WO2013060358A1

WO2013060358A1 - Axial ventilator wheel

Info

Publication number: WO2013060358A1
Application number: PCT/EP2011/068630
Authority: WO
Inventors: Oliver Haaf; Erhard Gruber
Original assignee: Ebm-Papst Mulfingen Gmbh & Co. Kg
Priority date: 2011-10-25
Filing date: 2011-10-25
Publication date: 2013-05-02
Also published as: EP2771581B1; EP2771581A1

Abstract

The invention relates to an axial ventilator wheel (1), comprising a wheel body (2) having a hollow cylindrical hub (4) and a plurality of ventilator blades (6) which are distributed around the circumference and connected to the hub (4). Each ventilator blade (6) extends in an axial direction in the area of a blade base (8) connected to the hub (4), and is inclined in a peripheral direction between an inflow side (10) and an outflow side (12) of the hub (4). The hub (4) is shortened with respect to the axial hub length thereof at its inflow side (10) in a peripheral direction between the blade bases (8) of the adjacent ventilator blades (6), respectively, by means of recesses (16) around the edges.

Description

"Axialventilatorrad"

The present invention relates according to the preamble of claim 1 a Axialventilatorrad with a wheel body, which consists of a tubular, hollow cylindrical hub and arranged distributed over the circumference, with the outer

Peripheral surface of the hub connected fan blades, wherein each fan blade in the region of a hub connected to the blade root extends axially and circumferentially obliquely between an inflow side and an outflow side of the hub.

Such an axial fan impeller is described in the document EP 1 609 996 A1 / B1. This impeller can be pressed with its hub for attachment to a rotating part, in particular to a rotor of an electric motor. For this purpose, a substantially cylindrical or annular Ronde is arranged within the hub.

The known axial fan impeller has been well proven in practice so far, because it allows in particular a simple installation and secure mounting on the rotor. In addition, through axial openings of the Ronde a cooling air flow can be made possible. However, it has been shown that with regard to the actual delivery flow, d. H. the main flow of the axial fan, the flow characteristics are still in need of improvement.

The present invention is therefore based on the object to improve a Axialventilatorrad of the described generic type with respect to its main flow and its air performance. This is achieved by the features of independent claim 1 according to the invention. Advantageous embodiments of the invention are in the dependent

Claims and in the subsequent description.

According to the invention, therefore, the hub is shortened on its inflow side in the circumferential direction in each case between the blade roots of the adjacent fan blades via peripheral recesses with respect to their axial hub length. Concentrically curved hub rim sections with continuous, edge-free transitions to those in FIG. 2 are preferably formed by the recesses of the hub between the blade roots

Circumferentially formed adjacent edge portions. As a result, weak points, notch effects and the like are advantageously avoided.

The invention formed on the inflow side edge of the hub

Recesses are expediently designed so that in operation, with rotation of the axial fan wheel by eliminating or minimizing disturbing

Edge regions the conveyed air a fan wheel carrying and rotating driving electric motor and also the hub itself with minimal

Impairments due to eddies and the like in the area between the

Fan blades can flow around. As a result of the recesses according to the invention, it is possible to achieve a fan wheel throughflow optimized in particular with regard to the air output.

With reference to a preferred, illustrated in the drawing embodiment, the invention will be explained in more detail below. Show it:

Fig. 1 is an axial plan view of the front inflow side of a

Axialventilatorrades invention (view in the direction of arrow I of FIG. 2),

2 side view in the direction of arrow II of FIG. 1, 3 is a perspective view of the Axialventilatorrades according to FIGS. 1 and 2 obliquely from the rear in the direction of the outflow side,

Fig. 4 is a perspective view similar to FIG. 3, but in the mounted on a

Electric motor pressed state of the axial fan wheel according to the invention,

Fig. 5 is a side view similar to FIG. 2 in the assembled state of FIG. 4 and

Fig. 6 is a perspective view of Fig. 4 and 5 obliquely from the front in the direction of the inflow side.

