DE10357289A1 - Compact diagonal fan - Google Patents

Abstract

The invention relates to a diagonal fan with a housing, an impeller driven by an electric motor, the hub defines together with a surrounding the impeller air duct a substantially annular flow channel with an air inlet opening and an air outlet opening. The hub is formed as a truncated cone widening towards the air outlet opening, wherein the air guide casing is formed substantially profiled, wherein the electric motor is held by means of substantially radially outwardly extending webs in the housing. DOLLAR A The invention is characterized in that the webs are arranged for mounting the motor in the region of the air inlet opening of the flow channel.

Description

Field of the invention

The The invention relates to a compact diagonal fan, according to the preamble of claim 1

State of the art

Diagonal fans differ at first glance only slightly from the known axial fans and are therefore often referred to as "semi-axial" fans. Like an axial fan, there is a diagonal fan according to 3 essentially of a housing 100 , an electric motor mounted therein 101 whose hub 102 together with a plurality of blades formed thereon 103 the impeller 104 of the fan. The impeller 104 is about a rotation axis 105 rotatably mounted and is by the electric motor 101 driven. The electric motor 101 is by means of substantially radially outwardly extending webs 106 in the case 100 held.

For diagonal and axial compact fans are the engine 101 , the commutation electronics (if available), the impeller 104 and the case 100 integrated in one unit. The motor is an external rotor motor in which the rotor rotates around the internal stator. This results in a very compact construction, since the impeller can be mounted directly on the outer rotor. The motor itself is usually a shaded pole motor or a capacitor motor for the AC mains (the latter only for higher power), or a commutator motor or a brushless DC motor for DC feed.

at a diagonal fan The suction of the air takes place axially, but the outflow is diagonal. By a conical shape of the hub and a certain airflow in the Exterior housing can a discharge angle between 0 and 90 degrees the axis of rotation can be achieved. Especially for the pressure build-up required peripheral speed at the hub is determined by the in the flow direction Increasing diameter of the hub increases. As a result, the Diagonal fan at same outside dimensions and the same speed generate larger pressure increases as the axial fan. Because of this, diagonal fans are for users very interesting and are used in particular in telecommunications electronics used, since here the fluidic Resistance of the control cabinets with increasing integration is getting bigger, which requires powerful fan. The diagonal design is so far relatively rare in small fans which is probably due to the complicated geometry of the Impeller is due.

As already mentioned, becomes the stator of the external rotor motor usually fixed with bars on the fan housing. With an axial fan It is known, these webs either at the air inlet or at the air outlet to place. This has little effect on the impeller itself or the operating noise the fan, because the cross-section of the flow channel - in contrast to a diagonal fan, does not change. For various reasons However, the axial compact fans are almost always on webs constructed by blowing.

conventional diagonal fan are also over Stages designed blowing, that is, the webs are located on the air outlet opening.

Disclosure of the invention

The The object of the invention is to specify a diagonal fan, in comparison to a conventional one diagonal fan at the same air flow and pressure increase a much lower operating noise having.

These The object is achieved by the Characteristics of claim 1 solved.

advantageous Refinements and developments of the invention will become apparent the dependent Claims.

The Invention is characterized in that the webs for attachment of the motor on the housing in the area of the air inlet opening of the flow channel are arranged. This allows for the same outer dimensions of the fan larger fan be used. A bigger fan has a larger air flow, so that the fan according to the invention with a comparatively lower speed can be operated to achieve the same air flow as a conventional fan. A business but with a lower speed also means a reduction the operating noise, what was the real purpose of the invention.

By the arrangement of the webs in the region of the air inlet opening is it is possible the blades of the impeller close to the outlet of the flow channel and thus in the area of the largest diameter attach the hub so that the diameter of the fan wheel overall enlarged.

The cross-section of the flow channel extends at an acute angle radially outward with respect to the axis of rotation of the impeller, so that the air flowing through the fan diagonal to the Ro tion axis is ejected.

