DE102014108073A1 - fan arrangement - Google Patents

Abstract

A fan assembly has a first axial fan, a second axial fan and a nozzle. The first axial fan has a first electric motor having a first outer rotor and a first inner stator, a first fan connected to the first outer rotor having a first plurality of fan blades, a first base connected to the first inner stator, and a first fan housing at least partially enclosing the first electric motor encloses. The second axial fan has a second electric motor having a second outer rotor and a second inner stator, a second fan connected to the second outer rotor having a second plurality of fan blades, a second base member connected to the second inner stator, and a second fan housing at least partially enclosing the second electric motor encloses. Together with the first fan wheel, the first fan housing defines an annular first channel, through which a fluid can be conveyed in operation by rotation of the first fan wheel about a first axis of rotation of the first outer rotor. The second fan housing defines together with the second fan an annular second channel through which in operation by rotation of the second fan around a second axis of rotation of the second outer rotor, the fluid is conveyed.

Description

The invention relates to a fan arrangement with a first axial fan, a second axial fan and a distributor.

In fan arrangements, it may be necessary to provide a required airflow to couple a plurality of fans. The fans can be combined with one or more nozzles, wherein the diffusers can also be designed as diffusers. Depending on the requirements, different combinations result.

The nozzles may be designed so that a flow of a funded by the fan assemblies fluid swirl is removed or stamped. As a result, the overall performance of the fan assembly can be increased. It is also possible that the diffusers have only a structural function.

The object of the present invention is to provide a new fan assembly.

The object is achieved by a fan assembly with the features of claim 1. Advantageous embodiments with expedient and non-trivial developments of the invention are specified in the respective subclaims.

The fan assembly includes a first axial fan, a second axial fan, and a nozzle. The first axial fan includes a first electric motor having a first outer rotor and a first inner stator, a first fan connected to the first outer rotor having a first plurality of fan blades, a first base connected to the first inner stator, and a first fan housing containing at least the first electric motor partially encloses. The second axial fan includes a second electric motor having a second outer rotor and a second inner stator, a second fan connected to the second outer rotor having a second plurality of fan blades, a second base connected to the second inner stator, and a second fan housing having at least the second electric motor partially encloses. Together with the first fan wheel, the first fan housing defines an annular first channel, through which a fluid can be conveyed in operation by rotation of the first fan wheel about a first axis of rotation of the first outer rotor. The second fan housing defines together with the second fan an annular second channel through which in operation by rotation of the second fan around a second axis of rotation of the second outer rotor, the fluid is conveyed.

The nozzle has a nozzle housing and a Leitapparatinnenteil connected to the nozzle housing by means of webs, which Leitläatgehäuse defines together with the Leitapparatinnenteil an annular third channel through which the fluid is conveyed. The first base part is attached to a first portion of the nozzle inner part and the second base part is fixed to a second portion of the nozzle inner part, wherein the first axial fan, the second axial fan and the nozzle are connected to each other such that the first annular channel, the second annular channel and the third annular channel form a through-flow air duct of the fan assembly.

The advantage is that the first axial fan and the second axial fan are connected by means of the distributor, wherein the distributor fulfills a supporting, thus supporting function of the two axial fans. With the help of this fan assembly, it is possible to easily provide a combination of axial fans and at least one nozzle. An aerodynamic rectifier function or a conditioning of the fluid is thus integrated in the fan assembly. Likewise, it is possible to form the diffuser as a protective grid, in particular when the diffuser is attached to an inflow surface of the fan assembly and / or to an outflow surface of the fan assembly.

The fan assembly realizes a modular structure of a single or multi-stage axial fan. The modules axial fan and diffuser can be adapted to the intended use and combined via standardized fasteners, such as screws, bolts or clips or by means of adhesive or press connections to a fan assembly.

Such a modular principle makes it possible to combine several fans, which are both identical and different from each other, to obtain a corresponding change in a fan characteristic. All combinations in terms of number of axial fans and diffusers, speed of axial fans and shapes are conceivable.

