FR2636681A1 - Device for rotating a gas upstream of a compressor wheel - Google Patents

Abstract

The invention relates to a device for rotating a gas upstream of a compressor wheel, mounted so as to rotate about an axis. According to the invention, the device includes a pipe 10 for guiding the gas, the pipe being defined by a pair of parallel planar walls and by two divergent planar walls 20, 22 the downstream edges of which are joined together by a portion of cylindrical wall the axis Y-Y of which is parallel to the plane containing the axis of rotation of the compressor wheel, the outlet orifice of the guide pipe connected to the inlet of the compressor wheel being a circular hole formed in one of the two parallel planar walls and centred substantially on the axis Y-Y of the portion of cylindrical wall, and it includes a flap 40 mounted so as to pivot between the parallel planar walls about an axis of pivoting which is parallel to the axis Y-Y of the portion of cylindrical wall, and means for controlling the pivoting of the flap 40.

Description

 The present invention relates to: a device for rotating a gas upstream of a compressor wheel mounted to rotate about an axis.

 The most commonly used compressors in automotive construction are of the axial inlet type. that is to say that the fluid threads of the gas circulating in the compressor are parallel to 1 axis of rotation of the wheel of the latter.

 A known method to vary. for a given blower speed. the flow rate and the rate of the compressor consists in having the vanes that can be oriented in front of 1 enter the compressor wheel and in varying the angular setting of these vanes. This system has 1 advantage of retaining a high efficiency of the compressor, but all the blades and their control mechanism is particularly complex and expensive.

 The object of the present invention is to propose a device which makes it possible to replace 1 set of blades mounted in a crown with a simple device and of reduced cost.

 For this purpose 1 invention provides a device for rotating the type mentioned above. characterized in that it includes a yaz guide duct delimited by a pair of parallel flat walls and by two divergent plane walls whose downstream edges are connected together by a portion of cylindrical wall whose axis is parallel to the containing plane the axis of rotation of the compressor wheel, the outlet orifice of the guide duct connected to the inlet of the compressor wheel being a circular hole formed in one of the two parallel planar walls and centered substantially on the axis of said cylindrical wall portion, and in that it comprises a flap mounted to pivot between the parallel parallel walls around a pivot axis that is parallel to the axis of the cylindrical wall portion.

 and means for controlling the pivoting of the flap.

According to other features of the invention
- the quiet extends on either side of its pivot axis so as to define an upstream leading edge of the shutter and a downstream trailing edge of the shutter
- one of the two divergent walls has on its internal face a protruding corner inside the duct whose free edge cooperates with the leading edge of the flap in order to oppose the gas flowing in the guide duct a continuous wall deflection extending from said internal face of the divergent wall to the trailing edge of the flap when the latter occupies a predetermined angular position
- The upstream edges of the divergent walls are connected to the downstream edges of two other parallel planar walls, the latter defining with said parallel planar walls of the guide duct a gas supply duct whose section is rectangular;
- when the plane of the flap is parallel to the axis of the supply duct, its leading edge. is located substantially in the transverse plane containing said upstream edges of the divergent walls
- the leading edge of the flap is parallel to its pivot axis;
- the trailing edge of the flap is parallel or inclined with respect to the pivot axis
- the axis of the compressor wheel, the axis of the cylindrical wall portion and the pivot axis are not parallel to each other but contained in the same plane
- The axis of the compressor wheel, the axis of the cylindrical wall portion and the pivot axis of the flap are parallel to each other; and
- the circular hole is connected to the compressor inlet by a converging neck.

Other characteristics and advantages of the invention will appear on reading the detailed description which follows for the understanding of which reference will be made to the accompanying drawings in which
- Figure 1 is a partial sectional view along line 1-1 of Figure 2 of a rotation device produced in accordance with the teachings of the invention;
- Figure 2 is a sectional view along line 2-2 of Figure 1
- Figure 3a is a simplified schematic view showing the flow mode inside the device of Figures 1 and 2 for a first position of the flap
- Figure 3b is a view similar to that of Figure 3a corresponding to a second position of the flap; and
FIGS. 4a and 4b are diagrams showing two other embodiments of the shutter,
FIGS. 1 and 2 show a device for rotating a gas comprising a guide duct 10 supplied with gas by a supply duct 12 to supply an axial cumpressor of which only the inlet flange 14 is shown in Figures 1 and 2. The axis XX of the inlet flange 14 of the compressor coincides with the axis of rotation of the compressor wheel.

