DE102010024302A1 - Electromotor e.g. asynchronous motor, has rotor rotatably supported around rotor axis, and stator arranged in housing portion and connected with portion in force-fit manner, where fan shroud is lockably connected with portion - Google Patents

Abstract

The electromotor has a rotor rotatably supported around a rotor axis, and a stator (12) arranged in a housing portion (1), where the stator is connected with the housing portion in a force-fit manner. A fan shroud (2) is lockably connected with the housing portion, and includes a radially inward projecting cam provided with a lead-in chamfer. A guide is provided for the cam and actively limited in circumferential direction. A motor housing includes a radially outward projecting cam provided with a leading-in chamfer at which the cam of the fan shroud is pushed in axial direction. An independent claim is also included for a method for manufacturing an electromotor.

Description

The invention relates to an electric motor and a method for producing an electric motor.

An electric motor has a stator and a rotatably mounted rotor, wherein the rotor is arranged radially inside the stator. To improve the cooling fan are known, which are arranged at an axial end portion of the rotor shaft. In this case, to protect people a fan cover surrounding the fan must be mounted, which is screwed to the motor housing.

The invention is therefore the object of developing an electric motor, with a simple cost-effective production should be possible.

According to the invention the object is achieved in the electric motor according to the features specified in claim 1 and in the method according to the features indicated in claim 12.

Important features of the invention in the electric motor are that it comprises a rotatable, in particular rotatable about a rotor axis, mounted rotor and a stator disposed in a housing part, in particular wherein the stator is non-positively connected to the housing part,
wherein a fan cowl is connected to the housing part,
wherein the fan cover is clipped, so latched, is connected to the housing part.

The advantage here is that a simple production is possible and still a positive and thus secure connection in the axial direction is provided. In particular, thus a quick and easy tool-free connection during manufacture and maintenance or the like is possible.

In an advantageous embodiment, the fan cover has a radially inwardly projecting cam,
in particular, wherein the cam has an insertion bevel. The advantage here is that a one-piece design of the cam, in particular in the designed as a plastic injection molded fan cover is made possible.

In an advantageous embodiment, a circumferentially effective limiting guide for the cam is formed. The advantage here is that when clipping the fan cover on the motor housing rotation in the circumferential direction is prevented.

In an advantageous embodiment, the motor housing has a cam projecting radially outward, which has an insertion bevel on which the cam of the fan cowling, in particular with its insertion be pushed in the axial direction and engages after overcoming the cam of the motor housing. The advantage here is that a simple connection with little effort and a positive securing the fan guard on the motor housing is reached.

In an advantageous embodiment of the cam formed on the motor housing engages in a dilution region or in a recess of the fan cowl. The advantage here is that the latch can be executed in a simple manner.

In an advantageous embodiment, a shoulder or a support cam for receiving axial compressive force is formed on the motor housing axially following the cam formed on the motor housing, so that the cam formed on the fan cowl is axially supported on the shoulder or the support cam, in particular wherein the cam with its axial end surface is supported on the shoulder or the support cam. The advantage here is that axial forces are trappable and thus the safety and durability are improved.

In an advantageous embodiment, the fan cover when sliding and clipping, so locking, elastically deformed, so that a backlash-free connection between the fan cover and motor housing is provided. The advantage here is that a backlash-free connection can be produced by a corresponding contact force is achieved by the elastic deformation.

In an advantageous embodiment, a bearing of the rotor shaft is arranged in a housing part. The advantage here is that the housing surrounding the stator can be formed from two parts, as in the housing part in which the stator is received, in particular is positively connected, also a bearing seat for receiving the bearing is provided. Thus, an additional bearing plate for receiving the bearing does not have to be provided and connected to the housing part.

