FR2943103A1 - AXIALO-CENTRIFUGAL COMPRESSOR WITH AN EVOLVING RAKE ANGLE - Google Patents

Abstract

Mobile wheel for centrifugal or axial-centrifugal turbomachine compressor, comprising a base (2) on which are fixed by their foot (6) a plurality of blades (3) extending between a leading edge (8) and a trailing edge (9), said trailing edge being inclined at the foot (6) of the blade (3) of an angle of slope α with respect to the meridian plane which passes through it in its foot, in the direction of rotation of said compressor (1), characterized in that the trailing edge (9) has at the head (7) of the blade (3) an angle of slope β less than its slope angle α in the foot of dawn.

Description

The field of the present invention is that of turbomachines and more particularly that of turbomachine compressors comprising at least one centrifugal or mixed (axial-centrifugal) compression stage.

Aeronautical turboshaft engines and in particular helicopter turboshaft engines generally comprise a compressor of the centrifugal or mixed type, as the compression stage of the gas generator. These compressors are formed of moving wheels or wheels, which have a substantially axial air inlet and a more radial outlet, the vanes being fixed on a bell-shaped base, which serves as a guide to the flow of air and the deviation of the direction of entry to the exit direction. The flow thus circulates between this base and a compressor casing; it is compressed and propelled by the different vanes of the wheel.

The head of the blades is free and positioned facing the housing, or cover, which closes the air vein. The trailing edge is rectilinear in the prior art and may be inclined relative to the meridian plane of the wheel passing through the root of the blade. The angle it makes with this meridian plane is referred to as the rake angle, or slope angle of the trailing edge, and is one of the relevant geometrical parameters for describing a spinning wheel impeller.

The choice of a significant slope angle (of the order of, for example, 20 °) at the trailing edge of a centrifugal impeller is a known way of reducing the stresses at the root of the blade, which are due in particular bending of the blade under centrifugal force. It thus allows a more efficient design of the compressor, and in particular: to reduce, at iso-rotational speed, the thickness of the vane, and therefore that of the veil of the base, and thus to significantly reduce the mass and inertia of the rotor. - or, at iso-mass and inertia for the impeller, to increase the speed of rotation.

The choice of a significant slope angle has the consequence, with a rectilinear trailing edge, that the head of the blade is inclined at the same angle as the foot relative to this meridian plane. In case of accidental contact of the blade with the lid, if the trailing edge is inclined in the direction of rotation of the impeller, the head of the blade tends to self-engage in the metal which may generate damage important.

The object of the present invention is to remedy these drawbacks by proposing a centrifugal or mixed axial-centrifugal compressor which does not have some of the drawbacks of the prior art and, in particular, which has a trailing edge with a significant slope angle to its foot, without a phenomenon of self-engagement of the head of the blade in case of contact thereof with the cover.

For this purpose, the subject of the invention is a mobile wheel for a centrifugal or mixed axial-centrifugal turbomachine compressor, comprising a base on which are fixed by their feet a plurality of blades extending between a leading edge and a trailing edge, said trailing edge being inclined at the root of the blade of an angle of inclination with respect to the meridian plane which passes through it in its foot, in the direction of rotation of said compressor, characterized in that the edge leakage present at the head of the blade an angle of slope R less than its slope angle at the bottom of the blade.

Since the angle of inclination at the head is lower, the wedge formed by the trailing edge and the head of the blade moves more tangentially with respect to the housing and is therefore less able to penetrate into it. accidental contact.

Preferably, the slope angle R of the trailing edge at the head of the blade is close to zero, or even zero. And even more preferably the slope angle R of the trailing edge at the head of the blade is negative. These configurations improve the assurance that the leading edge of the trailing edge can not be installed in the housing in case of accidental contact.

In a particular embodiment, the curvature of the trailing edge is constant between the foot and the head of the trailing edge. The trailing edge then has the shape of an arc.

In another embodiment the curvature of the trailing edge is continuously variable between the foot and the head of said trailing edge. The trailing edge is then in the form of a helix.

The invention also relates to a turbomachine comprising a compressor comprising one of the characteristics described above. Finally, it relates to an aircraft equipped with such a turbomachine.

