WO2018130690A1

WO2018130690A1 - Fan wheel having predefined outflow direction

Info

Publication number: WO2018130690A1
Application number: PCT/EP2018/050887
Authority: WO
Inventors: Michael Eccarius; Erik Reichert; Paul Mezger
Original assignee: Ebm-Papst Mulfingen Gmbh & Co. Kg
Priority date: 2017-01-16
Filing date: 2018-01-15
Publication date: 2018-07-19
Also published as: EP3568598B1; CN206513622U; EP3568598A1; DE102017100684A1

Abstract

A fan wheel (1) comprising a base disc (3) and a cover disc (2) that has an axial inlet opening, and a blade ring arranged between the base disc (3) and the cover disc (2) and formed from fan wheel blades (4) to convey a conveyed medium, wherein the base disc (3) has a base disc edge section (6), which radially projects beyond an outer edge (7) of the blade ring, said outer edge being adjacent to the base disc (3), and the cover disc (2) has a cover disc edge section (5), which radially projects beyond an outer edge (8) of the blade ring, said outer edge being adjacent to the cover disc (2), wherein the base disc edge section (6) is inclined by an angle α in an axial direction with respect to a continuous extension (10) of a section of the base disc (3) that is directly adjacent radially inwards, and the cover disc edge section (5) is inclined by an angle ß in an axial direction with respect to a continuous extension (11) of a section of the cover disc edge section (2) that is directly adjacent radially inwards.

Description

Fan wheel with predefined discharge direction

Description:

The invention relates to a fan with a predefined outflow direction, in particular for use in a fan.

Generic fan wheels are known from the prior art, for example from the disclosure of DE 20 2015 106 910 U1. The invention is in the light of the known embodiments, the task of minimizing design-related influences on the noise behavior and / or the aerodynamic efficiency when installed in equipment and the cost of production. This object is achieved by the feature combination according to claim 1.

According to the invention, a fan wheel with a bottom disk and a cover disk is proposed, which has an axial inlet opening, and a blade ring arranged between the bottom disk and the cover disk and formed from fan blades for conveying a pumped medium. The bottom disk has a bottom disk edge portion which projects radially beyond an outer edge of the blade ring adjacent to the bottom disk. The cover disk comprises a cover disk edge portion which projects radially beyond an outer edge of the blade ring adjacent to the cover disk. The bottom disk edge portion is opposite to a continuous extension of a radially inwardly immediately adjacent portion of the bottom disk by an angle a, the cover disk edge portion is inclined to a continuous extension of a radially inwardly immediately adjacent portion of the cover plate by an angle ß in an axial direction, wherein the Angle α and β in a value range of -ττ / 2 <α, β ττ / 2 are, so that a deviating from a radial outflow flow direction of the pumped medium is adjustable. The angles .alpha. And .beta. Are measured positively in a counterclockwise direction as compared to the continuous extension of the bottom disk or cover disk, as is also apparent from the figures described below.

The teaching according to the invention recognizes that by suitable embodiments of the angular amounts of α and β, it is possible to set a flow direction of the conveyed medium deviating from the essentially radial, such that, in particular, deteriorating influences on the noise behavior and / or minimizing the aerodynamic efficiency of installing centrifugal fans in equipment.

It is advantageous that, depending on a device-specific installation situation such as symmetrical or asymmetric enclosures or imperfections specifically adjustable Abströmrichtungen different from the radial direction can be realized, so that the installation-related noise deterioration and / or efficiency deterioration is at least partially reduced. The angular range of the angles .alpha. And .beta. Is specifically limited here, that a one-piece injection-molded production with substantially reduced undercuts supports the use of simple injection-molding tools and reduces the costs for producing the fan wheel.

In one embodiment, it is provided that the fan blades are curved backwards in the direction of travel. In the case of the fan wheel, it is provided in a favorable variant that the angle α lies in a value range of -ττ / 2 <α <0, more preferably in a value range of -ττ / 4 <α <-π / 40.

The angle β is preferably in a value range of 0 <β <ττ / 2, more preferably in a value range of π / 40 <β <π / 4. In a further development, the fan wheel is characterized in that the bottom disk edge portion is subdivided into a plurality of subsections, wherein a radially inwardly disposed portion at an angle a1 and a second portion adjacent to the radially outwardly second portion is inclined at an angle a2, wherein the angle a1 and a2 differ in terms of amount by at least ττ / 40 (= 4.5 °). In one embodiment, the second portion forms the radially outer portion.

