably mounted on the candle and extended by a flared portion 22 at its outer end in the direction opposite to the orifice 13. The flared portion 22 forms a cone facilitating the introduction of the first element 20 on the candle 11. The outer surface of the ring is of convex spherical shape. The base of the outer surface of the flared portion 22 further comprises a bead forming a stop 23. The guide further comprises a second tubular element 24 concave spherical inner wall cooperating with the spherical outer surface of the first element 20, so as to form a ball joint. The second element 24 further comprises an annular collar 25 extending radially outwards from its end facing the orifice 13. The flange 25 is inserted into the groove 19 of the chimney 15, with a radial clearance j1 (see FIG. Figure 4) allowing the displacement of the second element 24 in a plane perpendicular to the axis of the chimney, and with an axial clearance j2 low or substantially zero. More particularly, the axial play j1 can be between 0 and 5 mm. It is preferably of the order of 2.5 mm.

The outer end of the second element 24, on the side opposite the orifice 13, forms a stop 26 intended to cooperate with the abutment 23 of the first element 20. FIG. 3 illustrates an operating state of the turbomachine in which the spark plug 11 , whose axis bears the reference B, and the shaft 15 of axis A are coaxial. In this case, the flange 25 of the second element is centered in the groove 19 of the chimney 15 and the abutments 23, 26 are not in contact with each other. During operation of the turbomachine, expansions due to high temperatures occur, causing relative displacement and misalignment between the spark plug 11 and the stack 15, the latter being effectively and simply compensated by the guide means.

In this case, as can be seen in FIG. 4, the first element 20 pivots in the second element 24. FIG. 4 represents the end position in which the stops 23, 26 come into contact with one another. In addition, the second element 24 is moved radially relative to the chimney 15, via the collar 25 and the groove 19. The axis B of the candle 11 is then inclined relative to that A of the chimney 15, the two axes being further apart from each other. The ball joint and the possibility of axial displacement of the first element 20 with respect to the candle offer many degrees of freedom, able to effectively compensate for displacements due to expansions as well as geometrical defects resulting from manufacture. In particular, the articulation thus formed has six degrees of freedom: three degrees of freedom in translation and three degrees of freedom in rotation.

In addition, the contact surface between the first element 20, 21 and the candle 11 is important, the wear of the latter is distributed and very limited. Finally, since the axial clearance j2 of the flange 25 in the groove 19 is small, the high frequency vibrations of the first element 20 are limited. In this way also, the invention reduces the wear of the candle 11. The wear primarily affects the first and second elements 20, 24, which are inexpensive and easy to replace parts. Of course, the guide means also seal the chamber at the orifice 13, and this regardless of the position of the candle 11 relative to the chimney 15. A second embodiment of the invention is illustrated in Figures 5 to 13. In this embodiment, the first element 20 of the tubular guide (Figure 5) differs from that described above in that the spherical outer surface 27 of the ring 21 has two flats 28 arranged symmetrically relative to to the axis of the first element 20. In addition, the flared portion 22 does not comprise a bead intended to form a stop. The second element 24 of the tubular guide comprises an inner surface having two cylindrical zones 29 extending facing one another and arranged symmetrically with respect to the axis of the second element 24. Each cylindrical zone 29 s extends on only part of the height of the second element 24, preferably on half the height. This is seen more particularly in Figure 8. The remainder of the inner surface has a spherical shape. The intermediate zones situated between the cylindrical zones thus form external projecting rims 31 with respect to the outer edge 32 of the cylindrical zones 29. The projecting flanges 31 are machined at 33 so as to allow the flats 28 of the first part to be introduced. element 20. The second element 24 further comprises a radial hole 34, intended to house a stud 35, as will be better described hereinafter with reference to FIG. 13. The mounting of the first element 20 in the second element 24 will now to be described in more detail with reference to FIGS. 7 to 12. A first step, illustrated in FIGS. 7 and 8, consists in inserting the first element 20 in the second element 24. For this purpose, the flats 28 are arranged opposite the flanges projection 31 of the second element 24, whose shape has been machined to allow the introduction of the first element 20. Then, the first element 20 is pressed into the second element 24 until the outer spherical surface 27 of the first element 20 bears against the inner spherical surface 30 of the second element 24 (see FIGS. 9 and 10). The first element 20 is then rotated a quarter turn around its axis. , so that the hole 34 opens out facing one of the flats 28 of the first element 20 (see FIGS. 11 and 12). The stud 35 is then inserted into the hole 34 and then fixed by screwing or welding in the second element 24 (see FIG. 13). The free end of the stud 35 does not bear against the flat 28, an operating clearance being formed between them. The stud 34 makes it possible to avoid that, under the effect of the vibrations, the first element 20 returns to the position of FIGS. 9 and 10. This avoids any risk of the first and second elements 20, 24 being separated. above, the ball joint function can, to a certain extent, be provided by the first and second elements 20, 24. The clearance is dimensioned so as to allow the deflections between these two elements resulting from the expansion during the different phases of flight. . In the position shown in Figures 11 to 13, the first member 20 is held axially between the projecting flanges 31 and the inner edge 36 of the second member 24. This embodiment allows rapid assembly and disassembly of the guide means. A third embodiment of the invention is illustrated in FIG. 14. In this embodiment, the guiding means comprise, in the same manner as above, first and second elements 20, 24. The first element 20 is in the form of the form of a ring shrunk, brazed or welded to the candle 11. The latter may have a narrowed diameter, for example during a recovery machining operation. The outer edge of the first member 20 has a flange 37 extending outwardly. The flange makes it possible to prevent the first element 20 from falling into the chamber in the event of the first element 20 and the spark plug 11 becoming detached. The outer surface of the first element has a spherical zone, in the same manner as previously.

