WO2008074307A1 - Axial fan for a vehicle radiator - Google Patents

Abstract

The invention relates to an axial fan (10) for a vehicle radiator (11), the impeller (12) of which axial fan (10), which delivers the main air flow (H), is driven by a hub motor (13) which is centrally rotationally coupled to said impeller (12), wherein the vehicle radiator (11) is arranged on the suction side (p-) of the impeller (12) and a fan frame (19) which surrounds the hub motor (13) is arranged between the vehicle radiator (11) and the impeller (12), wherein the impeller (12) is formed from a number of radially arranged blades (12.1) which are surrounded by an outer ring (12.3) which encircles the radial outer ends of the blades (12.1). According to the invention, a separate air guiding device (inlet ring 20) is provided at least on the suction side of the outer ring (12.3), over which air guiding device an air flow (LR) which flows back from the pressure side (p+) to the suction side (p-) can be deflected and fed to the main air flow (H).

Description

description

Axial fan for a vehicle radiator

The invention relates to an axial fan for a vehicle radiator specified in the preamble of claim 1. Art.

Such axial fans are used for example in a cross-flow cooler of an internal combustion engine of a motor vehicle for generating a cooling air flow, wherein the axial fan is driven by an electric motor (also called hub motor). In this case, the axial fan of the

Cooling air flow flows through in the middle region along the electric motor, wherein it comes in the near-edge outer region due to the flow inlet side negative pressure to a flowing back from the pressure side return air flow, which usually flows through a formed between the axial fan and a surrounding fan shroud gap. This can lead to undesirable noise developments, in particular in the case of downstream holding struts for the electric motor.

FIG. 1 shows an exemplary embodiment of a fan L of the prior art. One, the fan L driving electric motor M is attached to the suction side via holding struts H on a fan frame Z. In order to keep the assembly effort as low as possible, these motor support struts H are often molded with in the manufacture of the fan frame Z with. The fan L has a fan blade F surrounding and co-rotating outer ring A. The fan frame Z is to Covering and reducing a gap S between the fan frame Z and outer ring A with a, in the fan frame Z, z. B. a plastic frame Z, integrated, standing inlet ring E provided. The integrated inlet ring E is shaped in such a way that the backflowing air flow LR is diverted in the direction of the cooling or main air flow LS.

In the case of downstream holding struts H, as shown in Figure 2 to the prior art, is the

Mounting direction of the fan L specified. The resulting gap S between the fan L and the fan frame Z is for this reason often in a form, as shown in Figure 2 to the prior art executed. The shape of the gap S between fan outer ring A and inlet ring E is acoustically not optimal due to the recirculating air flow LR. This manifests itself in the noise spectrum by a, depending on the fan throttle state, increased noise component noticeable. This in turn leads to an increase in the sound pressure level.

The invention is therefore based on the object to provide an acoustically improved axial fan.

The object is achieved by the features specified in claim 1.

Advantageous developments are the subject of the dependent claims.

In the axial fan according to the invention for a vehicle radiator, a fan wheel, which promotes the main air flow, is driven by a hub motor which is rotationally coupled thereto, wherein the vehicle radiator is arranged on the suction side of the fan wheel and between the vehicle radiator and the fan wheel surrounding the hub motor fan frame is arranged. In this case, the fan wheel is formed from a number of radially arranged vanes, which are surrounded by a circumferential outer end of the wing outer ring. According to the invention, a separate air guiding device is provided at least on the suction side of the outer ring, via which a flow of air flowing back from the pressure side to the suction side can be deflected and fed to the main air flow.

The basic idea of the invention is based on the consideration that in the case of fan modules with downstream holding struts a separate mounting of the air guiding device is made possible by the separate air guiding device, so that an annular gap formed between the fan outer ring and the air guiding device can be optimally adjusted variably and aeroacoustically. Thus, the axial fan according to the invention over conventional axial fans significantly improved acoustics, in particular a significantly lower noise level. Here, the diameter of the inlet ring is smaller than the diameter of the fan outer ring.

So that the inlet ring can be mounted only after installation of the motor fan and thus the hub motor with fan, the inlet ring is not integrally integrated into the fan cowl, but represents a separate component. After mounting the motor fan, the inlet ring on the supported by the support struts fan cowl attached. The attachment is preferably by clipping, but may also be formed by any other type of attachment. Through this separate, retrofitted inlet ring one has more degrees of freedom in the design of the inlet ring available, since this no longer necessarily must be constructed so that the motor fan can be mounted from the suction side.

In an advantageous embodiment of the invention, an inlet ring or other suitable deflection means is provided as an air guide, which deflects the back from the pressure side to the suction side in the outer, peripheral edge region of the fan air flow (also called return air flow or Spaltluftström) in the direction of the main air flow and thus from the outer, circumferential edge region of the hub motor in the direction of the blades of the fan wheel deflects.