Likewise, another advantage is a simple installation and removal of the axial fan and diffusers, which results in a cost reduction both in the production and in repair measures.

In one embodiment of the fan assembly, a longitudinal axis of the distributor, the first axis of rotation and the second axis of rotation are formed coaxially to achieve simple planar and thus dense contact planes between the individual modules.

In a further embodiment of the fan assembly, the nozzle inner part on a side facing the nozzle housing formed on the lateral surface vanes, for further conditioning of the fluid. In particular, if a combination of movable guide vanes and webs connected to the nozzle housing are formed on Leitläatinnenteil, a conditioning of the fluid during operation of the fan assembly, adapted to a corresponding flow rate of the fluid in a simple manner feasible. A particularly stable grouping of the modules of the fan assembly is achievable in that the diffuser is immovably connected to the first inner stator and / or the second inner stator, since the inner stator a stable due to its aligned over almost the entire axial fan longitudinal extent, that is for a supporting Function is a suitable element of the axial fan.

In an advantageous embodiment of the fan assembly to achieve a compact arrangement of the axial fan and the nozzle, the first base part for positioning the first inner stator and a first bearing assembly for a first shaft of the first electric motor and / or the second base member for positioning the second inner stator and a second Bearing arrangement formed for a second shaft of the second electric motor.

Simple support in the axial direction is realized in that the first base part abuts the first section in the axial direction and / or the second base part abuts the second section in the axial direction.

Preferably, a disk-shaped region, particularly preferably in the form of a disk-shaped wall, which serves as an axial stop at least for the first base part, so that tilting or tilting of the first base part can be avoided, is preferably formed on the inner nozzle part.

An advantageous radial support results from an abutment of the first base part in the radial direction on the first section and / or of the second base part in the radial direction on the second section.

For further stable support of the modules, the first fan housing and / or the second fan housing are immovably connected to the nozzle housing. Thus, a targeted support of the axial fans is not brought about exclusively by means of the base parts and the Leitapparatinnenteils, but it is achieved by the connection of the housing of the individual modules further protection of the support to obtain a stable fan assembly.

In a further embodiment of the fan arrangement, the first base part and / or the second base part are inexpensively connected to the first section and / or to the second section in the form of an interference fit.

In addition to the possibility of conditioning the fluid with the help of the diffuser further conditioning of the fluid with the help of Venturubehrartig formed air duct can be realized. Thus, for example, a fluid velocity in an inlet region of the fan arrangement can be increased if the air channel has a taper starting from an inlet surface of the air channel. Likewise, the fluid velocity can be reduced in an outlet region of the fan arrangement, as long as a tapering of the air channel in the direction of an outlet surface of the air channel is brought about with the aid of the venturi-like design of the air channel.

Preferably, a third axial fan is provided, which is connected via a further distributor with the first fan or the second fan.

Preferably, a fourth axial fan is provided, which is connected via a further distributor with the third axial fan.

The ability to couple with the diffuser any number of fans together, allows a modular design of the fan assembly in which a few different components adapted to the ventilation requirements fan assembly can be built.

Further advantages, features and details of the invention will become apparent from the following description of preferred embodiments and from the drawing. The features and feature combinations mentioned above in the description as well as the features and feature combinations mentioned below in the description of the figures and / or in the figures alone can be used not only in the respectively specified combination but also in other combinations or in isolation, without the scope of To leave invention. Identical or functionally identical elements are assigned identical reference numerals. For reasons of clarity, it is possible that the elements are not provided with reference numbers in all figures, but without losing their assignment.

Further details and advantageous developments of the invention will become apparent from the following described and illustrated in the drawings, in no way as a limitation of the invention to be understood embodiments, and from the dependent claims. Show it:

1 in a front view a fan assembly,

2 in a longitudinal section along a section line AA, the fan assembly acc. 1 comprising a first axial fan, a second axial fan, and a nozzle positioned between the first axial fan and the second axial fan,

3 in a longitudinal section along a section line CC, the fan assembly acc. 1 with the first axial fan, the second axial fan, and the nozzle positioned between the first axial fan and the second axial fan,

4 in a rear view, the fan assembly acc. 1 .