Furthermore, an embodiment is advantageous in which a transition between the first and second portion of the bottom disk edge portion is formed continuously and without kink.

Also in a further development, the fan wheel is characterized in that the cover plate edge portion is subdivided into a plurality of subsections, wherein a radially inwardly lying portion at an angle ß1 and a second portion adjacent to the radially outwardly second portion is inclined at an angle ß2, wherein the To differentiate the angles β1 and β2 by at least π / 40 (= 4.5 °).

Further, an embodiment is advantageous in which a transition between the first and second portions of the cover plate edge portion is formed continuously and without kink.

In a first variant of the impeller, an outer diameter of the bottom disc D _B s is greater than an outer diameter of the cover disc DOS to an alternative solution has an outer diameter of the cover disc DDS is larger than an outer diameter of the bottom disc Des In both variants, the angle have α and ß in terms of amount, a value of at least TT / 40 (= 4.5 °).

In a further exemplary embodiment of the fan wheel, the angle α and / or the angle β along an impeller circumference is / are inconstant. A solution is also included in which the angle α and / or the angle β at an at least one circumferential position deviate in magnitude by at least TT / 40 (= 4.5 °) from a respective circumferential mean value.

In one embodiment, it is provided that the outer diameter of the bottom disk D _B s and / or the outer diameter of the cover disk Dos is inconsistent along an impeller circumference. Favorable are wave-like structures of the outer peripheral edge, wherein the course is continuous. It is also included as an exemplary embodiment that the outer diameter of the bottom disk D _B s and / or the outer diameter of the cover disk Dos deviate in terms of amount by at least 1%, more preferably at least 3%, from a respective circumferential mean value at at least one circumferential position.

It is also favorable that the impeller blades of the blade ring have a flow-optimized profile shape in cross-section.

All disclosed features have a favorable effect on the problem to be solved and make it possible to adapt the outflow to improve the noise behavior and / or the efficiency when installed and / or to reduce the costs for production.

Other advantageous developments of the invention are characterized in the subclaims or are shown in more detail below together with the description of the preferred embodiment of the invention with reference to FIGS. Show it:

Fig. 1 is an upper half of a side sectional view of a

Fan in a first embodiment;

Fig. 2 is an upper half of a side sectional view of a

Fan in a second embodiment.

The figures are exemplary schematic and serve to better understand the invention. Like reference numerals designate like parts throughout the views.

In Figure 1, the upper half of a rotationally symmetrical about the rotation axis R fan wheel 1 is shown in a lateral cross-section. The fan wheel 1 comprises a bottom disk 3, a cover disk 2 with an axia len inlet opening and a disposed between the bottom plate 3 and the cover plate 2 and formed from fan blades 4 blade ring for conveying a pumped medium. The Lüfterradschaufeln 4 connect the cover plate 2 and the bottom plate 3 and extend with seen in cross-section flow-optimized profile shape radially outward. The bottom disk 3 has a bottom disk edge portion 6 which projects radially beyond the outer edge 7 of the blade ring adjacent to the bottom disk 3 and the cover disk 2 has a cover disk edge portion 5 which projects radially beyond the outer edge 8 of the blade ring adjacent to the cover disk 2. The bottom disk edge portion 6 and the cover disk edge portion 5 form a diffuser. The bottom disk edge portion 6 is opposite to the continuous extension 10 of the radially inwardly immediately adjacent portion of the bottom disk 3 by an angle α = π / 4 (= 45 °) and the cover disk edge portion 5 is opposite the continuous extension 11 of the radially inwardly immediately adjacent portion of the cover disk. 2 inclined by an angle β = π / 6 (= 30 °) in an axial direction. The cover plate 2 extends in the remaining section substantially rectilinear, the bottom plate 3 swung. The outer diameter of the cover disk D _D s is greater than the outer diameter of the bottom disk Des- The outer diameter Ds _C h2 of the blade ring at the outer edge 8 in the region of the cover plate 2 is greater than the outer diameter D _sc hi of the blade ring at the outer edge 7 in the region of the bottom disk 3. The Lüfterradschaufeln 4 are seen in the direction of backward curved. An alternative embodiment is shown in FIG. 2, wherein the features identical to FIG. 1 are not described again, but also apply in full to FIG. According to FIG. 2, in the case of the fan wheel 1, the bottom disk edge section 6 is subdivided into two subsections, the first radially inner section 13 being at an angle a1 with respect to the continuous extension 10 and the radial section extending radially with respect to the first section 13. ßen adjacent second portion 14 at an angle a2 relative to the continuous extension 18 of the first portion 13 is inclined. The angles a1 and a2 differ in magnitude by π / 6 (= 30 °). Even if a certain kink can be seen, the transition between the first and second sections 13, 14 of the bottom disk edge section 6 in the exemplary embodiment shown is continuous. Also, the cover plate edge portion 5 is divided into two subsections, wherein the first radially inner portion 15 at an angle ß1 relative to the continuous extension 11 and to the first portion 15 radially outwardly adjacent second portion 16 at an angle ß2 relative to the continuous extension 17 of first section 15 is inclined. The angles ß1 and ß2 differ in magnitude by π / 6 (= 30 °). Even if a certain kink can be seen, the transition between the first and second sections 15, 16 of the cover disk edge section 5 is continuous in the embodiment shown.