In an advantageous embodiment, the housing part is cup-shaped and the bearing can be arranged on the bottom of the pot, in particular in a recess of the housing part is arranged in the pot bottom, which has a bearing seat for receiving the outer ring of the bearing. The advantage here is that thus the housing part is aufstülpbar on the bearing, wherein the bearing is previously attachable to the rotor shaft. In addition, an improved heat dissipation is possible, since an integral formation of the housing part, the spread of heat, the For example, is generated by the stator windings and / or from the camp, is possible without additional heat transfer are available.

In an advantageous embodiment, the housing part, in particular on its side facing away from the bottom of the pot, in particular axially opposite side, releasably connected to a bearing plate in which a bearing is accommodated for the rotor shaft. The advantage here is that from the end plate and the housing part, a substantially closed housing is formed and thus the stator is protectively umgewandbar of this housing, which also accommodates the bearings of the rotor shaft.

In an advantageous embodiment, the housing part has a centering collar on which the bearing plate with its corresponding Gegenzentrierfläche is connectable. The advantage here is that a precise alignment of the bearing can be achieved without readjustment or the like. Alone by the shape of the parts thus aligning the bearing is effected.

In an advantageous embodiment, a terminal box base is formed integrally on the housing part. The advantage here is that no connection and storage of another part is necessary but the housing part can be formed as a casting with molded terminal box base. In this case, the walls of the connection box lower part are so high that the connection device, ie connecting elements for connecting electrical lines are surmounted.

In an advantageous embodiment, the terminal box base is closed by a cover part, in particular is closed, which is screw-connected to the housing part. The advantage here is that a flat or at least flat cover part is used to cover the junction box. In a curved design of the lid part increased stability can be achieved and a drainage of water, so that the risk of corrosion can be reduced. In addition, a smooth surface for the application of a label is providable on the outside of the lid part. By means of the curved shape is thus also a visual and design highlighting achievable.

In an advantageous embodiment, a connection device is screw-connected to the housing part, in particular wherein the connection device is at least partially surrounded by the housing lower part of the housing. The advantage here is that the connection device is easy and quick connectable and after connecting the insertion and thus electrical connection of the outside leading into the junction box lines with the guided from the stator winding lines can be produced by the spring elements.

In an advantageous embodiment, spring elements are received in the connection device, in which lines are inserted in a respective actuation direction, wherein an imaginary straight line in the direction of actuation, in particular in extension of the end portion of the respective line, on the inner wall of the housing part 1 trained terminal box base meets, so in particular an insertion of the lines in the terminal box base screw-connected connection device is executable. The advantage here is that an electrical connection with screwed into the terminal box base connection device is executed in such a way that the lines within the terminal box base are feasible.

In an advantageous embodiment, the rotor shaft is mounted on the bearing in the housing part and on the other bearing in the bearing plate. The advantage here is that a storage in the two interconnected parts is executable.

In an advantageous embodiment, at least one recess is arranged in the connection box lower part, in particular in the wall,
wherein an area of the housing part is made thickened from the recess to the stator and / or at least a portion of a wall of the terminal box base is thickened, in particular for improving the heat dissipation and heat dissipation of the heat dissipated by the stator into the housing part, in particular in the region of the distinct terminal box base , Advantageously, therefore, the heat generated by the stator is also in the region of the terminal box base, where no cooling fins are attached, spread and improved in the direction of the terminal box base and from there to the environment improved. In particular, even short-term heat flow peaks are improved by the thickening increased heat capacity catchable.

In an advantageous embodiment, the thickened wall region of the housing part at least partially surrounds the recess such that a form-locking rotation lock, in particular for a nut or lock nut of a cable gland arranged on the recess, is provided. The advantage here is that the mother of a cable gland without additional part against rotation is fixed to the terminal box base.

In an advantageous embodiment, the thickened wall region rotationally secured against rotation, in particular a nut or lock nut wherein the nut or lock nut is formed on its outer periphery as an external hexagon. The advantage here is that the thickened wall area as a whole or half hexagon socket surrounds the recess on the inside of the wall portion of the housing part. In this way, a rotation in a simple manner is adjustable, with a heat flow over the rotation of the metallic nut or lock nut is feasible, so that the cooling of the stator is further improved. In this case, the nut or lock nut is optionally performed with connected parts along the electrical supply lines expanded and thus increases the surface of the housing part with respect to the heat to the environment.

