DE102011109535B4 - Fan arrangement and engine - Google Patents

Abstract

Fan arrangement, in particular for an electric motor, comprising a fan wheel (5), a housing (4) and an air guide, in particular wherein the housing (4) surrounds the fan wheel (5) and the air guide means forming the housing, characterized in that the air guide means detachably mountable and the housing (4) axially covers the fan arrangement at least in the axial direction, the housing (4) axially covering the fan arrangement, and wherein the air guiding means is designed such that a cooling air flow conveyed radially from the fan wheel (5) by means of the Air guide is deflected in the axial direction, ie in particular is deflected along a housing inner wall in the direction of the motor.

Description

The invention relates to a fan assembly and a motor.

Electric motors with integrated fans are known.

From the CH 650 563 A5 For example, a diffuser is known in a centrifugal work machine, where a wide working range and improved efficiency are to be achieved.

From the DE 80 32 266 U1 is a swirl regulator with axial flow for fans, fans and the like known.

From the US 2007/0 104 574 A1 For example, a stator vane carrier for a turbine engine is known.

From the DE 60 2004 000 976 T2 An engine compressor assembly for a motor vehicle is known.

From the DE 197 22 353 A1 is a centrifugal pump with an axial inlet and an impeller upstream inlet device known.

From the JP 2011 080 401 A is a swirl generator for a centrifugal compressor known.

From the DE 31 03 595 C2 is a bladeless diffuser of a flow machine known.

From the DE 20 2006 016 962 U1 is known a hub seat with air guiding effect.

From the DE 10 2006 001 419 A1 For example, a cooling fan with a frame and a paddle wheel is known.

From the DE 10 2005 047 861 A1 For example, a heat dissipation device and a fan frame for the heat dissipation device are known.

From the DE 10 2006 008 289 A1 are a fan and a fan frame for the fan known.

The invention is therefore based on the object to develop a fan assembly, wherein the cooling improves and this device is easy to install or retrofit even with variable housing lengths.

According to the invention the object is achieved in the fan assembly according to the features specified in claim 1 and in the engine according to the features indicated in claim 12.

Important features of the invention in the fan assembly are that the fan assembly, in particular for an electric motor, a fan, a housing and an air guide, in particular wherein the housing surrounds the fan and the air guide means forming the housing, and that the air guide is detachably connected to the housing ,

The advantage here is that the air flow is utilized more effectively by the air guide diverts a cooling air flow generated by the fan so that it is directed to the components to be cooled in the housing. As a result, the efficiency of the cooling can be improved. Improved cooling, in turn, also increases the energy efficiency of the engine. Furthermore, turbulences in the housing are prevented or at least reduced, which can also affect the efficiency of the cooling. A releasably designed air guiding means has the advantage that this is easy to retrofit. In particular, when using a modular system of motors with variable housing length, the position of the louver can be optimally adapted to the position of the fan.

In an advantageous embodiment, the air guiding means is designed such that a cooling air flow conveyed by the fan wheel in the radial direction is deflected in the axial direction by means of the air guiding means, ie in particular is deflected along a housing inner wall in the direction of the motor. The advantage here is that the cooling air flow is directed to the components to be cooled and the efficiency of the cooling is improved.

In an advantageous embodiment, the inner wall, in particular the surface facing the cooling air flow of the Luftleitmittels in the axial direction, ie in Motorachsrichtung, in an axial portion of a decreasing radial distance, wherein the axial portion includes at least an axial region over which the fan extends , The advantage here is that turbulence of the cooling air flow in the housing can be reduced. As a result, the cooling air flow is particularly good exploitable.

In a further advantageous embodiment, the air guiding means is connected by means of a screw connection with the housing. The advantage here is that a simple and cost-effective installation in the housing is made possible for the air guide.

In particular, when using a slot through which the connecting screw protrudes and is screwed into a threaded bore in the housing, adjusting the axial position of the Luftleitmittels is made possible during assembly. In this case, the slot extends in the axial direction.

In a further advantageous embodiment, the air guiding means is connected by means of a clip connection with the housing. The advantage here is that the air guide is quick and easy to install.

