DE102009012477A1 - Electric motor has stator, whose stator windings are surrounded by stator lamination stack, and stator inner sleeve is provided, which limits spatial area for stator winding inwards to rotor of motor - Google Patents

Abstract

The electric motor has a stator, whose stator windings (3) are surrounded by a stator lamination stack (1). A stator inner sleeve (4) is provided, which limits the spatial area for the stator winding inwards to the rotor of the motor. The stator winding is provided between the stator lamination stack and the stator inner sleeve by a sealing compound in a sealing manner. The sealing compound contains a portion of particles. The sealing compound contains an epoxy resin and a polyester resin. The particles contain silicate or silicate glass, particularly in their wall.

Description

The The invention relates to an electric motor.

It It is known that electric motors have a rotor and a stator. The rotor includes in execution of the electric motor as an asynchronous motor a short circuit cage and at execution of the electric motor as a synchronous motor permanent magnets. The stator points a stator winding provided on a laminated stator core.

Of the The invention is therefore based on the object of developing an electric motor, the engine has a high performance in a small volume should have.

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 comprises a stator whose stator winding is surrounded by a laminated stator core,
in which
a stator inner sleeve is provided which limits the space region for the stator winding inwards, that is to say towards the rotor of the motor,
wherein between Statorblechpaket and Statorinnenhülse the stator winding is encapsulated by potting compound,
wherein the potting compound contains a proportion of particles.

From The advantage here is that a high stability is achieved because the potting compound the stator winding and the stator inner sleeve mechanically stabilized. Furthermore will heat dissipation from the stator winding to the laminated stator core and from there via the motor housing to the Environment improved. Because the potting compound is executed accordingly. Furthermore are also the deflection of the stator winding, ie the axial out of the laminated stator core areas by means of the potting compound supported and thus mechanically stabilized, especially in the presence of Rüttelschwingungen or similar. Furthermore, the heat dissipation from the deflection over the Casting compound achievable. The potting compound also contributes to increasing the electrical insulation distance of the stator winding leads against each other at.

The Statorinnenhülse on the one hand as a limitation when casting the stator with potting compound usable and on the other hand stabilizes this Statorinnenhülse also the axially protruding from the stator lamination areas. Of Further, it limits and stabilizes the neighboring area on potting compound and carries thus also for improved heat dissipation from the deflection of the stator winding at.

at an advantageous embodiment, the proportion of particles between zero and fifty Volume percentages, in particular between 20 and 40 percent by volume, in particular 30% by volume. The advantage here is that the Total elasticity and compressibility the potting compound including particles is sufficiently improved to the on the stator inner sleeve acting forces to reduce so that a destruction is connected.

at An advantageous embodiment is the compressibility of the particles greater than the compressibility the remaining potting compound, in particular at least five times larger, in particular at least ten times bigger. From The advantage here is that the stator inner sleeve is sufficiently protected against overloading.

at an advantageous embodiment, the stator inner sleeve is made a fiber composite material manufactured. The advantage here is that a particularly high strength can be reached at low weight. It also makes it possible that the potting compound is at least cohesively very good attachable, because the composite itself cast with a resin is, and thus a very good adhesion is achieved.

at In an advantageous embodiment, the potting compound contains an epoxy resin and / or a polyester resin. The advantage here is that thermally conductive material, which has a high electrical insulation strength against leakage currents and a high electrical breakdown strength, is usable.

at According to an advantageous embodiment, the particles are substantially as a hollow body executed in particular with an average diameter between 1 μm and 1 mm, in particular between 10 microns and 300 μm. The advantage here is that a particularly high amount of particles is mixable and a collapse of a particle preventable is. In comparison, a particle that is several millimeters in size can be used collapse and thus lead to destruction. In addition, the electric Insulating strength better guaranteed.

at In an advantageous embodiment, the particles contain silicate or silicate glass, especially in its wall. Is an advantage in that a particularly simple production is possible and good miscibility with the resin of the potting compound achievable is. In particular, this is done by appropriately preferred surface tensions reached.

