DE102010013302A1 - electric motor - Google Patents

Abstract

Electric motor, comprising a motor housing, are provided in which bearing for supporting the rotor shaft, wherein in the motor housing a stator lamination is provided on which a stator winding is arranged, wherein in the motor housing with the rotor shaft rotatably connected rotor lamination stack is provided, wherein recesses are provided on the rotor lamination which extend from the one axial end side of the rotor laminated core to the other axial end side of the rotor laminated core.

Description

The The invention relates to an electric motor.

It is known in a motor housing to provide a stator in the generated three-phase field of the rotor is provided.

Of the Invention is therefore the object of a higher performance to achieve a more compact volume.

According to the invention Task in the electric motor according to the features specified in claim 1 solved.

Important features of the invention in the electric motor are that it has a motor housing in which bearings are provided for supporting the rotor shaft,
wherein a stator lamination stack is provided in the motor housing, on which a stator winding is arranged,
wherein in the motor housing a rotatably connected to the rotor shaft rotor laminated core is provided,
wherein on the rotor laminated core recesses are provided, which extend from the one axial end side of the rotor laminated core to the other axial end side of the rotor core,
wherein inside the housing air-conveying means are provided, in particular for driving an air flow within the housing.

From The advantage here is that the heat dissipation from the rotor to the motor housing improved running is. Especially with heat generating power lines on the rotor, as in a field winding of a foreign excited Synchronous machine or even with a short circuit cage one Asynchronous machine when implemented high power and / or when one high torque is generated, this is an advantage. That anyway existing air is accelerated so that the on or in the rotor core passing air releases the absorbed heat at the stator or motor housing.

at an advantageous embodiment, the air conveyor accomplished as a first, axially in front of the first end face of the rotor lamination stack arranged, rotatably connected to the rotor shaft fan and / or a second, axially behind the other end face of the rotor lamination stack arranged, rotatably connected to the rotor shaft fan. From The advantage is that big airflows are drivable.

at According to an advantageous embodiment, the air conveying means Air baffles, which at one or both ends of the Rotor laminated cores are arranged. The advantage here is that the baffles with little mass and thus with little moment of inertia are executable.

at an advantageous embodiment, each recess is at least associated with an air baffle. The advantage here is that a powerful Cooling is feasible.

at an advantageous embodiment, the respective air baffle executed in such a way that caught in the rotational movement of the rotor in the circumferential direction Air is deflected in the axial direction, ie in particular in the axial Direction into the mouth of the Recess is initiated on the front side of the rotor core. The advantage here is that during rotation air can be conveyed is while the deflection vorsehbar directly in front of the mouth of the recess is.

at an advantageous embodiment, the respective air baffle domed executed especially so arched, that catching and diverting the air with less swirl losses executable is than with a newly executed air baffle. Advantageous is that less vortex arise, especially in one blade-like design the baffles. Another advantage are the greater dimensional stability and the easy manufacturability, for example, as a deep-drawn part.

at an advantageous embodiment is for the return of the along the recess funded Air at least partially the air gap between the rotor and stator intended. The advantage here is that no additional effort for the return necessary is.

at an advantageous embodiment is for the return of the along the recess funded Air at least partially a recess in the stator lamination, in particular an axially extending recess in the stator lamination stack, or a Recess in the motor housing intended. The advantage here is that an improved heat dissipation accessible from the air to the stator lamination stack or motor housing is, especially if the engine is equipped with a jacket cooling is.