In a further advantageous embodiment, the clip connection is carried out by means of a firmly connected to the inner wall of the housing elastically deflectable spring clip with a projection which can be clipped into a recess in a mounting region of the air guide ring. The advantage here is that the air guide ring is fixed by the elastically deflectable spring clip itself, which presses the air guide to the housing inner wall. In addition, the air guide ring can be fixed by the hooked into the recess projection on the spring clip, which causes a positive connection. For a particularly secure and at the same time releasable connection of the spoiler ring with the housing can be generated.

In a further advantageous embodiment, the spring clip has a leg under which the attachment region of the air guide ring is pushed, in particular wherein the length of the leg is at least 30% of the length of the parallel to the inner wall of the housing surface portion of the air guide ring. The advantage here is that the clamping action by means of the spring clip is not only at one point but over the entire length of the leg away.

In a further advantageous embodiment, the clip connection is carried out by means of a projection on the side facing the housing of the air guide, which is hooked into a recess in the housing inner wall, in particular wherein the projection is arranged on a tongue-like region which is elastically deflected against the remaining air guide in particular wherein the air guiding means is integrally formed with the tongue-like region and projection, in particular wherein a further projection is arranged in the housing inner wall, in particular wherein the axial distance between this projection and the recess in the housing inner wall is less than or equal to the axial distance between the projection on Air guide ring and an axial end portion of the air guide ring, in particular wherein the air guide between the recess and the projection of the housing inner wall can be clipped. The advantage here is that the clip connection is easy to install and inexpensive executable.

In a further advantageous embodiment, two or more projections are arranged in the housing inner wall, in particular wherein the axial distance between the projections is smaller than or equal to the axial length of the air guide ring in the plane of the Gehäuseinnenwandung, in particular wherein the air guide between the projections can be clipped. The advantage here is that the air guide ring can be mounted in a simple manner and on the air guide no further structures are required for attachment.

In a further advantageous embodiment, the air guiding means is annular, in particular formed as an air guide ring. The advantage here is that an annularly shaped air guiding means in the circumferential direction has no ends on which turbulence of the air flow can form.

In a further advantageous embodiment, the air guide is made of plastic, in particular manufactured as a plastic injection molded part. The advantage here is that the air guide is inexpensive to manufacture.

In a further advantageous embodiment, the air guiding means is made of metal, in particular made of sheet metal. The advantage here is that a sheet is easy to shape and can also be adapted during assembly to the housing.

In a further advantageous embodiment, the air guiding means has a non-vanishing distance to the envelope of the fan wheel, in particular this distance is between 5% and 10% of the radius of the fan wheel, in particular 6% to 7% of the radius of the fan wheel. The advantage here is that the distance is selected such that at low cost manufacturing of items thermally induced, assembly-related or manufacturing tolerance-related fluctuations in the position and / or shape of the Luftleitmittels can not lead to a collision with the fan. The safety in the operation of the fan is guaranteed. Furthermore, the fan is lightweight, thin-walled and / or filigree executable, since collisions with the air guide are ausschließbar. As a result, the inertia of the fan wheel can be reduced, whereby the energy consumption of the engine can be lowered.

In a further advantageous embodiment, the maximum radial distance of an axial end portion of the fan wheel decreases in the axial direction, in particular wherein the wing has an at least partial bevel in the end, in particular wherein the maximum radial distance decreases linearly, in particular wherein the angle between the bevel and the housing facing end portion of the wing is 20 ° to 60 °, in particular 40 ° to 50 °, in particular wherein the radial portion of the chamfer is comprised of a radial distance region of the inner wall of the air guide ring. The advantage here is that the fan causes less turbulence than one arranged in the same area, with the same maximum outside diameter and correspondingly adapted housing wall designed impeller without bevel in the axial end.

In a further advantageous embodiment, the fan is a radial fan, a diagonal fan or an axial fan. The advantage here is that the air guide is universally applicable, in particular a modular system is possible. Because the different types of fans can be equipped with a similar mechanical interface directed towards the air-conveying means. In this case, for example, the same inner diameter of the recess is provided in the respective housing and possibly the same groove for the engagement of the projection.

In a further advantageous embodiment, the fan wheel is made of metal, preferably made of aluminum and / or an aluminum alloy. The advantage here is that metals are particularly temperature resistant, especially in comparison to plastic. Furthermore, the fan wheel has an increased mass inertia compared to, for example, plastic, whereby the startup behavior associated with this fan motor is improved, in particular, a jerk avoidance during startup is possible.