5 in a perspective view from the front view, the fan assembly acc. 1 .

6 in a side view, a first fan housing of the first axial fan, a second fan housing of the second axial fan and a nozzle housing of the diffuser,

7 in a front view of the diffuser gem. 1 .

8th in a longitudinal section along the section line EE the diffuser gem. 7 .

9 in a perspective view of the diffuser gem. 7 .

10 in a side view of the nozzle housing of the diffuser gem. 7 .

11 in a rear view the diffuser gem. 1 , and

12 a fan assembly with four interconnected fans.

1 . 2 and 3 show a fan assembly 10 , The fan arrangement 10 has a first axial fan 20 , a second axial fan 40 and a nozzle 60 on, which between the first axial fan 20 and the second axial fan 40 is arranged. The fan arrangement 10 is flowed through. During operation of the fan assembly 10 becomes a fluid from an entrance surface 11 the fan assembly 10 to an exit surface 12 the fan assembly 10 promoted. A conveying direction of the fluid of the illustrated fan assembly 10 denotes a directional arrow 100 , The fluid may be, for example, a gas such as air or pure nitrogen or a liquid, or else an aerosol such as mist or smoke.

A first electric motor 21 of the first axial fan 20 and a second electric motor 41 of the second axial fan 40 are each formed in the form of an external rotor. In this case, the first electric motor 21 a first outer rotor 22 with a first wave 29 , with a first fan 24 and one on the first fan 24 attached first plurality of fan blades 25 on. From the first outer rotor 22 at least partially enclosed is a first inner stator 23 of the first electric motor 20 educated. With the first inner stator 23 connected is a first base part 26 of the first electric motor 21 , This first base part 26 serves to position the first inner stator 23 in the first electric motor 21 and positioning a first bearing assembly 28 for storage of the first shaft 29 , The first electric motor 21 is in one, the first electric motor 21 at least partially radially enclosing formed first fan housing 27 of the first axial fan 20 added. During operation of the first axial fan 20 rotates the first outer rotor 22 one with the help of the first wave 29 defined first axis of rotation 30 in a first direction of rotation 31 ,

Between the first fan housing 27 and the first fan 24 is a permeable annular first channel 32 formed, through which the fluid can flow. This fluid is in operation of the first axial fan 20 from a first entrance opening 33 of the first channel 32 which in this embodiment of the entrance surface 11 corresponds to a first exit opening 34 of the first channel 32 with the help of the first plurality of fan blades 25 promoted. The fluid is preferably a gas, in particular air or another gas to be delivered.

In this embodiment, the second electric motor 41 identical to the first electric motor 21 educated. However, the structural identity is not a mandatory requirement of the fan assembly 10 , The two electric motors can be designed differently with regard to, for example, their size or their power.

So points the second electric motor 41 , which in one the second electric motor 41 at least partially radially enclosing formed second fan housing 47 of the second axial fan 40 is positioned, a second outer rotor 42 with a second wave 49 , with a second fan 44 and one on the second fan 44 attached second plurality of fan blades 45 on. A second inside stator 43 of the second electric motor 40 is from the second outer rotor 42 at least partially enclosed trained. With the second inner stator 43 is a second base part 46 of the second electric motor 41 connected, wherein the second base part 46 a positioning of the second inner stator 43 in the second electric motor 41 and a positioning of a second bearing assembly 48 for storage of second wave 49 serves. During operation of the second axial fan 40 the second outer rotor rotates 42 one with the help of the second wave 49 defined second axis of rotation 50 in a second direction of rotation 51 ,

Between the second fan housing 47 and the second fan 44 is a permeable annular second channel 52 formed, through which the fluid can flow. During operation of the second axial fan 40 the fluid is via a second inlet opening 53 of the second channel 52 to a second exit opening 54 of the second channel 52 with the help of the second plurality of fan blades 45 promoted, wherein the second outlet opening 54 the exit surface 12 equivalent.