In an advantageous embodiment, the recess, in particular in the rotor laminated core and / or laminated stator core, is designed as a groove running on the surface. In particular, the surface of the rotor is designed with helically extending grooves. In this case, the screw axis is the rotor axis and the grooves extend on the surface of the rotor. The advantage here is that the production is very simple, in particular, a production by casting or die casting is executable. So only an appropriate mold has to be made. In addition, the air flowing in the groove also promotes air from surrounding the groove Air gap with. Thus, a particularly effective flow promotion can be effected, in particular if the return of the air via channels in the laminated stator core and / or motor housing takes place.

at an advantageous embodiment, the housing of the motor or a casing surrounding the motor part jacket channels for a cooling medium, in particular a liquid Cooling medium, in particular Water, up. The advantage here is that a particularly effective cooling and thus a high performance with low construction volume can be achieved.

at According to an advantageous embodiment, the electric motor is a synchronous machine, in particular a separately excited synchronous machine, an asynchronous machine or a reluctance machine. The advantage here is that the Entwärmungskonzept invention for different Machinery is usable.

at In an advantageous embodiment, the rotor laminated core is made of stamped packets Single sheets assembled, with each single sheet punched out to form the recesses. The advantage here is that a low cost simple Production of the recesses is executable, in particular without additional effort, since each individual sheet is a stamped part is and therefore no additional effort is necessary.

Further Advantages emerge from the subclaims.

1

Laminated core

2

rotor shaft

3

channel in the rotor core

4

motor housing

20

groove

30

air guide

40

air guide

50

camp

51

stator

52

fan

53

air gap

54

additional air duct

60

Channels in the housing jacket

70

Channel, in particular air duct, in the motor housing

80

Channel, in particular air duct, in the laminated stator core

The invention will now be explained in more detail with reference to figures:
In the 1 is one on the rotor shaft 2 rotatably connected rotor laminated core 1 provided, which has channels which begin at a first end face of the rotor lamination and terminate at the front side opposite the first end face. In this way, therefore, air in the axial direction through the rotor core can be moved. Since the channels are not made parallel to the rotor axis, a conveying effect for air is achieved when rotating relative to the housing rotor, so that it is conveyed from the first end side to the axially opposite end face.

In 1 are the channels 3 executed in a straight line from the first end face to the opposite end face, but not parallel to the rotor axis. Since the rotor laminated core is composed of individual similar sheet-metal parts, a simple stack-forming production, in particular stamped packaging, is made possible. The stack is stacked in the axial direction.

at another embodiment the channels are running in the rotor laminated core parallel to the rotor axis. The channels have then always the same radial distance from the rotor axis.

at In turn, another embodiment of the invention run the Helical channels, wherein the screw axis is the rotor axis. The channels have then again always the same radial distance from the rotor axis and point an increasing in the axial direction angular value in the circumferential direction on. The channels So are with a helix angle executed.

In 2 an alternative embodiment is executed. In this case, the rotor core has several grooves 20 on the circumference, which are helical in the axial direction, so in turn always be at the same radial distance and have an increasing with the axial direction angular value in the circumferential direction.

The grooves 20 and the channels 3 can also be combined on the rotor laminated core.

In the 3 At the axial end of each channel is an air baffle 30 provided, that is on the front side of the rotor core 1 is connected, in particular welded. The baffles 30 are designed as rectangular sheet metal pieces, which are provided inclined so that upon rotation of the rotor core in the preferred direction air in the channels 30 is encouraged. When the sheet metal pieces are arranged on both end faces in the reverse orientation, air can be conveyed into the channels in both directions of rotation.

In the 4 are instead of the rectangular air baffles 30 arched executed air baffles 40 shown, which are formed like a blade. Again, when rotating the rotor core in preference direction air into the channels 30 is encouraged. When the sheet metal pieces are arranged on both end faces in the reverse orientation, air can be conveyed into the channels in both directions of rotation.

In 5 a further embodiment is shown. It surrounds the case 4 the engine's stator, with additional air ducts 54 are provided in the axial direction.

In addition, the rotor shaft 2 over two camps 50 stored, which are provided in the housing of the engine. That on the rotor shaft 2 provided rotor core 1 points the channels 3 on. In addition, the grooves are also 20 can be used on the outer circumference.

On a stator lamination stack is the stator winding 51 provided, wherein in the laminated stator core the additional channels 54 are predictable.

Axially in front of and behind the rotor core is on the rotor shaft 2 one fan each 52 provided, the non-rotatably with the rotor shaft 2 is connected and generates a conveying effect for air. In this case, the air is conveyed through the rotor laminated core, in particular through the channels and / or grooves in the rotor laminated core. A backflow of air is through the additional channels in the stator lamination stack or through the air gap 53 between stator and rotor allows.