In an advantageous embodiment, a fan is arranged on an axial end region of the rotor shaft, in particular wherein a fan cowling encloses the fan at least partially housing-forming, in particular wherein the fan cowl connected to the housing part 1 is. The advantage here is that a fast and easy connection of the fan is executable. In addition, the assembly of the same direction as the other parts executable, and thus the temporally and spatially one-dimensional serial assembly of the engine executable.

• – in einem ersten Schritt ein Lager in ein Lagerschild eingefügt wird, insbesondere von einer ersten axialen Seite aus,
• – in einem zweiten Schritt eine Rotorwelle in das Lager eingefügt wird, insbesondere von der ersten axialen Seite aus,
• – in einem dritten Schritt ein weiteres Lager auf die Rotorwelle aufgesteckt wird eingefügt wird, insbesondere von der ersten axialen Seite aus,
• – in einem vierten Schritt ein topfartiges Gehäuseteil, insbesondere mit welchem ein Stator verbunden und vom Gehäuseteil gehäusebildend umgeben ist, auf das weitere Lager aufgesteckt wird eingefügt wird, insbesondere von der ersten axialen Seite aus.

Important features in the method for manufacturing an electric motor are that the motor can be mounted from a single axial side, wherein

• In a first step, a bearing is inserted in a bearing plate, in particular from a first axial side,
• In a second step, a rotor shaft is inserted into the bearing, in particular from the first axial side,
• In a third step another bearing is fitted onto the rotor shaft, in particular from the first axial side,
• - In a fourth step, a pot-like housing part, in particular with which a stator is connected and surrounded by the housing housing forming, is plugged onto the further bearing is inserted, in particular from the first axial side.

The advantage here is that a quick and easy production is executable. In addition, an improved heat dissipation is possible.

In an advantageous embodiment, a fan is finally attached to the rotor shaft and a fan cover on the housing part. The advantage here is that an improved cooling is achievable.

In an advantageous embodiment, a recess for the passage of a line through the wall of the terminal box base of the housing part, in particular by means of cable gland, produced by removing, in particular knocking out a knockout area of the housing part made as a casting.

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 possibilities of claims and / or individual claim features and / or features of the description and / or figures, in particular from the task and / or posing by comparison with the prior art task arise.

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

In the 1 is a sectional view shown by the electric motor according to the invention.

In the 2 is an associated oblique view with the lid closed 16 shown.

In the 3 is an associated oblique view with the lid open 16 shown.

In the 4 is an oblique view of the fan cover shown so that the interior is visible.

In the 5 is an associated section, which shows a recess of the fan cover, shown enlarged.

In the 6 is an oblique view of the fan cover shown from the outside.

In the 7 is the electric motor with attached fan cover 2 shown, with the fan cover is shown cut.

In the 8th an associated section is shown enlarged, which makes an insertion bevel of a cam on the motor housing visible.

In this case, the motor has a housing part 1 on, which is made in one piece as a casting, in particular as a diecast part. It is preferable here to use aluminum or at least one aluminum-containing alloy. In addition, a terminal box base is pronounced on the housing part.

Thus, after placing a lid 16 on the terminal box base of the housing part 1 includes a terminal portion housing forming, in which connection devices ( 17 . 19 ) can be arranged.

The housing part 1 also has a recess which is designed as a bearing seat is executed. Likewise, a shaft seal seat is arranged adjacent thereto. Thus, the B-side end of the rotor shaft 9 in the housing part 1 storable. For this purpose, the bearing is on the bearing seat 3 can be arranged, which by means of a balancing ring 4 from a arranged in an annular groove of the recess of the housing retaining ring 5 is spaced. Axial on the other side of the circlip 5 located at the shaft seal seat of the shaft seal 6 , Bearing seat and shaft seal seat are thus arranged in a through hole and machined in a single clamping. The hole is not stepped, but with a single diameter.