The second element 24 has a ring 38 extended at its outer end by a flared portion 39 and having, at its inner end, a flange 25 extending outwardly, inserted in the groove 19 of the fireplace 15.

The ring 38 has a cylindrical or spherical inner surface cooperating with the spherical outer surface of the first element 20, so as to form a ball joint. The operation of this third embodiment is similar to that of the first embodiment.

This third embodiment is particularly suitable for repair or maintenance operations to replace the guide means of a combustion chamber of the prior art by the guide means according to the invention.

Claims (10)

REVENDICATIONS1. Combustion chamber (1) of a turbomachine, comprising at least one spark plug (11) carried by an outer casing (2) of the combustion chamber (1) and extending in guide means (15, 20, 24) mounted in an orifice (13) of a wall (3) of revolution of the chamber (1), these guide means comprising a tubular guide (20, 24) traversed axially by the spark plug (11) and mounted with an axial clearance (j2) and transverse play (j1) on a chimney (15) fixed on the revolution wall (3) of the chamber (1) and opening therein through the aforementioned orifice (13), characterized in the candle (11) is rotatably mounted in the tubular guide (20, 24). 2. Combustion chamber (1) according to claim 1, wherein the tubular guide comprises a first element (20, 21) with spherical outer surface, which is traversed by the candle (11), and a second element (24) to spherical inner surface, surrounding the first member (20, 21) and mounted with an axial clearance (j2) and transverse (j1) on the chimney (15). 3. Combustion chamber (1) according to claim 2, wherein the second element (24) of the tubular guide comprises an outer annular flange (25) extending transversely and engaged with clearance (j1, j2) in an inner annular groove (19) of the chimney (15). 4. Combustion chamber (1) according to claim 2 or 3, wherein the axial play (j2) of the second element (24, 25) relative to the chimney (15, 19) is substantially zero or less than 0.8 mm. 5. Combustion chamber (1) according to one of claims 2 to 4, wherein the first element (20) of the tubular guide is formed integrally with the candle (11). 6. Combustion chamber (1) according to one of claims 2 to 5, wherein the outer surface of the first element (20, 21) of the guide is convex, the inner surface of the second element (24) of the guide being concave. 7. Combustion chamber (1) according to one of claims 2 to 6, wherein the first and second elements (20, 24) of the guide comprise stops (23, 26) for limiting the articulation of said elements in a manner. perpendicular axis to the chimney (15). 8. Combustion chamber (1) according to one of claims 2 to 7, wherein the first element (20) has a flared end (22). 9. Combustion chamber (1) according to one of claims 2 to 8, wherein the spherical outer surface of the first member (20) comprises means, such as flats (28), cooperating with complementary means of the second element (24) and allowing the introduction of the first element (20), in a given angular position, in the second element (24) and ensuring its maintenance in the second element (24) after rotation of the first element (20) around its axis on for example 90 °. 10. Turbomachine, such as a turbojet or an airplane turboprop, comprising an annular combustion chamber (1) according to one of the preceding claims.