FR2896830A1 - FAN FOR MOTOR VEHICLE AND FRONT BLOCK ASSEMBLY. - Google Patents

Abstract

This fan comprises a propeller (18) rotatable about an axis (X-X '). The propeller (18) comprises a hub (20), a plurality of blades (22), and at least one auxiliary air deflector (26A, 26B) of radial extent less than the radial extent of each blade (22). The or each auxiliary air deflector (26A, 26B) is integral with the rotary propeller (18) to be rotated with the propeller (18). The or each auxiliary air deflector (26A, 26B) is disposed substantially in the volume swept by the blades (22) during the rotation of the propeller (18) .Application to fans of front blocks of motor vehicles.

Description

1

  The present invention relates to a motor vehicle fan, of the type comprising: - a rotating helix about an axis, comprising a hub and a plurality of blades; at least one auxiliary air deflector of radial extent less than the radial extent of each blade. Such a fan is intended to be used in a front block of a motor vehicle to produce an air flow capable of sweeping the engine radiator, or a heat exchanger of an air conditioning assembly. WO 01/96746 discloses a fan of the aforementioned type, which comprises a rotating helix about an axis. The propeller comprises a hub and a plurality of blades. The propeller is disposed in a housing that defines an airflow duct. A plurality of auxiliary deflectors integral with the housing are arranged in the conduit. Given the motor vehicle use specifications, the noise generated by this type of propeller must be minimal. For this purpose, WO 01/96746 proposes to modify the shape of the end of the blades to make it elliptical. Such a solution does not give complete satisfaction. Indeed, the shape of the fairing must also be adapted, which increases the cost of the fan. An object of the invention is therefore to obtain a helix which produces a reduced noise, without significantly increasing the cost of the fan. For this purpose, the subject of the invention is a motor vehicle fan of the aforementioned type, characterized in that the or each auxiliary air deflector is integral with the rotary propeller to be rotated with the propeller, and is disposed substantially in the volume swept by the blades during the rotation of the propeller. The fan according to the invention may comprise one or more of the following features, taken separately or in any technically possible combination: at least one auxiliary baffle protrudes radially from the hub; the helix comprises a peripheral ferrule connecting the free ends of the blades, at least one auxiliary air deflector projecting radially towards the hub from the ferrule; the radial extent of the or each auxiliary air deflector is less than half of the radial extent of each blade; at least one auxiliary air deflector has a shape substantially similar to that of the adjacent blades; at least one blade and each adjacent auxiliary air deflector have a ridge directed towards one of the front and the rear; At least one blade has a forward and backward facing one, each adjacent auxiliary air deflector having a forward and a rearward facing one; it comprises a plurality of auxiliary air deflectors located between two adjacent blades; The auxiliary air deflectors situated between two adjacent blades are placed substantially on the same circumference. The invention also relates to a front block for a motor vehicle, characterized in that it comprises a frame intended to be fixed on a motor vehicle body; and a fan according to any one of the preceding claims attached to the frame. The invention will be better understood on reading the description which follows, given solely by way of example and with reference to the appended drawings, in which: FIG. 1 is a diagrammatic sectional view along a median vertical plane; a front block of a motor vehicle according to the invention; - Figure 2 is a perspective view of three-quarter face of the propeller of a first fan according to the invention; - Figure 3 is a schematic top view of the helix of Figure 2; - Figure 4 is a view similar to Figure 3 of a propeller of a second fan according to the invention; - Figure 5 is a view similar to Figure 3 of a helix of a third fan according to the invention; and FIG. 6 is a view similar to FIG. 3 of a helix of a fourth fan according to the invention. The fans according to the invention are intended to be used in front blocks of motor vehicles.