 The guide duct 10 is constituted by two parallel flat walls 16 and 18, by two di.vergentes flat walls 20 and 22 as well as by a portion of cylindrical wall 24.

 The cylindrical wall portion 24 extends over a semicircle so as to connect together the downstream edges of the two divergent planar walls 20 and 22. The axis YY of the semi-cylindrical wall portion 24 coincides with the axis XX of rotation of the compressor wheel and extends perpendicular to the plane of the two parallel plant walls 16 and 18.

 The gas enters the guide duct 10 by means of the supply duct 12 which is formed on the one hand by the extension, upwards considering Figures 1 and 2. of the two parallel flat walls 16 and 18 and. on the other hand, by two other parallel flat walls 26 and 28 so as to define a supply duct 12 of rectangular section.

 The upstream edges of the divergent walls 20 and 22 are connected to the downstream edges of the two other parallel flat walls 26 and 28.

 The outlet orifice 30 of the guide duct 10 is a circular hole centered on the axis Y-Y of the cylindrical wall portion 24 formed in the flat wall 18 of the guide duct. The outlet orifice 30 is connected to the inlet flange 14 of the compressor by means of a converging neck 32 which is here produced in the form of a mounting flange 34 attached to the flat wall 18 by means of fixing screws 36.

 The inlet flange 14 of the compressor is fixed to the mounting flange 34 by fixing means 38.

 According to the invention the device for rotating. shown in FIGS. 1 and 2 comprises a flap 40 pivoting between the parallel flat walls 16 and 18 around a pivot axis Z-Z which is parallel to the axis Y-Y of the portion of cylindrical wall 24.

 the flap 40 is a profiled flap whose height "h" is substantially equal to the axial distance separating the internal faces of the walls 16 and 18 so as to ensure complete guidance of the gas between these walls.

 The shutter 40 is pivotally mounted by means of a control pin 42 to which it is linked in rotation and which opens on either side of the walls 16 and 78 in mounting bearings 44 and 46.

 One of the ends, on the left when considering FIG. 2, is connected to a lever 48 for controlling the angular position of the flap 40.

 The axis of rotation Z-Z of the flap 40 is situated substantially in the middle of the length í of the flap 40 so as to define an upstream leading edge 50 and a downstream trailing edge 52 of the flap 40.

 In the vicinity of the connection zone of the planar wall 28 of the supply duct 12 and the divergent wall 22 of the guide duct 10, the internal face 54 of the wall 22 is provided with a corner 56 projecting from the inside of guide duct 10.

 The corner 56 extends, like Ze shutter 40, over the entire height of the guide duct so as to cooperate with the leading edge 50 of the shutter 40 when the latter is in the predetermined angular position shown in phantom lines 58 to Figure 1.

 In this position 58, the flap 40 cooperates with the wedge 56 to oppose the gas arriving in the guide duct 10 a continuous deflection wall extends from the internal face 54 to the trailing edge 52 of the flap 40.

 The deflection flap 40 is arranged in the lubrication duct 10 in such a way that, when the plane of the volt is parallel to the general axis of the supply duct, that is to say when it occupies its represented position in Figures 1 and 2, its leading edge 50 is situated substantially in the transverse plane of connection between the guide duct 10 and the supply duct 12 and containing the upstream edges of the divergent walls 20 and 22 and its trailing edge substantially flush with the neck of the convergent 32.

 In this embodiment, the axis X-X of the compressor wheel, the axis Y-Y of the cylindrical wall portion 24 and the pivot axis Z-Z of the flap 40 are parallel to each other. However, without departing from the scope of the present invention, it is possible to provide an arrangement in which the axes XX and YY, on the one hand and the axis ZZ on the other hand are no longer parallel to each other but remain contained in the same plane, the guideway duct 10 then forms a bend less than 90 and comprises a connection element in this common plane.

 Figures 3a and b illustrate the importance of the role complelllerltai3e 'jtuè by the corner 56 in the efficiency of the rotation device.