The warehouse 3 is axially arranged such that the stator winding region with that of the bearing 3 claimed axial region of the bearing 3 overlaps. According to projecting radially inward, ie in the axial region of the stator windings radially below the stator windings, is the housing part 1 formed.

The fan cover is at the axial end, in particular B-side of the engine, form-fitting, in particular clipped, with the housing part 1 connected. It surrounds the fan 20 , which in turn is positively connected to the rotor shaft 9 connected is.

The rotor shaft 9 is on its A side, ie output side, over a bearing 10 in a bearing plate 11 mounted, which is designed as a housing part and the substantially cup-shaped housing part 1 lid-like closes. The bearing plate 11 and the housing part are preferably made of cast iron, in particular cast steel or die-cast aluminum. But there are also executions of plastic executable when a weight-reduced variant should be made.

The warehouse 10 is axially between a stage of the receiving bore and a locking ring 7 arranged and thus fixed axially. Likewise, the rotor shaft is designed in this area with a stage against which the inner ring of the bearing 10 is applied, which is also axially fixed by means of another locking ring. Thus, the B-side bearing is designed as a fixed bearing. The A-side bearing 3 is designed as a floating bearing, where also the local inner ring at one stage of the rotor shaft 9 is applied. By means of the shim but are thermal expansions of the rotor shaft 9 tolerable. On the A side is a seal to the environment by means of a shaft seal 8th executed. The bearing plate 11 is not only tight with the housing part 1 connected but also has a centering collar, which occurs with a corresponding shape on the housing part in operative connection for mutual centering.

The stator windings of the stator 12 surround this on the rotor shaft 9 arranged active part, which is designed as a short-circuit cage or permanent magnets. Thus, the motor can be executed as an asynchronous motor or as a synchronous motor.

In the terminal box lower part of the housing part 1 recesses are arranged so that lock nuts are introduced to allow a cable gland and so-called cable gland in a sealed manner. The inner wall of the terminal box base of the housing part 1 has for this purpose an inwardly projecting wall thickening, which is shaped such that for a correspondingly shaped on its outer circumference, a lock nut can be generated. Preferably, the outer circumference of the lock nut ( 18 ) hexagonal shaped and thus in a hexagonal protruding ( 13 . 14 ) Wall thickening can be secured against rotation.

However, the thickening on the terminal box base is not only designed to prevent rotation but the thickening, ie thickened wall thickness extends radially to that part of the housing part 1 which surrounds the stator housing forming. In this way, the thickening is designed as a heat conduction and heat of the stator is improved dissipated in the region of the terminal box base, which thus acts as an improved cooling fin. In addition, even the stability is changed and thus reduces the tendency to oscillate or sound radiation in the outer region of the thickening of the terminal box base.

Thus, a more uniform cooling is achieved at the periphery of the stator. Because in the region of the terminal box base, the housing part has no cooling fins. However, the cooling performance of the missing cooling fins is improved by the thickened terminal box base. The wall thickness is preferably between 2 and 3 mm thick. In the thickening area, the wall thickness is increased by more than 1 mm, ie at least 3 or 4 mm thick.

By means of the thickened wall not only the heat dissipation is improved but also one or more nut pockets can be formed for nuts or lock nuts of cable glands which are arranged in a respective recess of the terminal box base. The recesses are designed, for example, as through holes or unprocessed holes.

Inside the terminal box base is a screw 15 arranged, by means of which a connection device 17 is screwed to the housing part 1 , Thus, by means of this connection device 17 the winding lines of the stator windings can be connected to lines, via which the motor can be supplied. For this purpose, the winding lines and the said supply lines in each case in an actuating direction in the connection device 17 introduced and connected there with a metallic connection means. The connecting means thus establishes a respective electrical connection between the lines and / or by means of the connecting means and their interconnection, the motor is operable in star connection or delta connection.