The invention will be better understood, and other objects, details, features and advantages thereof will become more apparent in the following detailed explanatory description of an embodiment of the invention given by way of purely illustrative and non-limiting example, with reference to the accompanying schematic drawings. In these drawings: FIG. 1 is a perspective view of a centrifugal compressor impeller according to one embodiment of the invention; FIG. 2 is a front view of a trailing edge of a centrifugal compressor blade according to the prior art, and FIG. 3 is a front view of a trailing edge of a compressor blade. centrifuge according to one embodiment of the invention. Referring to Figure 1, there is shown a centrifugal compressor 1 comprising a base 2, bell-shaped, on which are fixed compressor blades 3 regularly distributed on the periphery of the base 2. The base 2 ends at its end. upper part, which corresponds to the plane 30 of air inlet to be compressed by a hub cylinder 4 for the compressor, and at its lower part by a disk 5 oriented radially relative to the axis of rotation of said compressor. The blades 3 are held by the base 2 at their foot 6; the heads 7 of these vanes are free and rotate inside a compressor casing (not shown). In the direction of flow of the air stream, the vanes extend between a leading edge 8 located at the hub 4 and a trailing edge 9 situated at the level of the disk 5.

Referring now to Figure 2 shows a trailing edge 9 of a compressor blade 3, according to the prior art. This trailing edge is, at its foot, inclined relative to the meridian plane which passes through, in the direction of rotation, a slope angle a. This trailing edge 9 is rectilinear, that is to say that it has the same inclination, equal to its value at the bottom of the blade, over its entire height, from the foot to the head of the rim. leak 9.

In contrast, in Figure 3, the trailing edge 9 has an evolutionary shape along its height. It is inclined at an angle of slope a in the direction of rotation, at the level of the root 6 of the blade 3, which is defined as in the prior art, but this angle is progressively reduced along the edge of leak to reach a value 13 at the head 7 of the blade 3, which is less than a. This value R can be zero or even negative, that is to say that the head of the blade is then inclined in the direction opposite to the direction of rotation of the impeller.

The proposed invention therefore consists in choosing, at the trailing edge 9, a slope angle α at the root of the blade 6, then applying a curvature to the blade 3 so as to find a lower slope angle or even zero or negative at the head of blading. The presence of a slope angle a high at the blade root 6 allows the reduction of the flexural stresses in foot, while the low slope angle R at the level of the head 7 reduces the risks of self-engagement of the blade 3 in the housing in case of accidental contact between the head 7 of the blade at the trailing edge 9 and the housing.

The production of such a profile at the trailing edge 9 is based on the method of machining by points which allows 3D blade geometries; as opposed to previously used flanging, restricted the possibilities by imposing regulated surfaces (i.e., consisting of a stack of straight lines) for the design of the blade profile.

This modification of the geometry of the profile does not result in a significant aerodynamic impact The use of blades 3 according to the invention even contributes, surprisingly, rather to an increase in the performance of the compressor, resulting from the decrease in the angle slope along the height of the trailing edge 9.

The double decrease of the stresses in the vane and the self-engaging nature of the blade head, by application of the invention, were verified by calculation on a real vane. The invention therefore allows a gain in mass and inertia, or iso-mass and iso-inertia an increase in the speed of rotation, without degrading the behavior in case of contact between the blade 3 and the housing.

Several variants can be envisaged for the evolution of the curvature of the blade 3 at the trailing edge 9 between its foot 6 and its head 7. The curvature can for example be constant, the trailing edge having an arc shape of a circle, or be continuously variable, the profile of the trailing edge then having the form of a helix. The choice of curvature between the foot and the dawn head depends on the impact it has on the aerodynamic performance of the compressor.

Although the invention has been described in connection with a particular embodiment, it is quite obvious that it is in no way limited thereto and that it comprises all the technical equivalents of the means described as well as their combinations if These are within the scope of the invention. 30

Claims (8)

REVENDICATIONS1. Mobile wheel for centrifugal or mixed axial-centrifugal turbomachine compressor, comprising a base (2) on which are fixed by their foot (6) a plurality of blades (3) extending between a leading edge (8) and an edge leakage device (9), said trailing edge being inclined at the level of the foot (6) of the vane (3) by an angle of inclination α with respect to the meridian plane which passes through it in its foot, in the direction of rotation said compressor (1), characterized in that the trailing edge (9) has at the head (7) of the blade (3) an angle of slope R less than its slope angle at the bottom of the blade . 2. Mobile wheel according to claim 1 wherein the slope angle R of the trailing edge (9) at the head of the blade is close to zero or zero. 3. Mobile wheel according to claim 1 wherein the slope angle R of the trailing edge (9) at the head of the blade is negative. 4. Mobile wheel according to one of claims 1 to 3 wherein the curvature of the trailing edge (9) is constant between the foot (6) and the head (7) of said trailing edge. 5. Mobile wheel according to one of claims 1 to 3 wherein the curvature of the trailing edge (9) is continuously variable between the foot (6) and the head (7) of said trailing edge. 6. Compressor comprising a moving wheel according to one of claims 1 to 5. 7. A turbomachine comprising a compressor according to claim 6. 8. Aircraft equipped with a turbomachine according to the preceding claim.