  A front block 10 according to the invention is shown schematically in FIG. 1. This front block comprises a frame 12 integral with the vehicle body, a heat exchanger 14 placed at the rear of the frame 12, and a first fan 16 according to the invention. the invention, attached to the frame 12. The fan 16 comprises a propeller 18 rotatably mounted about a first substantially horizontal axis XX 'and a motor 19 for rotating the propeller 18. As illustrated in FIG. 2 , the propeller 18 comprises, according to the invention, a central hub 20 of axis X-X ', a plurality of blades 22 extending radially from the hub 20, a shell 24 of axis XX' connecting the blades 22 between them and a plurality of auxiliary deflectors 26A, 26B disposed between the ferrule 24 and the hub 20 in the volume swept by the blades 22 during the rotation of the propeller 18. The hub 20 is formed by a bowl 28 s' opening towards the rear, at the bottom in Figure 2. It comprises connecting means to an output shaft of the engine 19.

  In the example shown in Figure 2, the propeller 18 comprises four blades 22 distributed around the axis X-X '. The blades 22 protrude radially away from the hub 20 and connect the hub 20 to the shell 24. In the example shown in FIG. 2, the blades 22 are inclined towards the front of the propeller 18 with respect to a plane P perpendicular to the axis X-X ', moving in the direction of rotation of the helix which corresponds to the direction of rotation of the clockwise. The blades 22 thus have a shape in front of the front. The blades 22 have a concave leading edge and a convex trailing edge. The shell 24 comprises a substantially cylindrical ring 30 of axis X-X 'extending opposite the hub 20 and an outer edge 32 which projects radially outwards from a front edge of the ring 30.

  The free ends of the blades 22 are fixed on an inner surface of the ring 30. The auxiliary deflectors 26A, 26B are distributed in a first group of inner baffles 26A and a second group of outer baffles 26B. Each auxiliary deflector 26A, 26B has a radial extent smaller than the radial extent of each blade 22. Preferably, the radial extent of each deflector 26A, 26B is less than half of the radial extent of the blades 22, taken between the hub and the shell 24. In the example shown, the radial extent of each auxiliary air deflector 26A, 26B is less than a quarter of the radial extent of the blades 22. In the example shown in FIG. 2 , the propeller 18 comprises four inner deflectors 26A. Each inner baffle 26A is disposed between two adjacent blades 22, substantially midway between the blades 22. Each inner baffle 26A protrudes radially in the free space between the hub 20 and the ring 30 from an outer side surface of the hub. 20. In this example, and as schematically shown in Figure 3, the inner air deflectors 26A have a shape substantially similar to that of the adjacent blades 22. Thus, they have a front-end configuration, an inclination with respect to the plane P similar to that of the adjacent blades 22, and a cross section substantially similar to that of the adjacent blades 22. Furthermore, they have, like the adjacent blades 22, a concave leading edge and a convex trailing edge. The outer auxiliary deflectors 26B are located on the same circumference between two blades 22. In the example shown, the propeller 18 comprises two auxiliary deflectors 26B located between each pair of adjacent blades 22. The outer deflectors 26B protrude internally in the the space between the ring 30 and the hub 20 from the ring 30. The outer baffles 26B are substantially of the same shape as the blades 22 adjacent. They have a shape in front of, a slope relative to the plane P similar to that of the adjacent blades 22, and a section similar to that of the blades 22 adjacent. In operation, the propeller 18 is rotated by the engine 19, and the blades 22 create a flow of air that scans the radiator 14. The presence of auxiliary air deflectors 26A, 26B, integral with the rotary propeller 18 to be rotated with this propeller 18, redirects the flow of air in the space between the ferrule 24 and the hub 20. As a result, the efficiency of the propeller 18 is improved, and the noise generated by the propeller 18 is decreased or is produced in frequencies less troublesome for the user of the vehicle.

  In a first variant shown in Figure 4, the propeller 18 comprises a plurality of inner deflectors 26A of opposite shapes to those of the adjacent blades 22. Thus, the deflectors 26A have a shape called rear back. The deflectors 26A have, in contrast to adjacent blades 22, a convex leading edge and a concave trailing edge. In the variant shown in FIG. 5, the lower auxiliary deflectors 26A have a free edge 38 situated away from the hub 20 which has a non-constant radial extent with respect to the hub 20.