The diffuser 60 , which is between the first axial fan 20 and the second axial fan 40 is positioned, has a nozzle housing 61 and one with the nozzle housing 61 with the help of webs 62 Connected Leitapparatinnenteil 63 on. The nozzle housing 61 defined together with the nozzle inner part 63 a flow-through annular third channel 64 , wherein the annular third channel 64 a third entrance opening 65 and a third exit opening 66 having.

The bridges 62 are on a lateral surface 631 of the Leitungsanatinnenteils 63 positioned, with the lateral surface 631 the nozzle housing 61 is formed facing, see. 3 ,

The bridges 62 are formed in the form of guide vanes in this embodiment, so that a conditioning, ie a change of flow parameters, such as, for example, direction and spin of the fluid can be achieved. A function of the fan assembly 10 adapted are the vanes 62 to shape in their radial and axial extent. In this embodiment, the vanes 62 for rectifying the fluid in the air duct 13 educated.

In a further embodiment, not shown, a first number of webs 62 formed in the form of a circular cross-section having rods and a second number of webs 62 are configured Leitschaufelförmig, wherein the first number of webs 62 and the second number of bars 62 both with the Leitungsanatinnenteil 63 as well as with the diffuser housing 61 are firmly connected. Likewise, the second number of bars could also 62 exclusively with the inner nozzle part 63 or only with the diffuser housing 61 be firmly connected.

In a further, not shown embodiment, the trained in the form of vanes webs 62 designed to be movable to allow a change in the flow conditioning as needed, for example in the form of a controllable tilting movement of the webs 62 around a radially extending axis.

During operation of the fan assembly 10 the fluid gets over the entrance surface 11 with the help of the first plurality of fan blades 25 in the first channel 32 sucked and over the third channel 64 with the help of the second plurality of fan blades 45 over the second channel 52 to the exit surface 12 promoted where the fluid from the fan assembly 10 conditioned accordingly can emerge. In other words, the first channel 32 , the second channel 52 and the third channel 64 over the first exit opening 34 and the third entrance opening 65 or the third outlet opening 66 and the second entrance opening 53 a flow-through air duct 13 the fan assembly 10 connected, wherein the first axis of rotation 30 and the second axis of rotation 50 preferably coaxial with a longitudinal axis 67 of the distributor 60 are formed.

Likewise, the first axial fan could 20 , the second axial fan 40 and the distributor 60 be formed angled to each other. In other words, that means the first axis of rotation 30 , the second axis of rotation 50 and the longitudinal axis 67 forming angles different from one another by an angle of 0 ° (or equivalently 180 °).

In the illustrated embodiment of the fan assembly 10 are the first axial fan 20 and the second axial fan 40 constructed in construction and rotation. However, this is not mandatory. So it is also possible, depending on the blade geometry, that the first direction of rotation 31 the second direction of rotation 51 is aligned opposite.

The nozzle inner part 63 is for supportingly receiving the first axial fan 20 and the second axial fan 40 in a first section 68 of the Leitventilatinnenteils 63 or in a second section 69 of the Leitungsanatinnenteils 63 trained, cf. 8th , wherein for supporting receiving the Leitapparatinnenteil 63 immovable with the first base part 26 and the second base part 46 connected is. The first indoor stator 23 and the second inner stator 43 are on the first base part 26 or the second base part 46 attached, so that an indirect attachment of the Leitungsanatinnenteils 63 with the first inner stator 23 and the second inner stator 43 is designed.

For holding the first axial fan 20 and the second axial fan 40 or for the formation of the air duct is the Leitapparatinnenteil 63 tube-like design. It has a first inner circumferential surface 70 on, at which preferably a disc-like wall 71 is attached, whose axis 72 coaxial with the longitudinal axis 67 is trained. The wall 71 forms a disk-shaped region of the Leitungsanatinnenteils 63 and serves an axial stop of the first base part 26 and / or the second base part 46 ,

The first base part 26 has a first bearing tube 35 on, on its first outer surface 36 preferably the first inner stator 23 is attached. On a first inner surface 37 of the bearing tube 35 is preferably the first bearing arrangement 28 fixed.