 When the flap 40 is in its neutral position shown in solid lines in Figures 1 and 2, it has no effect and the threads of the gas flow normally on either side without it playing any role in guiding them.

 When the flap 40 occupies an inclined position shown in FIG. 3a in which it forms an angle "i" with the general axis of the supply duct 12, and because the flap is in a divergent space, the section of passage on the right side closes more than that located on the left side. As a result, the gas is partially prevented from passing to the right, which has the effect of creating the flow field represented by the arrows downstream of the flap 40. This therefore results in the desired angular momentum around the axis XX of the compressor, the size and regularity of which depend on the choice of the values of the internal radius rl of the cylindrical wall portion 24 with respect to the half-width "a" of the supply duct 12 and also with respect to the value rO of the radius inlet of the compressor and the length "1" of the shutter.

 However, for an inclination axis "j" of the flap 40, shown in FIG. 3b, greater than the angle of inclination "i". bypassing the leading edge 50 of the flap 40 with the gas on the right side is difficult to perform and in particular causes the appearance of a separation of the threads of the gas in the hatched area "D" in FIG. 3b. It is from this configuration that there is interest in stopping the passage of the fluid on the right side in particular by means of a device such as the corner 56.

 As a variant, and as can be seen in FIG. 4a or 4b, the trailing edge 52 of the flap 40 is not necessarily parallel to the axis of rotation Z-Z. It can have any suitable profile to ensure good flow at the inlet of the compressor wheel and in particular between constituted by a straight edge inclined relative to the axis Z-Z.

Claims (10)

 1. A device for rotating a gas upstream of a compressor wheel mounted to rotate about an axis, characterized in that it comprises a conduit (10) for guiding the gas delimited by a pair of planar walls parallel (16, 18) and by two divergent planar walls (20, 22) whose downstream edges are interconnected by a portion of cylindrical wall (24) whose axis (YY) is parallel to the plane containing the axis of rotation (XX) of the compressor wheel, the outlet orifice (30) of the guide duct connected to the inlet of the compressor wheel being a circular hole formed in one (18) of the two parallel flat walls and centered substantially on the axis (YY) of the cylindrical wall portion (24), and in that it comprises a flap (40) pivotally mounted between the parallel flat walls (16, 18) around an axis of pivoting (ZZ) parallel to the axis (YY) of the cylindrical wall portion, and control means (48) of the pivoting of the flap (40).  2. Device according to claim 1 characterized in that the flap (40) extends on either side of its pivot axis (ZZ) so as to define an upstream edge (50) for attacking the flap and a downstream edge (52) of the shutter.  3. Device according to claim 2 characterized in that one (22) of the two divergent walls has on its internal face (54) a corner (56) protruding inside the conduit whose free edge cooperates with the edge leading (50) of the shutter in order to oppose the gas flowing in the guide duct a continuous deflection wall extending from said internal face to the trailing edge of the shutter when the latter occupies a predetermined angular position.  4. Device according to the adult of claims 2 or 3 characterized in that the upstream edges of the divergent walls (20. 22) are connected to the downstream edges of two other parallel flat walls (26. 28). these latter defining with said parallel flat walls of the guide duct (12) a gas supply duct whose outlet section is rectangular.  5. Device according to claim 4 characterized in that when the plane of the flap (40) is parallel to the axis of the supply duct (12), its leading edge (50) is located substantially in the transverse plane containing said upstream edges of divergent walls 120, 22) and its trailing edge (52) at the entrance to the converging neck (32).  6. Device according to any one of claims 2 to 5 characterized in that the leading edge (50) of the flap is parallel to its pivot axis (Z-Z).  7. Device according to any one of claims 2 to 6 characterized in that the trailing edge (52) of the flap is inclined relative to the pivot axis (Z-Z).  8. Device according to any one of the preceding claims, characterized in that the axis (XX) of the compressor wheel, the axis (YY) of the cylindrical wall portion and the pivot axis (ZZ) of the flap are parallel to each other.  9. Device according to any one of the preceding claims, characterized in that the axes (XX) and (YY), on the one hand and the axis (ZZ), on the other hand are not parallel to each other but are contained in the same plane.  10. Device according to any one of the preceding claims, characterized in that said circular hole (30) is connected to the inlet of the compressor by a converging neck (32).