  Thus, the radial extent of a leading edge 40 of the deflector 26A is smaller than the radial extent of a trailing edge 42 of this deflector 26A. In the example shown in Figure 6, the radial extent of the leading edge 40 is greater than the radial extent of the trailing edge 42. According to other variants: - at least one auxiliary air deflector 26A, 26B is twisted; at least one auxiliary air deflector has a dihedral angle, that is to say a non-zero angle between a generating segment of the auxiliary air deflector 26A, 26B and a plane perpendicular to the X-X axis . In general, all the geometrical parameters of the auxiliary air deflectors 26A, 26B (height, profile type, profile thickness, rope value, deflection, dihedral, twist) are adjusted according to the operating speed of the propeller 18, without it being necessary to modify the external shape of the propeller 18. Thanks to the invention that has just been described, it is possible to have a motor vehicle fan 16 which produces a reduced noise thanks to the presence of auxiliary air deflectors 26A, 26B of geometric characteristics determined to reduce this noise. The auxiliary air deflectors 26A, 26B are integral with the rotary propeller 18 to be rotated with this propeller 18, and are arranged in the volume swept by the blades 22 of the propeller 18. It is therefore not necessary to modify the external shape of the propeller 18, nor the shape of the fairing for receiving the propeller 18. The manufacture of the fan 16 may be standardized, with the exception of the specific shape of the blades 22 and the auxiliary deflectors 26A , 26B of the helix 18. As a result, the price of the fan 16 is reduced, without affecting the acoustic properties of the helix 18. In addition the aeraulic properties of the propeller 18 are improved, to produce an increase in the difference of air pressure through the propeller 18, or for a given pressure, an increase in the flow rate through the propeller 18.

Claims (10)

  A ventilator (16) for a motor vehicle, of the type comprising: - a propeller (18) rotatable about an axis (X-X '), comprising a hub (20) and a plurality of blades (22); at least one auxiliary air deflector (26A, 26B) of radial extent less than the radial extent of each blade (22); characterized in that the or each auxiliary air deflector (26A, 26B) is integral with the rotary propeller (18) to be rotated with the propeller (18), and is disposed substantially in the volume swept by the blades (22) during rotation of the propeller (18).   2. Fan (16) according to claim 1, characterized in that at least one auxiliary baffle (26A) protrudes radially from the hub (20).   3. Fan (16) according to one of claims 1 or 2, characterized in that the helix (18) comprises a ferrule (24) connecting the ends of the blades (22), at least one air deflector auxiliary member (26B) protruding radially towards the hub (20) from the ferrule (24).   4. Fan (16) according to any one of the preceding claims, characterized in that the radial extent of the or each auxiliary air deflector (26A, 26B) is less than half the radial extent of each blade (22).   5. Fan (16) according to any one of the preceding claims, characterized in that at least one auxiliary air deflector (26A, 26B) has a shape substantially similar to that of the adjacent blades (22).   6. Fan (16) according to any one of the preceding claims, characterized in that at least one blade (22) and each adjacent auxiliary air deflector (26A) have a rears directed towards one of the front and from the back. 9   7. Fan (16) according to any one of claims 1 to 5, characterized in that at least one blade (22) has a rears directed towards one of the front and rear, each deflector d adjacent auxiliary air (26A) having a forward and backward facing one toward the other.   8. Fan (16) according to any one of the preceding claims, characterized in that it comprises a plurality of auxiliary air deflectors (26A, 26B) located between two adjacent blades (22).   9. Fan (16) according to claim 8, characterized in that the auxiliary air deflectors (26B) located between two adjacent blades (22) are placed substantially on the same circumference.   10. Front block (10) for a motor vehicle, characterized in that it comprises: - a frame (12) intended to be fixed on a motor vehicle body; and a fan (16) according to any one of the preceding claims fixed on the frame (12).