In a further advantageous embodiment, the fan is made of plastic. The advantage here is that the fan is inexpensive to manufacture. Furthermore, a fan made of plastic is lightweight and has in particular a small inertia, whereby energy losses can be reduced and the dynamics is improved.

In a further advantageous embodiment, the fan arrangement has a fan cover, in particular wherein an air inlet is arranged in the fan cover, in particular wherein the air inlet is designed as a recess in the fan cover. The advantage here is that the fan cover protects the fan assembly from external influences, so that, for example, no objects can get caught in the fan, so in particular the reliability is increased. At the same time the air supply to the fan is guaranteed.

In a further advantageous embodiment, the fan cover is replaceable, in particular, instead of the fan cover a fan cover can be used. The advantage here is that a modular system of fan assemblies is possible, making production costs can be reduced.

In a further advantageous embodiment, the housing has substantially axially extending channels for the passage of the cooling air flow. The advantage here is that the cooling air flow is directed specifically and no turbulence in the housing arise. This allows efficient cooling.

In a further advantageous embodiment, the housing has an air outlet opening. The advantage here is that the cooling air flow generated by the fan is passed along the components to be cooled and exits through an air outlet opening from the housing. Thus, a unidirectional cooling air flow is enabled.

An important feature of the invention in the engine, in particular an electric motor, having a rotor with a shaft mounted in the housing and with a fan arrangement, is that the shaft is non-rotatably connected to the fan wheel.

The advantage here is that the fan wheel rotates with the motor and thus no further fan motor is required. By means of this integrated fan, effective cooling of the motor can be achieved, so that the efficiency of the motor is increased compared to a motor without a fan.

In an advantageous embodiment, in addition to the fan another functional part within the housing with the shaft rotatably connected, in particular wherein the functional part is a pole ring, in particular in the circumferential direction successively, magnetized in different directions permanent magnet sections, or is a brake pad carrier of an electromagnetically actuated brake , The advantage here is that a modular system is possible. By means of a rotary harvester, in particular the function of the engine can be monitored, which increases the reliability of the engine. A brake enables a defined standstill of the motor, which enables safety-relevant applications of the motor, for example in hoists.

In a further advantageous embodiment, the housing of the motor adjoins a further housing which has a converter, in particular wherein the converter can be cooled by means of the cooling air flow generated by the fan arrangement. The advantage here is that the inverter requires no additional cooling and thus energy can be saved.

Further advantages emerge from the subclaims. The invention is not limited to the combination of features of the claims. For the skilled person, further meaningful combination options of claims and / or individual claim features and / or features of the description and / or figures, in particular from the task and / or the task posing by comparison with the prior art arise.

The invention will now be explained in more detail with reference to figures:

In the 1 is a fan assembly according to the invention drawn in sectional view.

2 shows a first clip connection according to the invention in a sectional view.

3 shows a second clip connection according to the invention in a sectional view.

The fan assembly has a fan 5 and an air guide ring 1 on, with the fan wheel 5 with a motor shaft 10 a motor, not shown, preferably an electric motor, is rotatably connected, in particular synchronously with the motor shaft 10 is rotatable. The motor shaft 10 is by means not shown bearing in a housing 4 , preferably motor housing, rotatably mounted. The fan wheel 5 is made of metal and / or plastic.

The fan assembly is in a housing 4 arranged the motor, not shown, which is on the opposite side of the motor of the fan wheel 5 through one of the housing 4 detachably connectable fan cover 2 is completed. The housing 4 is made of metal, preferably by die casting. In the axial direction is between the fan 5 and the fan cover 2 a distance is provided, this distance being less than 100 mm, in particular less than 50 mm, preferably less than 20 mm. In the radial direction, the distance between fan is 5 and the wall of the housing 4 from 10% to 20% of the radius of the fan wheel 5 , Preferably, the distance is 15% of the radius of the fan wheel 5 , The air guide ring 1 is on the inner wall of the housing 4 between the fan 5 and the fan cover 2 arranged. In this case, the radial distance between the radial end portion of the fan wheel 5 and the air guide ring 1 between 5% and 10% of the radius of the fan wheel 5 , preferably 7% of the radius of the fan wheel 5 ,

The fan cover 2 is essentially flat and detachable with the housing 4 connected. In particular, the fan cover 2 with the housing 4 screw-connected. In this case, a recess, in particular a borehole, in the fan cover 2 executed, passed through which a screw and into a threaded hole in the housing 4 screwed.

