DE102018112230B3 - Stator and electric machine - Google Patents

Abstract

The invention relates to a stator (1), in particular for an electrical machine (6), with a stator sleeve (2) and a laminated core (8) arranged inside the stator sleeve (2), which is connected to the stator sleeve (2) via an adhesive connection , wherein between the laminated core (8) and the stator sleeve (2) an adhesive gap (11) is arranged, wherein the stator (1) comprises one or more dowel pins (5) for adjusting the adhesive gap (11).

Description

The present invention relates to a stator, in particular for an electrical machine, comprising a stator sleeve and a stator core arranged within the laminated core, which is connected to the stator sleeve via an adhesive connection, wherein between the laminated core and the stator sleeve, a bonding gap is arranged. Furthermore, the invention relates to an electric machine with such a stator and a rotatable relative to the stator rotor.

An electric machine according to the preamble of claim 7 with a stator according to the preamble of claim 1, which comprises a stator sleeve, a laminated core disposed within the stator sleeve and a rotor rotatable relative to the stator, is known from US 5,156,774 DE 10 2011 079 157 B4 known.

The DE 10 2004 026 453 A1 describes an electric machine with a stator and a rotatable relative to the stator rotor with a yoke part on which permanent magnets are arranged. The permanent magnets are connected to the yoke part via an adhesive gap.

Electric machines use the rotor and the stator to convert electrical power into mechanical power by means of electromagnetic induction (electric motor) and vice versa (generator). The torque of the rotor determining the mechanical power of the electric machine thereby rests on the stationary stator and has to be transmitted by it to a holder structure in order to hold the stator in position. Occurring power losses due to heat must be dissipated by means of cooling.

In the case of an electric machine for a motor vehicle, the torque and thus power transmission from the holder structure to an auxiliary frame or directly to the vehicle body.

Especially for high-performance machines with a power of more than 1 kW, it is necessary to efficiently compensate and absorb the high torques and heat losses occurring at high power. The high demands on the cooling capacity and the tolerance quality with respect to coaxiality of rotor and stator corresponds to the prior art, a holder structure forming machine housing, in which the stator of the electric machine is positively and non-positively inserted. The machine housing usually has cooling fins or a cooling jacket to dissipate the power loss. However, such machine housings contribute significantly radially, so that the high tolerance quality and cooling performance are paid for with an increase in the effective machine diameter.

Large machine diameters are avoided on low power (less than 1 kW) micro machines by gluing the stator directly to the holder structure. This is possible due to the low torques and thus correspondingly low tolerance requirements.

Against this background, it is desirable to combine the advantages of the known adhesive bonding for micro machines with the advantages of the machine housing known for high-performance machines.

It is an object of the present invention to provide a stator for a high-performance electric machine and a high-performance electric machine which meets the high demands on torque absorption, tolerance quality and cooling capacity and at the same time allows a reduction of the effective machine diameter compared with the prior art.

This object is achieved by a stator, in particular for an electric machine, with a stator sleeve and a stator core arranged inside the laminated core, which is connected to the stator sleeve via an adhesive connection, wherein between the laminated core and the stator sleeve, a bonding gap is arranged, wherein the stator has one or more dowel pins for adjusting the adhesive gap.

About the or the dowel pins relevant for the mechanical strength and tightness against a cooling medium adhesive gap can be adjusted. Hereby, a stator device is advantageously provided which can be installed in a space-saving manner in an electric machine of reduced effective machine diameter and at the same time meets the high demands on tolerance quality, torque absorption and cooling capacity in high-performance machines. Furthermore, the stresses that are forcibly produced in the case of a non-positive connection within the laminated core can be avoided by the adhesive bond.

Preferably, the stator sleeve is cylindrical and arranged coaxially with the laminated core.

According to an advantageous embodiment of the invention, the one or more dowel pins are at least partially disposed in the bonding gap between the laminated core and the stator, so that the dowel pins directly determine the bonding gap. Preferably, in the laminated core and / or in the stator sleeve, a recess, in particular one on the Outer diameter of the dowel adapted groove, be provided, which is open to the adhesive gap.

An advantageous embodiment provides that the stator sleeve has a flange surface, which preferably extends in a radial direction of the stator sleeve. The flange may be formed in the manner of an annular surface which projects radially from the sleeve. Forces can be transmitted from the stator to a holding structure, for example a housing of an electrical machine, via the flange surface.

An embodiment has proved to be advantageous in which a sealing element is arranged on the flange surface. In the arrangement of the stator in a housing of an electrical machine, an undesired penetration of coolant between an outer contour of the stator sleeve and an inner contour of the housing can be prevented via the sealing element.