at In an advantageous embodiment, the stator winding is axially out of the laminated stator core. The advantage here is that the Deflection region of the stator winding is heatable by means of the potting compound.

at an advantageous embodiment, the stator lamination is in a this surrounding motor housing intended. The advantage here is that the heat can be easily transferred to the motor housing is. In particular, the Statorblechpaket shrunk connectable and thus a low heat transfer resistance reachable. For shrunken joining is of joining the Stator laminations and the motor housing a temperature difference produces these two parts, in particular of more than 50 Kelvin.

at an advantageous embodiment supports the stator inner sleeve together with a part of the potting compound the protruding part of the stator winding mechanically and leads Heat off this part from the stator lamination and / or motor housing. The advantage here is that the protruding portions of the Winding over the otherwise far away stator laminated core are heatable. This is especially important because in the deflection particularly high temperatures are achievable, which are also called hot spots bezeichenbar.

at an advantageous embodiment of the heat transfer resistance from the protruding part over the Potting compound to stator laminated core out larger than from the protruding Part to the motor housing out. The advantage here is that improved cooling can be achieved is.

at In an advantageous embodiment, the stator winding is made of copper or a copper-containing material. The advantage here is that a high thermal conductivity and low ohmic losses are achievable.

at an advantageous embodiment, the potting compound with a high specific thermal conductivity executed especially with at least ten times better than air. From Advantage is that the heat dissipation is improvable, especially for the deflection, which would be surrounded by potting compound of air.

at an advantageous embodiment, the motor housing on cooling channels, in particular of a cooling medium flow-through, in particular of a liquid cooling medium flow-through Cooling channels. From The advantage here is that the motor housing and on the inside adjacent laminated stator core are well heatable.

at In an advantageous embodiment, the stator winding is radial arranged inside the stator lamination, several on the perimeter arranged grooves, in particular axial grooves, has, and the Stator winding is embedded in potting compound, which the grooves fills and radially outward bounded by the laminated stator core and radially inward by the stator inner sleeve is. The advantage here is that the stator winding is designed as an air gap winding, that is not inserted in grooves of Statorblechpakets, and a Holding the stator is provided by means of the potting compound in the circumferential direction.

Further Advantages emerge from the subclaims.

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

In the 1 an inventive electric motor is shown in sectional view.

In the 2 an enlarged section is shown in 1 is marked.

The rotor of the motor is over bearings 8th in the motor housing 2 stored on one side with a flange 9 is closed, with a sealing ring 6 between flange part 9 and motor housing 2 is provided.

A stator core 1 at which the stator winding 3 is arranged on the inside of the motor housing 2 provided, in turn, the inside of the stator by means of a stator inner sleeve 4 is limited to the interior of the engine, so towards the rotor.

Between stator inner sleeve 4 and motor housing 2 Potting compound is poured in, so that the stator winding 3 is held mechanically stabilized and good heat-conducting with the motor housing 2 connected is. For this purpose, the potting compound is designed with a correspondingly high thermal conductivity. In addition, in the motor housing 2 cooling channels 5 provided, which can be flowed through with a cooling medium, preferably oil or water.

The stator winding 3 is axially at both axial ends of the stator lamination stack 1 out. This outstanding part of the stator winding is by means of the stator inner sleeve 4 and the adjacently arranged, also outstanding Vergussmassenbereich supported.

At the first axial end portion of the rotor is an angle sensor 7 provided for detecting the angular position of the rotor.

The stator inner sleeve 4 is preferably off a fiber composite material.

The Potting compound is made of epoxy resin and / or a polyester resin executed an admixture of preferably 30% by volume of microparticles is mixed.

The Microparticles consist of silicate, especially in essence in spherical form.

Since the stator lamination stack is arranged on the outer side of the stator, in particular adjacent to the motor housing 2 , is due to temperature increases on the stator inner sleeve 4 exerted a pressure to the inside, the destruction of the stator inner sleeve 4 could lead. However, this is prevented by the fact that the admixtures reduce these pressure forces. Because the microparticles are designed to be compressible, in particular much more compressible than the rest of the potting compound, which is not or only with difficulty compressible.