In the various figures of the drawing, like parts are always provided with the same reference numerals.

For the following description, it is expressly emphasized that the invention is not limited to the exemplary embodiments and not all or several features of described combinations of features, but each individual feature of the / each embodiment can also be detached from all other partial features described in connection therewith and also in combination with any features of another embodiment as well as independent of the feature combinations and relationships of the

Claims have an inventive meaning.

An inventive Axialventilatorrad 1 consists of a wheel body 2, which in turn consists of a tubular, hollow cylindrical hub 4 and a plurality of circumferentially distributed, with the outer peripheral surface of the hub 4th

connected and starting from the hub 4 radially or obliquely inclined outwardly extending fan blades 6 consists. The term "obliquely inclined" also includes a blade curvature as exemplified in the drawings Blades 6 are inclined or curved in particular in the direction of rotation, but may also be inclined backwards or curved. In the illustrated

Embodiment, the fan wheel 1 on seven fan blades 6. The fan blades 6 can evenly with each equal angular intervals or - for the purpose of a "natural balancing" - uneven with unequal

Be arranged angular intervals distributed over the circumference. Each fan blade 6 extends axially and circumferentially obliquely in the region of a blade root 8 connected to the hub 4, in particular with a specific curvature, between an inflow side 10 and an outflow side 12 of the hub 4 or of the

Fan wheel 1. The term "obliquely" hereby also includes a specific course of curvature, see, for example, FIG. 3. As a result of this inclination, inclination or curvature of the fan blades 6, a rotation in FIGS illustrated air flow as the main flow from the inflow side 10 to the outflow side 12. The inflow side 10 is also referred to as the suction side and the outflow side 12 as the pressure side.

According to the invention, the hub 4 on the inflow side 10 in the circumferential direction in each case between the blade roots 8 of the respective adjacent fan blades 6 via marginal recesses 16 in regions with respect to their axial or

formed axially parallel measured hub length shortened. Through this

Recesses 16 in the inflow-side edge region of the hub 4 8 Nabenrandabschnitte 18 are formed between the respective adjacent blade roots, the

preferably curved concave. In this case, it is furthermore advantageous if the concavely curved hub rim sections 18 merge with continuous, edge-and-corner-free transitions into the edge sections of the hub 4 bordering each in the circumferential direction. As a result, mechanical weaknesses, notch effects and the like are advantageously avoided.

As has already been explained above, an improvement in the flow characteristics is achieved by the recesses 16 formed on the inflow-side edge of the hub to the effect that during operation of the Axialventilatorrades 1, by Eliminating or at least minimizing disturbing hub edge regions located in the flow region of the main flow, the conveyed air can flow around the hub 4 in the region between the fan blades 6 with minimal interference from eddies and the like. By the invention

Recesses 16 can thus be achieved an optimized fan wheel flow. This has a positive influence on the air performance.

For rotating drive the Axialventilatorrad 1 is mounted on a rotating part. For this purpose, it is provided in a preferred embodiment that within the hub 4 of the wheel body 2, an annular disc 20 is fixed, with which the wheel body 2 on the rotating part, according to FIG. 4 to 6 in particular to a cylindrical

Outer peripheral surface of an external rotor 22 of an electric motor 24,

frictionally aufpressbar is. As can be seen in particular from FIGS. 4 and 6, because of this type of fastening, the hub 4 is spaced apart coaxially with the rotor 22 in the radial direction via the circular blank 20. The blank 20 sits in the thus formed

circumferential annular gap between the rotor 22 and the hub 4. In this case, it is provided in a further preferred embodiment that the Ronde 20 in their

Ring cross-section distributed over the circumference arranged, in the axial or axially parallel direction through openings 26 in particular for a flow of cooling air has. Thus, the openings 26 form cooling channels which connect two annular gap regions formed axially on both sides of the round plate 20 and radially between the hub 4 and the rotor 22 in such a way that the rotor 22 rotates from the pressure side, that is the outflow side 12 Suction side, which is the inflow side 10, flows around the cooling air and thereby the motor 24 is cooled effectively. In addition, the openings 26 also allow drainage of condensables that may form in certain applications and under certain operating conditions.