According to an advantageous embodiment, the stator is made of a light metal, in particular aluminum. An alternative, advantageous embodiment provides that the stator sleeve is made of a plastic, in particular a fiber-reinforced plastic such as a carbon fiber reinforced plastic (CFRP), is formed. Such embodiments have the advantage that a reduction of the weight of the stator can be achieved.

It has proven to be advantageous if the stator sleeve has a lateral surface which is liquid-tight. The stator sleeve can thus provide a liquid-sealing effect that would otherwise have to be taken over by a housing enclosing the stator.

Another object of the invention is an electrical machine with a stator comprising a stator and a stator disposed within the stator core laminated core, which is connected to the stator via an adhesive connection, wherein between the laminated core and the stator sleeve, a bonding gap is arranged, and with a rotatable rotor relative to the stator, wherein the stator has one or more dowel pins for adjusting the adhesive gap.

In the electrical machine according to the invention, the same advantages can be achieved as have been described in connection with the stator according to the invention.

According to an advantageous embodiment of the electrical machine, this has a housing, wherein the stator sleeve has a flange, which preferably extends in a radial direction of the stator, wherein the flange is designed as an annular surface with an outer diameter which is adapted to an inner diameter of the housing , In this respect, the outer diameter of the flange surface - as a pass diameter - and the inner diameter of the housing a fit, in particular a press fit, form. This offers the advantage that the stator can be positioned improved within the housing in the radial direction. Slippage of the stator in the radial direction can thus be avoided.

According to an advantageous embodiment, the stator sleeve is positively and / or non-positively connected to the housing, so that forces can be derived between the stator and the housing.

An embodiment has proved advantageous in which the flange surface has at least one recess for passing through a connecting element, in particular a connecting pin or a screw, which connects the stator sleeve to the housing in a manner secure against rotation. In this respect, the flange is preferably bolted to the housing and / or pinned.

According to an advantageous embodiment, the electric machine has a, in particular liquid, cooling medium, which is in contact with the adhesive gap. About the cooling medium, the cooling of the stator can be done. In particular, the cooling is designed as a direct winding head cooling, in which from the sheet metal package projecting end windings are lapped by the cooling medium.

Preferably, the electric machine is an electric machine with a power of more than 1 kW, preferably more than 200 kW. The electric machine is particularly suitable as a drive of a vehicle. The stator may have a winding.

• 1 eine elektrische Maschine mit einem Stator gemäß einer bevorzugten Ausführungsform der vorliegenden Erfindung in einer axial geschnittenen, perspektivischen Darstellung; und
• 2 eine perspektivische, radiale Schnittdarstellung durch die elektrische Maschine nach 1.

Further details, features and advantages of the invention will become apparent from the drawings and from the following description of preferred embodiments with reference to the drawings. The drawings illustrate only exemplary embodiments of the invention, which do not limit the inventive concept.

• 1 an electrical machine with a stator according to a preferred embodiment of the present invention in an axially sectioned perspective view; and
• 2 a perspective, radial section through the electric machine after 1 ,

1 schematically shows a perspective view of an electrical machine 6 according to a preferred embodiment of the present invention. At the electric machine 6 it is preferably an electric motor for a vehicle, with a power of more than 1 kW, preferably more than 200 kW.

The electric machine 6 has a stator according to the invention 1 and a coaxial with the stator 1 , Rotor disposed within the stator 7 on. The stator 1 includes a laminated core 8th as well as windings, of which in 1 only those from the front sides of the laminated core 8th protruding winding heads 9 are visible. The stator 1 generates a magnetic field that interacts with the magnetic field of the rotor 7 a rotation of the rotor 7 causes.

In the electric machine 6 Particularly high torques and thus forces on the stator occur 1 on. The stator device 10 must therefore be suitable to absorb these torques or forces or forward. In particular, a high tolerance quality must be maintained: If the coaxiality of Stator 1 and rotor 7 disturbed, it comes to wear and performance degradation. According to the high power, there are high heat developments due to power losses of the machine 6 , These must be compensated by an efficient cooling, here a direct winding head cooling. To meet these requirements, the stator has a stator sleeve 2 on. The stator sleeve 2 is formed of aluminum or of a plastic, for example a fiber-reinforced plastic. The laminated core 8th is inside the stator sleeve 2 arranged and with the stator sleeve 2 connected via an adhesive connection, wherein between the laminated core 8th and the stator sleeve 2 a glue gap 11 is arranged in 2 is shown in dashed lines. Furthermore, there are several dowel pins 5 provided, over which the adhesive gap 11 - So the filled with adhesive distance between the laminated core 8th and the stator sleeve 2 can be adjusted. The adhesive joint simplifies assembly and reduces stresses within the laminated core 8th ,

The width of the glue gap 11 determines the mechanical strength of the compound as well as its permeability to oil and other liquids. The dowel pins 5 , here are three dowel pins 5 , can partially in the bonding gap between the laminated core and the stator sleeve 2 be arranged. According to the embodiment it is provided that the stator sleeve 2 a flange extending in the radial direction 5 has, the recesses, in particular in the form of grooves having. In these recesses are the dowel pins 5 introduced such that they in the axial direction of the electric machine 6 , in particular the stator 1 , run. The grooves are at the glue gap 11 opened so that the dowel pins 5 partially in the glue gap 11 are arranged and on the laminated core 8th issue.