The fan cover 2 has air intake recesses 3 on, which as through the associated wall continuous recesses in the fan cover 2 are executed.

The fan wheel 5 is designed as a radial fan. This will cause an axial through an air inlet 3 inflowing air flow deflected into a substantially radial air flow in the fan assembly. By means of the air guide ring 1 This radial air flow is deflected into a substantially directed towards the engine axially directed air flow, ie substantially directed in the engine axial direction air flow.

The air deflecting region is thus formed in such a way that the air flow which has flowed in axially and is conveyed radially by the fan in a substantially axial direction along the air guide ring 1 is deflected to cool the engine, not shown. By means of the air guide ring 1 is thus a reduction of the losses of the cooling air flow by about 25% feasible: Without air guide ring 1 the losses caused by, among other things, air turbulences are approximately 20%, and by means of the air guide these losses can be reduced to approximately 15%.

The air guide ring 1 is releasably and positively at least in the axial direction with the housing 4 connected. Here is the air guide ring 1 essentially annular in the housing 4 arranged. It is made of plastic and / or metal, preferably the air guide ring 1 designed as a plastic injection molded part. Furthermore, the air guide ring 1 an air deflection and / or a mounting area.

In a first variant, not shown, a fastening screw for fastening by a recess, in particular borehole, of the housing 4 guided and in a threaded hole of the mounting portion of the air guide ring 1 screwed. In particular, the borehole is designed as a slot through which the connecting screw protrudes and is screwed into a threaded bore of the air guide. This allows adjustment of the axial position of the air guide during assembly. In this case, the slot extends in the axial direction.

Preferably, at least a surface portion of the attachment portion extends parallel to the inner wall of the housing. The air deflection area is on the inside of the air guide ring 1 arranged. The attachment area is on the radially outer surface of the air guide ring 1 arranged.

2 . 3 and 4 show a second embodiment in which the air guide ring 1 by means of a clip connection with the housing 4 connected is.

In 2 is an elastically deflectable spring clip 22 on the inner wall of the housing 4 arranged, in which the holding area of the air guide ring 1 inserted and clipped.

In particular, the spring clip 22 firmly with the inner wall of the housing 4 connected, for example by means of a riveted joint 23 or alternatively with a welded joint. Furthermore, the spring clip 22 a leg, wherein the length of the leg at least 30% of the length of the parallel to the inner wall of the housing 4 extending surface portion of the air guide ring 1 is. In the end of the spring clip is a to the inner wall of the housing 4 showing lead 21 arranged. In particular, this advantage 21 executed as a nose and / or a barb.

The holding area of the air guide ring 1 has a recess, in particular, this recess is a groove 20 executed. When inserting the holding area of the air guide ring 1 in the spring clamp 22 , in particular between the legs of the spring clip 22 and the inner wall of the housing 4 , the projection takes hold 21 the spring clamp 22 in the groove 20 , By means of barbs is the air guide 1 in the case 4 fixed.

In 3 a further variant of the clip connection is shown. In this case, the air guide ring 1 in the holding area a the housing 4 facing projection 31 on, which is designed as a barb. The holding area is designed to be elastically deflectable. In the inner wall of the housing, a recess is executed, the shape of the shape of the projection 31 is adjusted. In particular, this recess is a groove 30 executed. When inserting the air guide ring 1 in the case 4 , becomes the holding area of the air guide ring 1 elastically deformed. Once the lead 31 in the groove 30 engages, becomes the air guide ring 1 relieved and thus in the housing 4 fixed. In particular, the portion of the air guide ring, which has the projection, by means of two, substantially parallel and slot-like recesses, which in an end region of the mounting region of the air guide ring 1 open, elastically deflectable. So this section is executed as a tongue.