In the 6 are the fan wheels 52 not shown, but it is an otherwise to 5 similar engine shown. There are also channels 60 provided in the housing of the engine, which are suitable for flow with a liquid cooling medium, such as water or oil, so are designed to be sealed. Thus, the housing of the engine is cooled directly. The heat of the laminated stator core is thus dissipated to the housing of the engine and from there to the cooling medium. For this purpose, the stator lamination stack is preferably non-positively and / or even positively connected to the housing of the motor.

For example is a shrinking of the housing advantageous for which before inserting the Stator laminations in the housing a temperature difference of more than 30 Kelvin is produced and after pasting the housing Shrunk on the stator lamination.

In the 7 an embodiment is shown, in contrast to 5 an additional air duct 70 having in the motor housing. Thus, the return of the air is particularly effective and the heat can be delivered directly to the motor housing and discharged from there to the environment.

In the 8th is different from 7 an embodiment shown in which an additional air duct 80 is provided in the laminated stator core. Thus, a particularly simple production of the air ducts 80 without additional effort, because the stanzpaketierten sheet metal parts of the stator lamination 51 When punching out only be carried out accordingly.

Claims (13)

Electric motor, comprising a motor housing, in which bearings are provided for supporting the rotor shaft, wherein in the motor housing a stator lamination is provided on which a stator winding is arranged, wherein in the motor housing with the rotor shaft rotatably connected rotor lamination stack is provided, characterized in that the rotor lamination stack Recesses are provided which extend from the one axial end side of the rotor core to the other axial end face of the rotor core, wherein within the housing air-conveying means are provided, in particular for driving an air flow within the housing. Electric motor according to at least one of the preceding Claims, characterized in that the air conveying means are executed as a first, axially in front of the first end face of the rotor lamination stack arranged, rotatably connected to the rotor shaft fan and / or a second, axially behind the other end face of the rotor lamination stack arranged, rotatably connected to the rotor shaft fan. Electric motor according to at least one of the preceding Claims, characterized in that the air conveying means comprise baffles, which arranged on one or both end faces of the rotor lamination stack are. Electric motor according to at least one of the preceding Claims, characterized in that associated with each recess at least one air baffle is. Electric motor according to at least one of the preceding Claims, characterized in that the respective air guide plate in such a way accomplished is that caught in the rotational movement of the rotor in the circumferential direction Air is deflected in the axial direction, ie in particular in the axial Direction into the estuary the recess introduced on the end face of the rotor core becomes. Electric motor according to at least one of the preceding claims, characterized in that the respective air guide plate curved executed is, in particular arched such that catching and diverting the air with lower vortex losses is executable than in each case just executed air guide plate. Electric motor according to at least one of the preceding Claims, characterized in that for the return line the funded along the recess Air at least partially the air gap between the rotor and stator is provided. Electric motor according to at least one of the preceding Claims, characterized in that for the return line the funded along the recess Air at least partially a recess in the stator lamination, in particular an axially extending recess in the stator lamination, provided is. Electric motor according to at least one of the preceding Claims, characterized in that for the return line the funded along the recess Air at least partially a recess in the motor housing, in particular an axially extending recess in the motor housing, is provided. Electric motor according to at least one of the preceding Claims, characterized in that the recess, in particular in the rotor laminated core and / or laminated stator core, one or more on the surface of the Laminated core has running groove. Electric motor according to at least one of the preceding Claims, characterized in that the housing of the motor or a the casing surrounding the motor part jacket channels for a cooling medium, in particular a liquid Cooling medium, especially water. Electric motor according to at least one of the preceding Claims, characterized in that the electric motor is a synchronous machine, in particular externally excited synchronous machine, an asynchronous machine or a Reluctance machine is. Electric motor according to at least one of the preceding Claims, characterized in that the rotor laminated core from stanzpaketierten individual sheets is composed, with each single sheet punched to form having the recesses.