A in comparison to axial fans improved increase of the pressure is achieved, inter alia, that the cross section of the flow channel towards the air outlet reduced.

to further reduction of fan noise is provided that the profiled surface of the air duct jacket at the air inlet radially outward is rounded.

In A preferred embodiment of the invention is the electric motor an external rotor motor whose fixed part is held by the webs on the housing and its Rotor forms the hub with the impeller.

in the The following is the invention with reference to a in the drawings schematically illustrated embodiment explained in more detail.

Summary the drawings

1 shows an axial section of a diagonal fan according to the invention;

2 shows a perspective view of the fan according to 1 ;

3 shows an axial section of a diagonal fan according to the prior art.

Description of a preferred embodiment the invention

The in the 1 and 2 fan shown consists essentially of a housing 10 , an electric motor mounted therein 11 whose hub 12 together with a plurality of blades formed thereon 13 the impeller 14 of the fan. The impeller 14 is about a rotation axis 15 rotatably mounted and is by the electric motor 11 driven. The electric motor 11 is by means of substantially radially outwardly extending webs 16 in the case 10 held.

The housing 10 includes one to the diameter of the impeller 14 adapted air ducting 17 , The hub limited together with the surrounding the impeller air duct jacket 17 a substantially annular flow channel 18 that has an air intake opening 19 and an air outlet 20 having. The air is at the air inlet 19 sucked in, passes through the fan in the flow direction 22 and will be at the air outlet 20 ejected again.

The hub 12 is formed substantially as a truncated cone, which extends in the direction of the air outlet opening 20 widened. Likewise, the air duct jacket 17 formed substantially profiled, with its diameter to the air outlet opening 20 widens. The entrance opening 19 of the air duct jacket 17 is under limitation of the air inlet opening of the flow channel 18 over an inlet radius 21 rounded to the outside, in order to avoid the occurrence of inlet-side turbulence.

Preferably, the surface of the air duct jacket 17 in the direction of the air outlet opening 20 a smaller angle with respect to the axis of rotation 15 on as the surface of the hub 12 , so that the diameter of the annular flow channel 18 especially in the area of the impeller 14 in the direction of the air outlet opening 20 reduced.

According to the invention, it has been recognized that in the case of a diagonal fan, unlike in the case of an axial fan, the flow is more favorable 16 for mounting the electric motor 11 at the air inlet side 19 to place.

This is based on the 1 and 3 explained.

3 shows a conventional diagonal compact fan, whose webs 106 are arranged on the air outlet side. The one from the jetties 106 held stationary part of the engine 101 is thus arranged on the air outlet side while the fan 104 with hub 102 is displaced in the direction of the air inlet opening. The shovels 103 are at the side of the hub 102 attached with the smaller diameter.

1 shows the diagonal fan according to the invention, in which the webs 16 at the air inlet side 19 are arranged. Compared to the fan according to 3 one recognizes that due to the sloping walls of the hub 12 and the air duct jacket 17 an impeller 14 with larger diameter at the air outlet side 20 yields, as now the blades 13 of the impeller 14 at the side of the hub 12 are fixed, which has the larger diameter. In the case shown is the diameter of the impeller 14 according to 1 at the air outlet side about 10% larger than the diameter of the impeller 104 according to 3 ,

This increase in the diameter of the impeller 14 has several effects on the operation of the fan.