In 4 a third variant of the clip connection is shown. There are two projections 40 and 41 arranged in the housing inner wall, wherein the axial distance between the projections 40 and 41 is less than or equal to the axial length of the air guide ring in the plane of the Gehäuseinnenwandung, preferably, the distance between the projections 40 and 41 maximum 5% smaller than the axial length of the air guide ring. Thus, the air guide between the projections can be clipped. During assembly, the mounting portion of the air guide ring is elastically compressed in the axial direction, so that this between the projections 40 and 41 is placeable. After discharge, the air guide ring is thus fixed in the housing.

In further embodiments of the invention, the in 3 and 4 combined clip connections. In the 3 The connection shown is by means of an arranged in the housing inner wall projection 40 secured against slipping in the axial direction. Here is the axial distance between the projection 40 and the recess in the housing inner wall is less than or equal to the axial distance between the projection 31 at the air guide ring and an axial end portion of the air guide ring. Thus, the air guide ring 1 between the recess 30 and the lead 40 the housing inner wall can be clipped.

For deflecting the air flow, the air deflection area protrudes between the fan wheel 5 and fan cover 2 in the interior of the case 4 and hides a peripheral area of the fan cover 2 that is free of air inlets 3 is. Here is a distance between the air guide ring 1 and the envelope of the fan wheel 5 from 10% to 20% of the radius of the fan wheel 5 , preferably 15% of the radius of the fan wheel 5 to be observed in order to prevent tolerance or assembly-related collisions. In particular, the distance between the air guide ring 1 and the envelope of the fan wheel 5 be large enough, so that during assembly elastically deformed portion of the air guide ring 1 not collided with the fan. In this case, the envelope of the fan wheel is understood as meaning the area of space which is filled by the fan during the rotary movement.

The fan wheel 5 has wings 6 on which by means of a hub 7 on a base body 8th of the fan wheel 5 are attached. In the axial direction, the maximum radial distance of a wing decreases 6 to an axial end portion of the fan wheel 5 down. Preferably, the maximum radial distance of the wing decreases 6 in the axial direction linearly, in particular, the wing 6 bevelled, with the angle between the bevel 11 of the grand piano 6 and of the air guide ring 1 facing end region 12 of the grand piano 6 is between 20 ° and 60 °, preferably between 40 ° and 50 °. Preferably, the shape of the wings 6 on the fan cover 2 facing section of the wings 6 the shape of the air guide ring 1 customized.

A fixing screw 9 is on the fan cover 2 facing side of the fan 5 arranged. By means of the fixing screw 9 is an annular disc with magnetized areas concentrically fastened, wherein the magnetization of the disc changes along the circumference of the disc. In particular, the disc rotates synchronously with the motor shaft 10 with, whereby by means of a transmitter, preferably a rotary encoder and / or speed sensor, the speed and / or the angle of rotation can be determined. In particular, different panes can be mounted, which allow different angular resolution and / or rotational angle detection. In particular, the encoder is designed as a printed circuit board with a magnetic field sensor, which with a bearing plate of the motor shaft 10 is connected, so the encoder is not rotatable.

In further embodiments of the invention, instead of the planar fan cover 2 a fan cover opposite the fan wheel 5 arranged and detachable with the housing 4 connected, in particular screw-connected to the outer wall of the housing. The fan cover is on the housing 4 attached and a screw is passed through a recess in the fan cover and bolted to a threaded hole in the housing. The fan cowl is essentially a hollow cylinder, which is closed in one piece on one side by means of a plate, preferably has these air inlet recesses 3 on. By means of the fan cowl, the housing having the motor and the fan arrangement can be extended, whereby further functional elements can be integrated into the housing, preferably an encoder and / or a brake can be integrated.

In further embodiments of the invention is a brake pad carrier of an electromagnetically actuated brake between the engine and the fan 5 arranged and rotationally fixed with the motor shaft 10 connected. On the side facing away from the engine of the brake pad carrier an armature disc is arranged, which axially movable with the housing 4 is connected, in particular so is not rotatable. As the motor rotates, the armature disc is tightened by means of a magnetic body. In this case, the magnetic body is arranged on the side facing away from the brake pad carrier armature plate, in particular, the magnetic body is an electromagnet. When interrupting the power supply of the electromagnet, the brake is applied and the armature disk is pressed by means of a between armature plate and magnetic body intermediate spring element to the brake pad carrier.