Preferably the microparticles are made of silicate beads. Important is that the microparticles as a cavity-containing beads accomplished become.

at other embodiments of the invention also admixtures between 1 and 50 percent by volume are advantageous.

In the 3 the structure of the stator is explained in more detail, wherein in 4 an enlarged section is shown. Here, the stator winding is provided as an air gap winding, that is radially inside the stator lamination stack 1 arranged and radially outside the rotor, wherein the rotor in the radial direction, a minimum distance is maintained.

The potting compound 40 surrounds and penetrates the stator winding 3 , Since the stator lamination also axial grooves 41 has, penetrates into the potting compound, thus the stator winding is held in a form-fitting manner in the circumferential direction by means of the cured potting compound 40 ,

The Statorinnenhülse thus limits the potting compound. The holding function in the circumferential direction is through the grooves 41 filling potting carried out despite the particles in the potting compound, on the one hand increase the compressibility, the stability is increased by the Statorinnenhülse, and on the other hand, reduce the creepage distances and creep, so reduce the dielectric strength.

1

stator lamination

2

motor housing

3

stator

4

Statorinnenhülse

5

cooling channels

6

seal

7

angle sensor

8th

camp

9

flange

40

potting compound

41

axial groove

Claims (15)

Electric motor, comprising a stator whose stator winding are surrounded by a laminated stator core, characterized in that a stator inner sleeve is provided which limits the space for the stator winding inwards, ie towards the rotor of the motor, wherein between Statorblechpaket and Statorinnenhülse the stator winding by means of potting compound is provided potted, wherein the potting compound contains a proportion of particles. Electric motor according to at least one of the preceding Claims, characterized in that the proportion of particles between zero and fifty percent by volume is, in particular between 20 and 40 percent by volume, in particular 30 By volume. Electric motor according to at least one of the preceding Claims, characterized in that the compressibility of the particles is greater as the compressibility the remaining potting compound, in particular at least five times larger, in particular at least ten times bigger. Electric motor according to at least one of the preceding Claims, characterized in that the stator inner sleeve of a fiber composite material is made. Electric motor according to at least one of the preceding Claims, characterized in that the potting compound is an epoxy resin and / or contains a polyester resin. Electric motor according to at least one of the preceding Claims, characterized in that the particles are designed substantially as hollow bodies, in particular with an average diameter of between 1 μm and 1 mm, in particular between 10 μm and 300 μm. Electric motor according to at least one of the preceding Claims, characterized in that the particles silicate or silicate glass contained, in particular in its wall. Electric motor according to at least one of the preceding Claims, characterized in that the stator winding axially from the stator lamination protrudes. Electric motor according to at least one of the preceding Claims, characterized in that the stator lamination in a this surrounding motor housing is provided. Electric motor according to at least one of the preceding Claims, characterized in that the stator inner sleeve together with a part the potting compound the protruding part of the stator winding mechanically supports and heat discharges from this part to the stator lamination and / or motor housing. Electric motor according to at least one of the preceding Claims, characterized in that the heat transfer resistance from the protruding Part about The potting compound towards the stator lamination stack is therefore larger than the protruding one Part to the motor housing out. Electric motor according to at least one of the preceding Claims, characterized in that the stator winding made of copper or a copper-containing material is executed. Electric motor according to at least one of the preceding Claims, characterized in that the potting compound with a high specific thermal conductivity accomplished is, in particular, at least ten times better than air. Electric motor according to at least one of the preceding Claims, characterized in that the motor housing has cooling channels, in particular of a cooling medium flow-through, in particular of a liquid Cooling medium can flow through cooling channels. Electric motor according to at least one of the preceding Claims, characterized in that the stator winding is radially inward the stator lamination stack is arranged, which has a plurality of circumferentially arranged Grooves, in particular axial grooves, and the stator winding embedded in potting compound, which fills the grooves and radially outward bounded by the laminated stator core and radially inward by the stator inner sleeve is.