It is important that the actuating direction is provided in a direction that allows insertion of the respective lines within the terminal box base. The lines are rigid overall and thus designed little flexible. Therefore, the actuating direction is limited by that recess of the connecting device 17 into which the line is to be introduced. In this case, the recess is designed as a substantially round hole whose axial direction is aligned in the direction of actuation. In the recess, a spring element is provided in the slot, the line can be inserted and frictionally and thus electrically connected. The recess is in a surface part of the connection device 17 arranged, which is executed essentially flat and whose normal direction is aligned in substantially in the direction of actuation. The actuation direction may have a small angle to the normal direction, which can also be designated as the opening angle. The operating angle, in particular also within the range of the opening angle, is aligned such that the respective line is to be inserted within the terminal box base in the connecting device 17 , The wall of the terminal box region of the terminal box base is thus arranged in the region of the opening angle of the recess.

Thus, when the connection device is screwed in 17 allowing insertion of the conduits within the space area surrounded by the terminal box base. This is made possible despite the fact that the imaginary operating line meets in the direction of actuation on the inner wall of the terminal box base.

As introduced in the direction of actuation in the respective recess of the connecting device line either a stator, ie a connected to a winding wire of the stator line, or a guided through the cable gland line is providable. The number of recesses in the connection device is correspondingly high. The recesses in the substantially planar surface part are preferably designed as a regular linear arrangement.

The connecting device is connected by means of the screw connection to the housing part vibration stable.

The terminal box base is covered by a lid 16 completed, leaving the connecting device 17 and another connection device 19 are surrounded.

At the B-side end of the rotor shaft 9 is a fan 20 arranged, with the cooling air flow not only the housing part 1 in the area of the terminal box base is cooled but also the other surface areas of the housing part 1 along which extend in the axial direction of cooling fins.

In locally limited thickening of the cooling fins tapped holes are introduced so that a nameplate placed on the cooling fins 21 can be screwed with the ribs of the housing part 1 ,

The production of the motor is particularly simple to carry out, since an assembly of a single axial side is made possible. Therefore, a fully automated production is possible:
For this purpose, first in the bearing plate 11 the shaft seal 8th and then the camp 10 introduced, whereupon the associated circlip 7 is inserted.

Then the rotor shaft 9 with the warehouse 10 connected. Then the camp will be 3 on the rotor shaft 9 plugged. This is the camp 3 assigned a through hole and no stepped bore, so stepped hole. In this way, said assembly is made possible from only one mounting direction.

Thus, then the cup-like housing part 1 , in which the stator is already arranged, slipped over. Now is the circlip 5 and the shaft seal 6 mountable.

Finally, the fan wheel 20 and the fan cover 2 , which is clipped into the housing part 1 , mountable. The Einklipsverbindung has the particular advantage that the assembly of the fan cover by bringing it from the same direction is possible. Thus, all the above parts are brought out of only one direction and thereby the engine mountable. This allows a particularly simple production and a high degree of automation.

To make the electrical connections, the connection device 17 in the terminal box base with the housing part 1 screw-connected. Thereafter, the lines coming from the stator with their end portions in the recesses of the connecting device 17 introduced in the direction of actuation and there positively inserted into a spring contact and thus electrically connected to the spring contact.

Likewise, by the lock nut ( 18 ) comprehensive cable glands guided, coming from the outside lines with their end regions also in the direction of actuation in each associated elongated recesses of the connection device 17 , ie insertion openings 23 the connection device 17 , guided and connected to the corresponding spring contact of the connecting device, whereby the electrical connections between the coming of the stator and the outside of the lines arise. In this case, the spring acts transversely to the line direction, ie the insertion direction of the inserted into the insertion line and thus pushes the line against an edge. To remove the line, the non-positive connection is achieved by means of an actuating element 24 the connecting device, the spring force is overcome and thus terminating the pressing of the spring to the inserted line and prevented. For this purpose, the spring is deflected accordingly in the transverse direction to the line direction or insertion of the line in the insertion 23 , Thus, a simple and non-destructive removal of the line is possible.