In further embodiments of the invention, the fan cover 2 and / or the fan cowl by means of a sliding block with the housing 4 connected. In this case, a groove in the housing 4 arranged, which is designed in particular milled. In this groove, the sliding block is arranged, which has a threaded bore. The groove is formed such that the sliding block in the plane of the surface of the housing 4 is movable parallel to the motor axis direction. In the direction of the normal vector of the plane of the sliding block is only very limited movement, in particular less than 2 mm movable. Through a recess in the fan cover 2 and / or the fan cowling, preferably a borehole, a screw is passed in the radial direction and screwed into the threaded bore of the sliding block.

In further embodiments of the invention, the housing 4 Channels on for the passage of the fan 5 driven airflow. At the fan wheel 5 remote axial end portion of the motor housing 4 shows the case 4 Recesses through which the air flow from the housing 4 exit.

Alternatively, the housing has 4 axially extending cooling fins and the fan wheel 5 powered airflow passes through recesses on the housing 4 from the fan wheel 5 facing axial end portion of the housing 4 out, so that it is guided axially along the cooling fins. For this purpose, the recesses are not purely radially but obliquely in the axial direction or the exiting air flow is directed in the exit region in the direction along the cooling fins.

In further exemplary embodiments according to the invention, a housing part, not shown, is arranged laterally on the housing accommodating the motor and has a converter. The converter is likewise cooled by means of the cooling air flow generated by the fan. In this case, a further recess in the housing 4 executed, through which the air flow from the housing 4 flows into the other housing part. By means of a Luftleitmittels the air flow from the housing 4 passed into the other housing part.

In further embodiments of the invention, the inverter is cooled indirectly in the housing part, not shown, indirectly by means of the cooling air flow generated by the fan. This is between the case 4 and arranged a cooling plate on the other housing part.

LIST OF REFERENCE NUMBERS

1

air guide

2

fan cover

3

Air inlet recess

4

casing

5

fan

6

wing

7

hub

8th

body

9

fixing screw

10

motor shaft

11

bevel

12

end

20

groove

21

head Start

22

spring clip

23

rivet

30

groove

31

head Start

40

head Start

41

head Start

Claims (14)