In a further preferred embodiment, the wheel body 2 is formed with the hub 4 and the fan blades 6 in particular made of plastic as a one-piece molding. The blank 20 is at least partially made of metal, for example of a metal-coated with plastic sheet metal. In an embodiment which can not be seen in the drawing, it can be provided in the sense of the above-mentioned EP 1 609 996 A1 / B1 that the circular blank 20 has first and second surface sections arranged alternately in the circumferential direction on its inner circumference, the first surface sections having a first , larger inner diameter and the second surface portions define a second, smaller inner diameter. The smaller inner diameter of the second surface portions is designed such that in this area when pressing the frictional mounting on the rotor 22 is effected. Accordingly, it is a segmented Ronde, wherein the inner peripheral surface is divided into said sections with different inner diameters. The smaller diameter portions are widened during the pressing operation, while the larger diameter portions do not or only insignificantly change their radial position during the pressing operation, but advantageously bring about a reduction in the mean level of the mechanical tension values. When pressing is avoided that an occurring deformation of the blank could be forwarded to the hub.

The blank 20 can be molded directly into the material during the injection process of the wheel body 2 cohesively and optionally additionally encapsulated in plastic.

By the invention, a significant improvement in the air performance of

Axialventilatorrades 1 reached. The biggest effects occur with short motor sizes, ie. H. at low axial length. Also for applications without the

Cooling flow (rotor backflow) is a significant advantage due to the selected hub geometry, because the main flow in the hub area causes significantly lower vortices on the hub by avoiding or eliminating impurities.

The invention is not limited to the illustrated and described embodiments, but also includes all the same in the context of the invention Versions. It is expressly emphasized that the embodiments are not limited to all features in combination, but rather each one may be

Part feature also detached from all other part features for themselves

have inventive significance. Furthermore, the invention has hitherto not been limited to the feature combination defined in claim 1, but may also be defined by any other combination of specific features of all individually disclosed individual features. This means that in principle virtually every individual feature of claim 1 can be omitted or replaced by at least one individual feature disclosed elsewhere in the application. In this respect, the claim 1 is to be understood only as a first formulation attempt for an invention.

Claims

claims

An axial fan wheel (1) comprising a wheel body (2) consisting of a hollow cylindrical hub (4) and a plurality of circumferentially spaced fan blades (6) connected to the hub (4), each fan blade (6) being in the range a blade root (8) connected to the hub (4) extends axially and circumferentially inclined between an inflow side (10) and an outflow side (12) of the hub (4),

characterized in that the hub (4) on its inflow side (10) in the circumferential direction in each case between the blade roots (8) of the adjacent fan blades (6) via marginal recesses (16) is shortened with respect to their axial hub length.

2. Axialventilatorrad according to claim 1,

characterized in that through the recesses (16) of the hub (4) between the blade roots (8) concave curved edge edge portions (18) are formed.

3. Axialventilatorrad according to claim 1 or 2,

characterized in that within the hub (4) an annular blank (20) is fixed, with which the wheel body (2) on a rotating part,

in particular an external rotor rotor (22) of an electric motor (24), can be pressed.

4. Axialventilatorrad according to claim 3,

characterized in that the circular blank (20) distributed in its annular cross-section over the circumference, axially continuous openings (26) in particular for a flow of cooling air.

5. Axialventilatorrad according to one of claims 1 to 4,

characterized in that the wheel body (2) with the hub (4) and the fan blades (6), in particular made of plastic, is formed as a one-piece molded part.

6. Axialventilatorrad according to one of claims 3 to 5,

characterized in that the Ronde (20) consists at least partially of metal.