The first base part 26 accordingly, the second base part 46 designed. It has a second bearing tube 55 with a second outer surface 56 and a second inner surface 57 on. The second inner stator 43 is on the second outer surface 56 and the second bearing assembly 48 is on the second inner surface 57 attached.

In a second section 69 facing positioned second Lagerrohrendbereich 58 of the second bearing tube 55 is a disk-shaped second base cover 59 of the second base part 46 positioned, wherein the base part cover 59 also as base part floor 59 can be designated. The second base part cover 59 serves on its second outer circumference 591 a radial contact with the inner circumferential surface 70 , The term lid does not mean that the part must be located below or above. At his wall 71 facing positioned second cover surface 592 he serves an axial abutment against the wall 71 so that the second base part 46 , and thus the second axial fan 40 , in the fan assembly 10 is received axially immovable.

The first bearing tube 35 points in its first Lagerrohrendbereich 38 a disk-shaped first base part cover 39 of the first base part 26 on, with the base part cover 39 Also may be referred to as base part bottom. Like the second base part cover 59 serves the first base part cover 39 on its first outer circumference 391 the radial contact with the inner circumferential surface 70 , Its the wall 71 facing positioned first cover surface 392 is on the wall 71 axially, so that the first base part 26 , and thus the first axial fan 20 , in the fan assembly 10 is received axially immovable.

In the illustrated embodiment, the wall 71 at her from the inner surface 70 turned away end formed a pipe section 73 on which of the axial abutment of the second cover surface 592 at her the first base part cover 39 facing first base 74 serves. The advantage of this pipe section 73 is that in addition to the axial abutment of the second cover surface 592 a sufficiently stable radial contact of the first Lagerrohrendbereichs 38 and the second bearing tube end portion 58 is realized. Here is the wall 71 one compared to a length L of the pipe section 73 smaller wall thickness D of the wall 71 exhibiting designed. In other words, the use of the pipe section leads 73 to a reduction of the wall thickness D, provided that a sufficiently stable radial abutment of the first Lagerrohrendbereichs 38 and the second bearing tube end portion 58 is to bring about. This also facilitates production in the plastic injection molding process, since very different thicknesses are critical because of the different expansion.

The pipe section 73 may alternatively be in the direction of the first lid surface 392 demonstrate. To bring about a stable radial installation, it is advantageous that the first bearing tube 35 in its first Lagerrohrendbereich 38 respectively the second bearing tube 55 in its second Lagerrohrendbereich 58 over a sufficient extension length E radially on the pipe section 73 issue. Unless the wall 71 not the pipe section 73 This would mean that either the wall thickness D corresponds to the length L or the radial contact of the first Lagerrohrendbereichs 38 and the second bearing tube end portion 58 less stable, since the extension length E would be small.

Thus, the advantage of the pipe section 73 to see that a wall thickness D, which in addition to a material cost reduction, an improved elasticity of the supporting function of the Leitungsanatinnenteils 63 brought about, can be used, which avoids an increase in weight.

3 shows the fan assembly 10 in a longitudinal section along a section line CC of 1 , The first fan housing 27 encloses a first housing body 271 , which is designed like a hollow cylinder. Furthermore, the first housing body 271 in the area of the first inlet opening 33 preferably conically shaped, so that the first housing body 271 Venturubehrartig designed. This leads to an increase in a flow velocity of the fluid at least in the first channel 32 , But it can also be a straight completion of the air duct can be selected. The same applies to the opposite side.

In the area of the first entrance opening 33 has the first fan housing 27 a first inlet flange 272 which is like a disk, in particular a rectangular, preferably a square first cross-sectional area 274 is formed having. At the first inlet flange 272 are four, at a uniform distance from each other, over a first flange wall thickness FD1 of the first entry flange 272 fully extending first flange openings 275 positioned, which to Receiving a connecting or fastening element, for example. A screw or bolt, are formed.