The frictional connection of the stripped end portions of the leads are made by inserting the stripped end portions through a slot in the spring member at a shallow angle, more preferably less than 40 ° or even less than 20 ° between the lead and the slot walls, so that Insertion with little effort is possible. The spring element is made as a thin-walled punched and bent part. Thus, however, when pulling out a high static friction is achieved, since the thin-walled slot walls in a large angle, in particular more than 140 ° or even 160 ° abut against the lines and thus cut when pulling out, so that only with great force extraction is possible - but with deforming or even cutting effect on the line.

It is important in the electrical connection of the lines that no screw must be pressed but only a plugging in the lines with the appropriate force is executed. This is even on the case 1 screw-connected connection device 17 allows, so after the screw connection of the connection device 17 with the housing part 1 ,

In the embodiment of the invention, the above-mentioned recess for receiving the cable gland in the green casting is designed to be closed, ie with a knock-out area. Such are in 3 still present on the opposite side. By means of applied symbols on the outside of the respective knockout area ( 22 . 25 ) is clearly illustrated to the person skilled in the art, as he uses a tool the respective knockout area ( 22 . 25 ) can remove. Preferably, the wall thickness is 0.5 mm to 1 mm. In the terminal box base so several such knockouts are performed in this way and the required for cable glands recesses break out in a simple manner.

In 3 is also mounted on the cooling fins mounted nameplate 21 visible, noticeable.

As in 4 shown, the fan cover has a fan grille 41 on, so that on on the motor housing, ie housing part 1 , axial mounted fan protection against contact with the fan 20 is ensured by the fingers of an operator. Thus, air flows axially into the fan 20 in, is in the radial direction by the designed as a radial fan fan 20 deflected and by means of the beveled area 71 the fan cover 2 deflected in the axial direction, so that the air exiting the fan along the cooling fins of the motor housing 1 flows.

The fan cover 2 is also made of sheet metal. Preferably, however, plastic is used, in particular the fan cowl is designed as an injection molded part.

The fan cover is on the inside 2 reinforcing ribs 42 on, which extend in the axial direction and are spaced apart in the circumferential direction, in particular irregularly to reduce the tendency to oscillate.

At four points in the circumferential direction, in particular in flattened portions of the fan cover 20 , are recesses 44 arranged, which are designed as holes in the wall and in another embodiment as a dilute wall areas, so as arranged on the inside of the fan guard depressions.

In the axial direction closes to the recesses 44 one reinforcing rib each 43 at. Thus, through the recesses 44 none Reduction of the stability of the fan guard 2 and causes no increase in the tendency to oscillate.

The respective reinforcing rib 43 widens in the axial direction, ie increases in the axial direction of width in the circumferential direction, whereby the tendency to oscillate is further reduced, in particular in cooperation with the reinforcing ribs 42 which do not increase in width in the axial direction in the circumferential direction.

On the reinforcing rib 43 remote axial side of the recess 44 is a radially inwardly projecting cam on the fan cover 2 formed, which is an insertion bevel 51 has, so the fan cover 2 with this on a correspondingly shaped insertion bevel 81 one on the motor housing 1 molded cam 82 is deferrable. During this sliding is the fan guard 2 , which is preferably made of plastic, elastically deformed. At the end of the sliding operation, the cam overcomes the fan guard 20 the cam 82 and the fan cover 2 is clipped connected to the motor housing. In doing so, the cam protrudes 82 into the recess 44 ,

In 8th the clipped connection area is shown in more detail. It is on the motor housing 1 molded, radially outwardly projecting cams 82 shown the insertion bevel 81 has, on the insertion bevel 51 of radially inwardly projecting, on the fan cover 2 molded cam, when connecting.