The flange surface 4 the stator sleeve 2 is annular and has a plurality of recesses for performing connecting elements 12 on. These recesses are arranged in the embodiment on a circular path. The connecting elements are designed as connecting pins or screws and connect the stator sleeve 2 against rotation with the housing 3 , In this respect, the flange surface 4 the stator sleeve 2 the transmission of forces from the stator 1 on the case 3 the electric machine 6 allows. The outer diameter of the flange surface 4 is dimensioned such that between the outer diameter of the flange 4 and the inner diameter of the housing 3 a fit, in particular a press fit exists.

Optionally, on the flange surface 4 a not shown in the figures sealing element may be arranged, via which an ingress of cooling medium between the stator 1 , in particular stator sleeve 2 , and housing 3 can be prevented. In addition, the lateral surface of the stator sleeve 2 be formed liquid-tight.

The stator sleeve is preferred 4 such with the case 3 connected that the adhesive gap 11 comes directly into contact with the cooling medium used for cooling. This will cause a direct cooling of the stator 1 allows. The cooling medium is preferably a liquid dielectric.

The electric machine described above 6 includes a stator 1 , which is a stator sleeve 2 and one within the stator sleeve 2 arranged laminated core 8th includes that with the stator sleeve 2 is connected via an adhesive connection, wherein between the laminated core 8th and the stator sleeve 2 a glue gap 11 is arranged, and with one opposite the stator 1 rotatable rotor 7 , Furthermore, there are several dowel pins 5 for adjusting the glue gap 11 intended. In this way, an electric machine 6 provided whose outer diameter is barely larger than the diameter of the laminated core 8th , Volume and weight of the component are advantageously reduced over the prior art. At the same time meets the electric machine 6 high demands

Torque absorption, tolerance quality and cooling capacity.

LIST OF REFERENCE NUMBERS

1

stator

2

stator

3

casing

4

flange

5

dowel

6

electric machine

7

rotor

8th

laminated core

9

winding

11

bonding gap

12

connecting element

Claims (11)

Stator for an electric machine (6), comprising a stator sleeve (2) and a laminated core (8) arranged within the stator sleeve (2), characterized in that the laminated core (8) is connected to the stator sleeve (2) via an adhesive connection, wherein between the laminated core (8) and the stator sleeve (2) an adhesive gap (11) is arranged, wherein the stator has one or more dowel pins (5) for adjusting the adhesive gap (11). Stator after Claim 1 , characterized in that the one or more dowel pins (5) at least partially in the adhesive gap (11) between the laminated core (8) and the stator sleeve (2) are arranged. Stator according to one of the preceding claims, characterized in that the stator sleeve (2) has a flange surface (4) which extends in a radial direction of the stator sleeve (2). Stator according to one of the preceding claims, characterized in that a sealing element is arranged on the flange surface (4). Stator according to one of the preceding claims, characterized in that the stator sleeve (2) made of a light metal, such as aluminum, or of a fiber-reinforced plastic, is formed. Stator according to one of the preceding claims, characterized in that the stator sleeve (2) has a lateral surface which is liquid-tight. Electric machine with a stator (1), which comprises a stator sleeve (2), a laminated core (8) arranged inside the stator sleeve (2) and a rotor (7) rotatable relative to the stator (1), characterized in that the laminated core ( 8) is connected to the stator sleeve (2) via an adhesive connection, wherein between the laminated core (8) and the stator sleeve (2) an adhesive gap (11) is arranged, wherein the electric machine one or more dowel pins (5) for adjusting the adhesive gap (11). Electric machine after Claim 7 characterized by a housing (3), said stator sleeve (2) having a flange surface (4) extending in a radial direction of said stator sleeve (2), said flange surface (4) being formed as an annular surface having an outside diameter adapted to an inner diameter of the housing (3). Electric machine according to one of the Claims 7 or 8th , characterized in that the stator sleeve (2) with the housing (3) is positively and / or non-positively connected. Electric machine according to one of the Claims 7 to 9 , characterized in that the flange surface (4) has at least one recess for passing through a connecting element (12), such as a connecting pin or a screw, which connects the stator sleeve (2) to the housing (3) against rotation. Electric machine according to one of the Claims 7 to 10 , characterized by a liquid cooling medium, which is in contact with the adhesive gap (11).

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