The louver, in particular the inlet ring is formed, for example, by a suitable design aerodynamically effective the return air flow conductive. In particular, the inlet ring is arcuate. In this case, the arc or the curvature of the inlet ring is shaped such that the return air flow in terms of flow optimally from the outside

Edge region is deflected into the central region, wherein the return air flow is deflected in the annular gap formed between the inlet ring and the outer ring by substantially 180 ° and thus in the direction of the main air flow with substantially the same sense of direction and the main air flow.

Conveniently, the inlet ring on the fan frame is detachable and thus arranged separately mountable. For example, the inlet ring is clipped, screwed or snapped fastened to the fan cowl. This allows a variable, in particular optimal adjustment of the annular gap between inlet ring and outer ring. In a further advantageous embodiment of the invention, the diameter of the separate inlet ring is smaller than the diameter of the outer ring of the fan wheel. As a result, the inlet ring covers the outer ring on the suction pressure side, so that an inflow of the return air flow in the opposite direction of flow of the main air flow direction is reliably avoided. That is, the return air flow is supplied to the main air flow with the same sense of direction.

The Hauptluftström enters the flow input side after the radiator through an air inlet opening and via an air outlet opening on the flow output side after the fan from the axial fan. The openings are connected to each other via a lying within the hub motor flow path, which is formed by the components to be cooled of the engine, with axial path portions to a cooling air passage.

The axial fan according to the invention was indeed developed for due to the Fahrtwindproblematik aerodynamically very demanding vehicle radiator, but could easily be used in other vehicle heat exchangers or stationary heat exchangers.

As a hub motor, a motor, for example, an electric motor is particularly suitable.

In the following an embodiment of the invention will be explained in more detail with reference to a drawing.

Show: Fig. 1 shows a schematic longitudinal section through a

Hub region of an axial fan in installation position with suction side arranged inlet ring according to the prior art,

2 shows schematically a longitudinal section through a

Hub region of an alternative axial fan in installation position with pressure side arranged inlet ring according to the prior art, and

Fig. 3 shows a schematic longitudinal section through a

Hub region of an axial fan according to the invention in installation position with separate inlet ring.

FIG. 3 shows an upper half of an axial fan 10 with a horizontal axis of rotation and a vertical plane of rotation drawn with broken lines, which is arranged at a short distance behind a broad side of a vehicle radiator 11.

The plane of rotation of the axial fan 10 extends substantially parallel to the rear broad side of the radiator 11, since this is designed as a parallelepiped parallel flow cooler.

The axial fan 10 is used in the usual way the purpose, with insufficient wind flow of the radiator 11 is sufficient for cooling the radiator medium flooding of the radiator 11 with a by rotation of his

Fan wheel 12 with radial wings 12.1 generated cooling air flow, the main air flow LS, bring about whose flow direction corresponds to the wind. For this purpose, the fan wheel 12 is rotationally driven by means of a hub motor 13 arranged centrally in the fan wheel 12 in a clockwise counter-sense, whereby the radiator 11 is flooded by the suction flow of the fan wheel 12, ie its main air flow LS.

The suction side of the axial fan 10 is denoted by p + for clarification of the pressure conditions and its pressure side. The main air flow LS is further channeled by a fan cowl or frame 19, through which the flow path between the rectangular circumference of the radiator 11 and the round outlet opening 22 of the fan 12 receiving fan shroud 19 is enclosed airtight.

In the round outlet opening 22 of the fan frame 19 of this z in the usual manner. B. on support struts 21 (also called star struts) centered a hub shell 14 immovably held on which the hub motor 13 is mounted coaxially.

10 with respect to a noise generation by a p from the pressure side ⁺ to the suction side p ^{"recirculating} air flow LR (also briefly return air stream LR called) acoustically to improve the axial fan, the inlet side is provided at the shroud 19 is a separate, formed as an inlet ring 20 air-guiding device that the Return air flow LR in the direction of the main air flow LS deflects.

In this case, the separate inlet ring 20 is releasably secured to the fan frame 19. For example, the inlet ring 20 is screwed, clipped or attached to the fan cowl 19 in any other suitable manner. By the separate and detachable Arrangement of the inlet ring 20 on the fan frame 19, the inlet ring 20 can be mounted variably in the mounting direction R after mounting the fan wheel 12 and the hub motor 13 to the fan frame 19. As a result, the annular gap S formed between the inlet ring 20 and the outer ring 12.3 of the fan wheel 12 can be adjusted variably. This allows a particularly aerodynamically and acoustically optimal adjustment of the annular gap S.

In addition, the separate inlet ring 20 is shaped such that it can ensure an aerodynamically homogeneous and effective deflection of the incoming from the air outlet opening 22 return air flow LR in the direction of the main air flow LS with largely the same sense of direction.