A first outlet flange 273 of the first fan housing 27 is in the area of the first outlet opening 34 designed. He is like the first entry flange 272 Also disc-like, in particular a rectangular, preferably a square second cross-sectional area 276 is formed having. In this embodiment, the first cross-sectional area corresponds 274 the second cross-sectional area 276 , This is not mandatory. Likewise, the second cross-sectional area could 276 also one of the first cross-sectional area 274 have different shape.

Also the first outlet flange 273 has four, positioned at a uniform distance from each other across a second flange wall thickness FD2 of the first exit flange 273 preferably fully extending second flange openings 277 on, which for receiving a connecting or fastening element, for example. A screw or a bolt 278 , are formed.

The first fan housing 27 is with the nozzle housing 61 in the region of the first outlet opening 34 and the third entrance opening 65 connected or on the nozzle housing 61 attached, so there are no webs required, which run directly between the base parts and the respective fan housing. For receiving the connecting or fastening means, the nozzle housing 61 four (or three or five) hollow cylinder-like receiving elements 612 on, which, for example, each with the help of a fixing web 613 (see. 7 ) with a ring-shaped third housing body 611 of the nozzle housing 61 are connected. The four receiving elements 612 are the four second flange openings 277 each positioned opposite, such that an element axis EA1 of the connecting or fastening means 278 coaxial with a receiving element axis AA of the receiving element 612 and coaxial with a first flange opening axis FA1 of the second flange opening 277 is present.

In the area of the third outlet 66 is the nozzle housing 61 with the second fan housing 47 at the second inlet flange 472 attached. The second inlet flange 472 is in the area of the second inlet opening 53 disc-like, in particular a rectangular, preferably a square third cross-sectional area 474 formed formed. The second inlet flange 472 has four, positioned at a uniform distance from each other across a third flange wall thickness FD3 of the second entry flange 472 prefers fully extending third flange openings 475 on, which for receiving an associated connection or fastening element 478 are formed. The four third flange openings 475 are the four recording elements 612 each positioned opposite, wherein the element axis EA2 of the connecting or fastening means preferably coaxially with the receiving element axis AA and coaxial with a second Flanschöffnungsachse FA2 the third flange opening 475 is present.

In the present exemplary embodiment, the second flange opening axis FA2 corresponds to the first flange opening axis FA1.

A second outlet flange 473 of the second fan housing 47 is in the area of the second outlet opening 54 designed. He is like the second entry flange 472 Also disc-like, in particular a rectangular, preferably a square fourth cross-sectional area 476 formed formed. In this embodiment, the third cross-sectional area corresponds 474 the fourth cross-sectional area 476 , Likewise, the fourth cross-sectional area could 476 also one of the third cross-sectional area 474 have different shape.

Also the second outlet flange 473 , see. 4 , has four, positioned at a uniform distance from each other across a fourth flange wall thickness FD3 of the second exit flange 473 preferably fully extending fourth flange openings 477 on, which are designed to receive a connecting or fastening element.

The fan arrangement 10 is in 5 in a perspective view from the direction of the front view, thus from the direction of the entrance surface 11 or the first inlet flange 272 shown. As in the 6 can be clearly seen, are preferred between the first inlet flange 272 and the first exit flange 273 and between the second inlet flange 472 and the second exit flange 473 support struts 80 positioned.

These struts 80 serve to stabilize the fan assembly 10 , The fan arrangement 10 has rotating electric motors during operation, the first electric motor 21 and the second electric motor 41 , That is, the first fan housing 27 and the second fan housing 47 are already only by the operation of the first electric motor 21 or the second electric motor 41 Movements and shape exposed to rotational movements. These movements could lead to a distortion of the first fan housing 27 and the second fan housing 47 to lead. To avoid such twisting are the support struts 80 between the first inlet flange 272 and the first exit flange 273 and between the second inlet flange 472 and the second exit flange 473 educated. The struts 80 thus serve on the one hand a lightweight construction of the fan assembly 10 and on the other a preservation of elasticity of the entire fan assembly 10 which also in externally acting vibration excitations due to the support struts 80 maintain their stability.