Another, on the motor housing 1 molded overlay sock 83 is axially spaced from the cam 82 for absorbing axial compressive force, by after clipping the fan guard 2 with axially acting on the fan guard pressure forces of the formed on the fan guard cam with its axial end face of the support cam 83 is supported. Thus, these axially acting pressure forces are intercepted.

By means of a remaining after clipping elastic deflection or tension of the fan guard fan shroud is also positively connected to the motor housing 1 , The clip connection is in particular in the axial direction, but also in the circumferential direction is a positive connection.

Overall, thus, the fan guard backlash and safe, especially overload capacity against axial forces, with the motor housing 1 connected, whereby a rattle is prevented during operation and also a reduction of the tendency to oscillate is reached.

The cams 83 and 82 are arranged on a thickened and radially enlarged rib, offset in the circumferential direction, parallel to the further cooling fin 84 on the motor housing 1 are formed. Thus, a good heat dissipation is achieved.

In 6 this is at the axial end of the fan cowl 20 arranged fan cowl grid shown in more detail, wherein the grid is designed as a square grid and the boundary of a recess 62 for carrying out a shaft, for example shaft of an angle sensor, is reinforced by means of additional connecting ribs 61 which are each arranged diagonally in the squares adjacent to the boundary.

Preferably, a lateral guide is additionally provided, with which a rotational movement of the fan cover in the circumferential direction can be prevented when sliding the fan cover onto the motor housing.

In a further embodiment of the invention, the spring elements are connected to each other such that a connection of the motor in star connection or delta connection is possible.

In a further embodiment of the invention B-side is between the fan and the housing part 1 arranged an electromagnetically actuated brake.

LIST OF REFERENCE NUMBERS

1

housing part

2

fan cover

3

Bearing, B-sided

4

compensation ring

5

circlip

6

Shaft seal

7

circlip

8th

Shaft seal

9

rotor shaft

10

Bearing, B-sided

11

End shield, A-side

12

stator

13

Wall thickening as anti-rotation lock for a lock nut

14

Wall thickening as anti-rotation lock for counter nut 18

15

screw

16

cover

17

connection device

18

locknut

19

further connection device

20

Fan

21

type label

22

knockout

23

Insertion opening of the connection device 17

24

actuator

25

knockout

41

Lüftergitter

42

reinforcing ribs

43

axially widening reinforcing rib, axially aligned with the recess 44

44

recess

51

Insertion bevel of the cam formed on the fan cowl

61

Connecting ribs for reinforcement

62

Recess for carrying out a shaft

71

bevelled area for air deflection

81

chamfer

82

formed on the motor housing cams

83

Pad for absorbing axial compressive force

84

cooling fin

Claims (15)