The air flow, that is the volume flow, of a fan is among other things of the rotation number and diameter D of the impeller 14 dependent. With increasing impeller diameter, the air power increases with the fifth power. This means that, for example, an impeller with a 10% larger diameter (factor 1.10) at the same speed achieves a 61% higher air output 1.10 5 = 1.61

The air power is also dependent on the speed of the impeller and changes with the cube of the speed. That is, in the above example of a fan with 10% larger impeller diameter, the speed can be reduced by 15% to achieve the same air performance of a fan with 100% impeller diameter (1 / 1.61) -3 = 0.85 = 1.0 - 0.15

With otherwise identical operating conditions means a reduction in the speed and a reduction in operating noise. In practice one can count on the following empirical equation: L W = A log (N 1 / N 2 ) in which
L _W = noise level in dB
A = 50 to 55 (empirically determined values)
N ₁ = rated speed
N ₂ = reduced speed

That means a reduction of the speed by 15% allows a reduction of the noise of the fan from L W = 50 (or 55) log (1.0 / 0.85) = 3.5 dB (or 3.9 dB)

A Reduction of 3.5 to 3.9 dB is more than halving of the original one Noise. That's why it's very cheap if with the diagonal fan according to the invention the same air capacity can be achieved with a lower speed.

However, many other factors also play a role in the noise. So also the diameter D of the impeller itself. Nevertheless, one can say in general that it is more favorable based on the noise level, the diameter D of the impeller 14 to increase and to reduce the speed. This can be explained by the fact that the tangential speed of the impeller is linearly proportional to both its radius and speed.

Calculated with the above example (110% diameter, 85% speed) is the maximum tangential speed of the impeller 14 in comparison to the original impeller 104 (100% diameter, 100% speed) 6.5% lower: 1.10 x 0.85 = 0.935 = 1 - 0.065

In summary, it can be said that the inventive construction of a diagonal fan after 1 and 2 , which has the same external dimensions and the same fluidic operating point (air volume and pressure increase) as a conventional diagonal fan, can be operated at a lower speed and thus with a lower operating noise.

10

casing

11

electric motor

12

hub

13

shovel

14

Wheel

15

axis of rotation

16

Stege

17

Air guide casing

18

flow channel

19

Air inlet opening

20

Air outlet opening

21

entry radius

22

flow direction

100

casing

101

electric motor

102

hub

103

shovel

104

Wheel

105

axis of rotation

106

Stege

Claims (8)

Diagonal fan with a housing ( 10 ), one by an electric motor ( 11 ) driven impeller ( 14 ), whose hub ( 12 ) together with an air ducting surrounding the impeller ( 17 ) has a substantially annular flow channel ( 18 ) with an air inlet opening ( 19 ) and an air outlet opening ( 20 ), wherein the hub ( 12 ) as a to the air outlet opening ( 20 ) widening truncated cone is formed, and the air duct jacket ( 17 ) is profiled substantially, wherein the electric motor ( 11 ) by means of substantially radially outwardly extending webs ( 16 ) in the housing ( 10 ), characterized in that the webs ( 16 ) in the region of the air inlet opening ( 19 ) of the flow channel ( 18 ) are arranged. Diagonal fan according to claim 1, characterized ge indicates that the blades ( 13 ) of the impeller ( 14 ) in the region of the largest diameter of the hub ( 12 ) are attached. Diagonal fan according to one of the preceding claims, characterized in that the impeller ( 14 ) in the region of the air outlet opening ( 20 ) of the flow channel ( 18 ) is arranged. Diagonal fan according to one of the preceding claims, characterized in that the cross section of the flow channel ( 18 ) with respect to the axis of rotation ( 15 ) of the impeller ( 14 ) extends radially outward at an acute angle. Diagonal fan according to one of the preceding claims, characterized in that the cross section of the flow channel ( 18 ) in the direction of the air outlet opening ( 20 ) decreased. Diagonal fan according to one of the preceding claims, characterized in that the diameter of the air duct jacket ( 17 ) to the air outlet opening ( 20 ) expands. Diagonal fan according to one of the preceding claims, characterized in that the profiled surface of the air duct jacket ( 17 ) at the air inlet ( 19 ) a radially outwardly rounded inlet radius ( 21 ) having. Diagonal fan according to one of the preceding claims, characterized in that the electric motor ( 11 ) is an external rotor motor whose fixed part on the housing ( 10 ) and whose rotor is the hub ( 12 ) with the impeller ( 14 ) trains.