Fan arrangement, in particular for an electric motor, comprising a fan wheel ( 5 ), a housing ( 4 ) and an air guiding means, in particular wherein the housing ( 4 ) the fan wheel ( 5 ) and the air-guiding means surrounds the housing, characterized in that the air-guiding means is releasably mountable and, at least in the axial direction, is positively connected along a housing inner wall to the housing ( 4 ), the housing ( 4 ) covers the fan assembly axially, and wherein the Luftleitmittel is formed such that one of the fan ( 5 ) in the radial direction promoted cooling air flow is deflected by the Luftleitmittels in the axial direction, ie in particular is deflected along a housing inner wall in the direction of the motor. Fan arrangement according to claim 1, characterized in that in an axial portion of the inner wall, in particular the cooling air flow surface facing the Luftleitmittels in the axial direction, ie in Motorachsrichtung, a decreasing radial distance, wherein the axial portion comprises at least one axial region over the the fan wheel ( 5 ). Fan arrangement according to one of the preceding claims, characterized in that the air guiding means by means of a screw connection with the housing ( 4 ), in particular a slot is arranged in the air guiding means, through which the connecting screw protrudes and is screwed into a threaded bore in the housing wall, in particular with the slot extending in the axial direction, and / or that the air guiding means by means of a clip connection to the housing ( 4 ) connected is. Fan arrangement according to claim 3, characterized in that the clip connection by means of a with the inner wall of the housing ( 4 ) firmly connected elastically deflectable spring clip ( 22 ) with a lead ( 21 ) is executed, which can be clipped into a recess in a mounting region of the Luftleitmittels, in particular wherein the spring clip ( 22 ) has a leg under which the attachment region of the Luftleitmittels is pushed, in particular wherein the length of the leg at least 30% of the length of the parallel to the inner wall of the housing ( 4 ) extending surface portion of the air guide ring. Fan arrangement according to one of claims 3 or 4, characterized in that the clip connection by means of a projection ( 31 ) on the housing ( 4 ) facing side of the Luftleitmittels is, which can be hooked into a recess in the housing inner wall, in particular wherein the projection ( 31 ) is arranged on a tongue-like region, which is elastically deflectable against the remaining air guide, in particular wherein the air guide is formed integrally with the tongue-like region and projection, in particular wherein a further projection ( 40 ) is arranged in the housing inner wall, in particular wherein the axial distance between this projection ( 40 ) and the recess in the housing inner wall smaller than or equal to the axial distance between the projection ( 31 ) is at the air guide means and an axial end portion of the Luftleitmittels, in particular wherein the Luftleitmittel between the recess and the projection ( 40 ) of the housing inner wall is clipped, and / or that two or more projections ( 40 . 41 ) are arranged in the housing inner wall, in particular wherein the axial distance between the projections ( 40 . 41 ) is less than or equal to the axial length of the air guide in the plane of the Gehäuseinnenwandung, in particular wherein the air guide between the projections ( 40 . 41 ) is clipped. Fan arrangement according to one of the preceding claims, characterized in that the Luftleitmittel annularly shaped, in particular as an air guide ring ( 1 ) is formed, and / or that the air guide is made of plastic, in particular as a plastic injection molded part, and / or metal, in particular sheet metal. Fan arrangement according to one of the preceding claims, characterized in that the Luftleitmittel a non-vanishing distance to the envelope of the fan wheel ( 5 ), in particular this distance is between 5% and 10% of the radius of the fan wheel ( 5 ), in particular 6% to 7% of the radius of the fan wheel ( 5 ). Fan arrangement according to one of the preceding claims, characterized in that the maximum radial distance of an axial end portion of the fan wheel ( 5 ) decreases in the axial direction, in particular a wing ( 6 ) of the fan wheel ( 5 ) an at least partial bevel ( 11 ) in the end area ( 12 ), in particular wherein the maximum radial distance decreases linearly, in particular wherein the angle between the bevel ( 11 ) and the housing ( 4 ) end region ( 12 ) of the wing is 20 ° to 60 °, in particular 40 ° to 50 °, in particular wherein the radial region of the bevel ( 11 ) is encompassed by a radial distance region of the inner wall of the air guide. Fan arrangement according to one of the preceding claims, characterized in that the fan is a radial fan, a diagonal fan or an axial fan, and / or that the fan ( 5 ) made of metal, preferably made of aluminum and / or an aluminum alloy, and / or is made of plastic. Fan arrangement according to one of the preceding claims, characterized in that the fan arrangement a fan cover ( 2 ), in particular wherein in the fan cover ( 2 ) is arranged at least one air inlet, in particular wherein the air inlet or the air inlets as a recess in the fan cover ( 2 ) is executed, and / or that the fan cover ( 2 ) is replaceable, in particular instead of the fan cover ( 2 ) A fan cover is used. Fan arrangement according to one of the preceding claims, characterized in that the housing ( 4 ) has substantially axially extending channels for the passage of the cooling air flow and / or at least one air outlet opening. Motor, in particular electric motor, having a rotor with a housing (in 4 ) mounted shaft and with a fan assembly, comprising a fan ( 5 ), a housing ( 4 ) and an air guiding means, in particular wherein the housing ( 4 ) the fan wheel ( 5 ) and surrounds the air guiding means, the air guiding means releasably surrounding the housing ( 4 ), the housing ( 4 ) covers the fan assembly axially, and wherein the Luftleitmittel is formed such that one of the fan ( 5 ) in the radial direction promoted cooling air flow is deflected by means of the Luftleitmittels in the axial direction, ie in particular is deflected along a housing inner wall in the direction of the motor, the shaft rotatably with the fan ( 5 ), in particular wherein the fan assembly is designed according to at least one of the preceding claims. Motor according to claim 12, characterized in that next to the fan wheel ( 5 ) another functional part within the housing ( 4 ) is rotatably connected to the shaft, in particular wherein the functional part is a pole ring, in particular with successively in the circumferential direction, in each different direction magnetized permanent magnet sections, or is a brake pad carrier of an electromagnetically actuated brake. Motor according to claim 12 or 13, characterized in that the housing ( 4 ) of the motor adjacent to another housing, which has a converter, in particular wherein the inverter is coolable by means of the cooling air flow generated by the fan assembly.

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