During operation of the axial fan 10 flows around the

Hauptluftström LS flow input side a hub plate

12.2 of the fan wheel 12, which via screw points on the front side of a cup-shaped rotor housing 17 of the

Hub motor 13 is attached. The rotor or rotor housing 17 carrying the permanent magnets is mounted on a bearing journal 16 via a central bearing sleeve located between the air inlet opening 15 and two rolling bearings, which projects from a likewise pot-shaped stator housing 18. The stator housing 18 carrying the stator with motor winding is in turn fixedly connected to the hub shell 14.

The hub motor 13 composed of rotor housing 17 and stator housing 18 is, for example, an electric motor. But it can also be another suitable engine, for. As a hydraulic motor, are used. In the operation of the axial fan 10, the hub motor 13, which is connected via a cable harness, not shown, with the electrical system of the motor vehicle, respectively controlled or wired, so that the fan 12 is rotationally driven by the hub motor 13. The fan wheel 12 generates the desired main air flow LS for crossflow flow through the vehicle radiator 11. Due to the curved inlet ring 20 arranged in the circumferential region of the hub motor 13, the return air flow LR close to the circumference is moved in the direction of the

Main air flow LS and thus deflected in the direction of the wings 12.1 of the fan 12. Due to the shape and design of the inlet ring 20, the return air flow LR is thereby deflected, for example, by approximately 180 ° and without appreciable turbulence in the direction of the blades 12.1 of the fan wheel 12 and the main air flow LS and supplied thereto. Also, the return air flow LR can be deflected at a different suitable angle, wherein the deflection of the shape and design and the positioning of the inlet ring 20 depends and allows a supply of the return air flow LR in the main air flow LS.

The inlet ring 20 preferably has a smaller diameter D _E than the diameter D _{L of} the outer ring 12.3. As a result, the suction side arranged covers

Inlet ring 20, the outer ring 12.3, so that a supply of the return air flow LR with the flow direction of the main air flow LS opposite flow direction is reliably avoided. The separate mounting of the separate inlet ring 20 on the fan frame 19 allows a variable adjustment of the annular gap S between inlet ring 20 and outer ring 12.3. Thus, the axial fan 10 through the variable adjustment of the annular gap S aerodynamically and acoustically optimally designed.

15 list of reference numerals

10 Axial fans 11 Vehicle radiator

12 fan wheel

12.1 wings

12.2 hub plate

12.3 Outer ring 13 Hub motor

14 hub housing

15 air intake opening

16 journals

17 rotor housing 18 stator housing

19 fan cowl

20 inlet ring (= air guiding device)

21 stops

22 air outlet opening

S annular gap

R mounting direction

LS main air flow

LR return air flow p + pressure side p- suction side

Claims

11 claims 1. Axial fan (10) for a vehicle radiator (11), the main air flow (LS) promoting fan wheel (12) is driven by a centrally coupled with this hub motor (13), wherein the vehicle radiator (11) on the suction side (p ^~ ) the fan wheel (12) is arranged and between the vehicle radiator (11) and the fan wheel (12) a fan frame (19) surrounding the hub motor (13) is arranged, wherein the fan wheel (12) from a number of radially arranged vanes (12.1) is formed which are surrounded by an outer ring (12.3) encircling the radial outer ends of the wings (12.1), characterized in that at least on the suction side of the outer ring (12.3) a separate air guiding device (Inlet ring 20) is provided, via which a from the pressure side (p ⁺ ) to the suction side (p ^~ ) recirculating air flow (LR) is deflected and the main air flow (H) can be fed. 2. Axial fan according to claim 1, characterized in that the louver is formed as a separate inlet ring (20), by the shape of the returning air flow (LR) is deflected. 3. Axial fan according to claim 1, characterized in that the inlet ring (20) is arcuate. 4. Axial fan according to claim 1, characterized in that the inlet ring (20) deflects the recirculating air flow (LR) by substantially 180 °. 12 5. Axial fan according to claim 1, characterized in that the inlet ring (20) at least partially covers the outer ring (12.3). 6. Axial fan according to claim 1, characterized in that the inlet ring (20) has a relation to the diameter (D _L ) of the outer ring (12.3) smaller diameter (D _E ). 7. Axial fan according to claim 1, characterized in that between the inlet ring (20) and the outer ring (12.3) an annular gap (S) is formed. 8. Axial fan according to claim 1, characterized in that the inlet ring (20) on the fan frame (19) is arranged detachably or separately mountable. 9. Axial fan according to claim 8, characterized in that the inlet ring (20) is clipped, screwed or latched to the fan cowl (19) is attached. 10. Axial fan according to claim 1, characterized in that a plurality of retaining struts (21) are arranged in the overlap region with the air outlet opening (22) on the flow outlet side. 11. Axial fan according to claim 10, characterized in that the hub motor (13) by means of 13 of the retaining struts (21) is attached to the fan cowl (19). 12. Axial fan according to claim 1, characterized in that the hub motor (13) is an electric motor. 13. inlet ring (20) for an axial fan (10) according to one of claims 1 to 12.