In the 7 to 11 is the nozzle 60 in a front view overlooking the third entrance opening 65 in a longitudinal section along a section line CC, in a perspective view looking from the third inlet opening 65 , shown in a side view and in a rear view.

12 shows a further embodiment of the fan assembly 10 , at the four fans 20 . 40 . 40 ' . 40 '' serially connected to each other for greater performance of the fan assembly 10 to achieve. The representation corresponds to a section of the section line AA of 1 from the top to the middle and from the middle of the section line CC of 1 diagonally to the lower right corresponds.

The first fan 20 is with the second fan 40 as in the other embodiments via the distributor 60 connected, the second fan 40 is with the third fan 40 ' over the distributor 60 ' connected, and the third fan 40 ' is with the fourth fan 40 '' over the distributor 60 '' connected.

The annular air duct 13 extends in the axial direction through the entire fan assembly 10 , wherein preferably at least in the inner region, the outside of the air duct 13 has no extension to avoid airborne noise. At the axial ends, as an alternative to 12 an extension of the air duct 13 be provided.

The fans 20 and 40 on the one hand and the fans 40 ' and 40 '' On the other hand, each with the diffuser 60 respectively. 60 '' connected to the outside of the housing and inside the flange, the fans 40 and 40 ' on the other hand, are only connected to the outside of the housing, because inside each of the fan rotor to the flange 60 ' assigned. In a fan assembly 10 with three fans, however, you could have the right fan 40 '' directly on the distributor 60 ' mount so that only one fan on the nozzle 60 ' would be attached.

The fan 40 ' (if necessary with the fan 40 '' ) can alternatively also with the fan 20 get connected.

Thus, according to a preferred embodiment, any number of fans 20 . 40 through the diffusers 60 be coupled with each other.

It is very beneficial that the diffuser 60 . 60 ' . 60 '' (taking into account the direction of rotation of the fans can be used arbitrarily for connecting the individual fans.

Naturally, various modifications and modifications are possible within the scope of the present invention.

Claims (17)