* * * * *

Claims

claims

Fan wheel (1) with a bottom disc (3) and a cover disc (2) having an axial inlet opening and a between the bottom disc (3) and the cover disc (2) arranged and from fan blades (4) formed blade ring for conveying a pumped medium wherein the bottom disk (3) has a bottom disk edge portion (6) which projects radially beyond an outer edge (7) of the blade ring adjacent to the bottom disk (3), and / or the cover disk (2) has a cover disk edge portion (5), the one on the cover disk

(2) radially protruding adjacent outer edge (8) of the blade ring, wherein the bottom plate rim portion (6) opposite to a continuous extension (10) of a radially inwardly immediately adjacent portion of the bottom disc

(3) are inclined by an angle α and / or the cover disc rim portion (5) from a continuous extension (11) of a radially inwardly immediately adjacent portion of the cover disc (2) by an angle β in an axial direction, and wherein the angles α and ß in a range of -ττ / 2 <α, β -ί ττ / 2, so that a deviating from a radial outflow flow direction of the pumped medium is adjustable.

Fan wheel according to claim 1, characterized in that the

fan blades

(4) are curved backwards in the direction of travel.

Fan wheel according to one of claims 1 or 2, characterized in that the angle α in a value range of -π / 2 <α <0 or in a value range of -π / 4 <α <-π / 40.

Fan wheel according to one of the preceding claims, characterized in that the angle ß in a range of values of 0 <ß <π / 2 or in a value range of π / 40 <β <ττ / 4.

5. Fan according to one of the preceding claims, characterized in that the bottom disc edge portion (6) is subdivided into a plurality of subsections, wherein a first radially inner portion (13) at an angle a1 and one of the first portion (13) radially outwardly adjacent second section (14) is inclined at an angle a2, the angles a1 and a2 differing in magnitude by at least TT / 40 (= 4.5 °).

6. fan according to the previous claim, characterized in that a transition between the first and second portion (13, 14) of the bottom disc edge portion (6) is continuous.

7. Fan according to one of the preceding claims, characterized in that the cover plate edge portion (5) is subdivided into a plurality of subsections, wherein a first radially inner portion (15) at an angle ß1 and one of the first portion (15) radially outwardly adjacent second section (16) is inclined at an angle ß2, wherein the angles ß1 and ß2 differ in magnitude by at least π / 40 (= 4.5 °).

8. fan according to the previous claim, characterized in that a transition between the first and second portion (15, 16) of the cover plate edge portion (5) is continuous.

9. Fan according to one of the preceding claims, characterized in that an outer diameter of the bottom plate DBS is greater than an outer diameter of the cover plate D _D s-

10. impeller according to one of the preceding claims 1 to 8, characterized in that an outer diameter of the cover plate D _D s is greater than an outer diameter of the bottom plate D _B s-

11. Fan according to one of the preceding claims, characterized in that the angle α and / or the angle ß along a Laufradumfangs is inconsistent / are.

12. Fan according to the previous claim, characterized in that the angle α and / or the angle ß deviate at least one circumferential position in terms of amount by at least ττ / 40 (= 4.5 °) from a respective circumferential mean.

13. Fan according to one of the preceding claims 9 to 12, characterized in that the outer diameter of the bottom disc DBS and / or the outer diameter of the cover disk Dos along a impeller circumference is inconstant / are.

14. Fan according to the previous claim, characterized in that the outer diameter of the bottom disc DBS and / or the outer diameter of the cover disc D _D s deviate at least one circumferential position in terms of amount by at least 1% from a respective circumferential average.

15. impeller according to one of the preceding claims, characterized in that the impeller blades (4) of the blade ring in cross section have a flow-optimized profile shape.

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