Electric motor with fan, comprising a rotatable, in particular rotatable about a rotor axis, mounted rotor and arranged in a housing part stator, in particular wherein the stator is non-positively connected to the housing part, wherein a fan cowl is connected to the housing part, characterized in that the fan cowl clipped, so latching, is connected to the housing part. Electric motor according to at least one of the preceding claims, characterized in that the fan cowling has a cam projecting radially inwards, in particular, wherein the cam has an insertion bevel, in particular, wherein a circumferentially effective limiting guide for the cam is formed. Electric motor according to at least one of the preceding claims, characterized in that the motor housing has a radially outwardly projecting out cam having an insertion bevel on which the cam of the fan cowl, in particular with its insertion be pushed in the axial direction and after overcoming the cam engages the motor housing. Electric motor according to at least one of the preceding claims, characterized in that the cam formed on the motor housing engages in a dilution region or in a recess of the fan cowl. Electric motor according to at least one of the preceding claims, characterized in that on the motor housing axially following the cam formed on the motor housing, a shoulder or a support cam for receiving axial compressive force is formed so that the cam formed on the fan cowl is axially supported on the shoulder or the support cam, in particular wherein the cam is supported with its axial end face on the shoulder or Auflagerocke. Electric motor according to at least one of the preceding claims, characterized in that the fan cover when pushing and clipping, so locking, is elastically deformed, so that a play-free connection between the fan cover and the motor housing is provided. Electric motor according to at least one of the preceding claims, characterized in that a bearing of the rotor shaft is arranged in a housing part, and / or that the housing part is pot-shaped and the bearing can be arranged on the bottom of the pot, in particular in a recess of the housing part in the bottom of the pot is arranged, which has a bearing seat for receiving the outer ring of the bearing, and / or that the housing part, in particular on its side facing away from the bottom of the pot, in particular axially opposite side, is detachably connected to a bearing plate in which a bearing for the rotor shaft is accommodated, and / or that the housing part has a centering collar on which the bearing plate can be connected to its corresponding counter-centering surface. Electric motor according to at least one of the preceding claims, characterized in that on the housing part, a terminal box base is integrally formed. Electric motor according to at least one of the preceding claims, characterized in that the terminal box lower part can be closed by a cover part, in particular is closed, which is screw-connected to the housing part, in particular, wherein the cover part is curved. Electric motor according to at least one of the preceding claims, characterized in that a connecting device is screw-connected to the housing part, in particular wherein the connecting device at least partially Housing is surrounded by the terminal box base. Electric motor according to at least one of the preceding claims, characterized in that in the connecting device spring elements are received, in which lines are inserted in a respective actuating direction, wherein an imaginary straight line in the actuating direction, in particular in extension of the end portion of the respective line, on the inner wall of on the housing part 1 trained terminal box base meets, so in particular an insertion of the lines in the terminal box base screw-connected connection device is executable. Electric motor according to at least one of the preceding claims, characterized in that the rotor shaft is mounted on the bearing in the housing part and the further bearing in the bearing plate, and / or that a fan is arranged at an axial end portion of the rotor shaft, in particular wherein a fan cover the fan at least partially enclosing the housing, in particular wherein the fan cover is connected to the housing part with a clip 1 is. Electric motor according to at least one of the preceding claims, characterized in that in the terminal box base, in particular in the wall, at least one recess is arranged, wherein an area of the housing part is made thickened from the recess to the stator and / or at least a portion of a wall of the terminal box base is made thickened, in particular for improving the heat dissipation and heat dissipation of the heat dissipated by the stator into the housing part, in particular in the region of the distinct terminal box base , Electric motor according to at least one of the preceding claims, characterized in that the thickened wall region of the housing part at least partially surrounds the recess in such a way that a form-locking rotation lock, in particular for a nut or lock nut of a cable gland arranged on the recess, is provided; in particular wherein the thickened wall region a nut or lock nut against rotation, in particular wherein the nut or lock nut is formed on its outer periphery as an external hexagon. Method for producing an electric motor, in particular according to at least one of the preceding claims, characterized in that the motor is mountable from a single axial side, wherein In a first step, a bearing is inserted in a bearing plate, in particular from a first axial side, In a second step, a rotor shaft is inserted into the bearing, in particular from the first axial side, In a third step another bearing is fitted onto the rotor shaft, in particular from the first axial side, In a fourth step, a pot-like housing part, in particular with which a stator is connected and surrounded by the housing part in a housing-forming manner, onto which another bearing is plugged in, in particular from the first axial side, In a fifth step, a fan is clipped onto the rotor shaft and a fan cowl is axially clipped onto the motor from the axial side, in particular wherein finally a fan is plugged onto the rotor shaft and a fan cover onto the housing part, in particular wherein a recess for the passage of a line through the wall of the terminal box base part of the housing part, in particular by means of cable gland, is produced by removing, in particular knocking out, a knockout area from the housing part produced as a cast part.

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