Fan arrangement with a first axial fan ( 20 ), a second axial fan ( 40 ) and a distributor ( 60 ), wherein the first axial fan ( 20 ) a first electric motor ( 21 ) with a first outer rotor ( 22 ) and a first inner stator ( 23 ), one with the first outer rotor ( 22 ) connected first fan ( 24 ) with a first plurality of fan blades ( 25 ), one with the first inner stator ( 23 ) connected first base part ( 26 ) and a first fan housing ( 27 ), which first fan housing ( 27 ) the first electric motor ( 21 ) at least partially encloses, and wherein the second axial fan ( 40 ) a second electric motor ( 41 ) with a second outer rotor ( 42 ) and a second inner stator ( 43 ), one with the second outer rotor ( 42 ) connected second fan ( 44 ) with a second plurality of fan blades ( 45 ), one with the second inner stator ( 43 ) connected second base part ( 46 ) and a second fan housing ( 47 ), which second fan housing ( 47 ) the second electric motor ( 41 ) at least partially surrounds, wherein the first fan housing ( 27 ) together with the first fan ( 24 ) an annular first channel ( 32 ), by which in operation by rotation of the first fan ( 24 ) about a first axis of rotation ( 30 ) of the first outer rotor ( 22 ) a fluid is conveyed, wherein the second fan housing ( 47 ) together with the second fan wheel ( 44 ) an annular second channel ( 52 ), by which in operation by rotation of the second fan ( 44 ) about a second axis of rotation ( 50 ) of the second outer rotor ( 42 ) the fluid is conveyable, and wherein the distributor ( 60 ) a nozzle housing ( 61 ) and one with the nozzle housing ( 61 ) with the help of webs ( 62 ) connected Leitapparatinnenteil ( 63 ), which distributor housing ( 61 ) together with the inner nozzle part ( 63 ) an annular third channel ( 64 ) defined by which the fluid is conveyed, wherein the first base part ( 26 ) on a first section ( 68 ) of the Leitungsanatinnenteils ( 63 ) and the second base part ( 46 ) on a second section ( 69 ) of the Leitungsanatinnenteils ( 63 ) is attached, and wherein the first axial fan ( 20 ), the second axial fan ( 40 ) and the distributor ( 60 ), such that the first annular channel ( 32 ), the second annular channel ( 52 ) and the third annular channel ( 64 ) a through-flow air duct ( 13 ) of the fan assembly ( 10 ) form. Fan arrangement according to claim 1, wherein a longitudinal axis ( 67 ) of the distributor ( 60 ), the first axis of rotation ( 30 ) and the second axis of rotation ( 50 ) are formed coaxially. Fan arrangement according to claim 1 or 2, the Leitungsanatinnenteil ( 63 ) on a distributor housing ( 61 ) facing lateral surface ( 631 ) Has vanes. Fan arrangement according to one of the preceding claims, wherein the webs ( 62 ) are formed in the form of vanes. Fan arrangement according to one of the preceding claims, wherein the distributor ( 60 ) immovable with the first inner stator ( 23 ) and / or the second inner stator ( 43 ) connected is. Fan arrangement according to one of the preceding claims, wherein the first base part ( 26 ) for positioning the first inner stator ( 23 ) and a first bearing assembly ( 28 ) for a first wave ( 29 ) of the first electric motor ( 21 ) is formed and / or the second base part ( 46 ) for positioning the second inner stator ( 43 ) and a second bearing arrangement ( 48 ) for a second wave ( 49 ) of the second electric motor ( 41 ) is trained. Fan arrangement according to one of the preceding claims, wherein the first base part ( 26 ) in the axial direction on the first section ( 68 ) and / or the second base part ( 46 ) in the axial direction on the second section ( 69 ) is present. Fan arrangement according to one of the preceding claims, wherein the first base part ( 26 ) in the radial direction on the first section ( 68 ) and / or the second base part ( 46 ) in the radial direction on the second section ( 69 ) is present. Fan arrangement according to one of the preceding claims, wherein the Leitungsanatinnenteil ( 63 ) a disc-shaped area ( 71 ), which as an axial stop at least for the first base part ( 26 ) is trained. Fan arrangement according to claim 9, wherein the disc-shaped area ( 71 ) a pipe section ( 73 ) having. Fan arrangement according to one of the preceding claims, wherein the first fan housing ( 27 ) and / or the second fan housing ( 47 ) immovable with the nozzle housing ( 61 ) are connected. Fan arrangement according to one of the preceding claims, wherein the first base part ( 26 ) and / or the second base part ( 46 ) with the first section ( 68 ) and / or with the second section ( 69 ) are connected in the form of a press fit. Fan arrangement according to one of the preceding claims, wherein the guide vanes ( 62 ) for rectifying the fluid in the air duct ( 13 ) are formed. Fan arrangement according to one of the claims, wherein the air duct ( 13 ) Venturi tube is formed. Fan arrangement according to one of the preceding claims, wherein the first axial fan ( 20 ) a first direction of rotation ( 31 ) and the second axial fan ( 40 ) one of the first direction of rotation ( 31 ) oppositely directed second rotational direction ( 51 ) having. Fan arrangement according to one of the preceding claims, in which a third axial fan ( 40 ' . 40 '' ) is provided, which via a further diffuser ( 60 ' ) with the first fan ( 20 ) or the second fan ( 40 ), wherein the further diffuser is formed according to the diffuser of claim 1. Fan arrangement according to claim 16, wherein a fourth axial fan ( 40 '' ) is provided, which via a further diffuser ( 60 '' ) with the third axial fan ( 40 ' ), wherein the further diffuser is formed according to the diffuser of claim 1.

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