DE102020131438A1 - Process for manufacturing an electrical machine - Google Patents

Abstract

The invention relates to a method for producing an electrical machine (2) comprising a rotor (3) and a stator (4), the stator (4) having a stator body (5) with a large number of stator teeth (6) distributed around the circumference and between the stator teeth (6) formed stator slots (7), and wherein in the stator slots (7) stator windings (8) are arranged, wherein a slot insulation paper (10) is arranged in the stator slots (7) which separates the stator windings (8) from the stator slots (7) electrically insulated, the slot insulation paper (10) being placed in one of the stator slots (9) and a pressure tool (11) that can be expanded under pressure then being inserted into the stator slot (7), the pressure tool (11) then being pressurized in this way is that it expands in the stator slot (7) until it presses the entire surface of the slot insulation paper (10) against the stator slot (7), with the pressure then being released from the pressing tool (11) and the on pressing tool (11) is removed from the stator slot (7).

Description

The invention relates to a method for producing an electrical machine comprising a rotor and a stator, the stator having a stator body with a plurality of stator teeth distributed around the circumference and stator slots formed between the stator teeth, and stator windings being arranged in the stator slots, with a slot insulation paper is arranged, which electrically insulates the stator windings from the stator slots.

Stator windings of electrical machines, in particular electric motors, are typically used in stator slots of a stator and are insulated from the stator with an insulating film, such as slot insulating paper. A slot insulation paper is absolutely necessary for the basic insulation of an electrical machine. The slot insulation paper must be held securely in position until the stator winding is inserted into a stator slot so that the desired insulation can be guaranteed throughout.

However, it has been shown in practice that damage to the insulating paper often occurs when stator windings are inserted into the corresponding stator slots, since its position is changed when the stator winding is inserted, which can lead to unwanted folding and winding of the insulating paper, for example.

It is therefore the object of the present invention to provide a method for producing an electrical machine that is improved with regard to secured slot insulation.

This object is achieved by a method for producing an electrical machine, comprising a rotor and a stator, wherein the stator has a stator body with a plurality of stator teeth arranged distributed around the circumference and stator slots formed between the stator teeth, and wherein stator windings are arranged in the stator slots, wherein in a slot insulation paper is arranged in each of the stator slots, which electrically insulates the stator windings from the stator slots, with the slot insulation paper being placed in one of the stator slots and a pressing tool that can be expanded under pressure then being inserted into the stator slot, with the pressing tool then being pressurized in such a way that it expands in the stator slot until it presses the entire surface of the slot insulation paper against the stator slot, with the pressure then being released from the pressing tool and the pressing tool being removed from the stator slot.

As a result, the slot insulation paper can be pressed evenly and securely in the stator slot, so that there is no change in the position of the slot insulation paper in the stator slot when the stator winding is subsequently inserted.

First, the individual elements of the claimed subject matter of the invention are explained in the order in which they are mentioned in the set of claims, and particularly preferred configurations of the subject matter of the invention are described below.

Electrical machines are used to convert electrical energy into mechanical energy and/or vice versa, and generally include a stationary part referred to as a stator, stand or armature and a part referred to as a rotor or runner and arranged movably relative to the stationary part.

In the case of electrical machines designed as rotary machines, a distinction is made in particular between radial flux machines and axial flux machines. A radial flux machine is characterized in that the magnetic field lines extend in the radial direction in the air gap formed between rotor and stator, while in the case of an axial flux machine the magnetic field lines extend in the axial direction in the air gap formed between rotor and stator.

In connection with the invention, radial flow machines are particularly suitable for an application of the method according to the invention.

The electric machine is intended in particular for use within a drive train of a hybrid or all-electric motor vehicle.

In particular, the electrical machine is dimensioned in such a way that vehicle speeds of more than 50 km/h, preferably more than 80 km/h and in particular more than 100 km/h can be achieved. The electric motor particularly preferably has an output of more than 30 kW, preferably more than 50 kW and in particular more than 70 kW. Furthermore, it is preferred that the electrical machine provides speeds greater than 5,000 rpm, particularly preferably greater than 10,000 rpm, very particularly preferably greater than 12,500 rpm.

A rotor is the spinning (rotating) part of an electrical machine. In particular, one speaks of a rotor when there is also a stator.

In connection with the invention, it is preferred that the stator is a stator of a radial flow machine. The stator of a radial flow machine is usually constructed cylindrically and generally consists of electrical laminations that are electrically insulated from one another and are constructed in layers and packaged to form laminated cores. This structure keeps the eddy currents in the stator caused by the stator field low. Distributed over the circumference, grooves or peripherally closed recesses are let into the electrical lamination running parallel to the rotor shaft and accommodate the stator winding or parts of the stator winding. Depending on the construction towards the surface, the slots can be closed with locking elements such as locking wedges or covers or the like in order to prevent the stator winding from being detached.

Stator teeth are components of the stator body that are designed as circumferentially spaced, tooth-like parts of the stator body that point radially inwards or radially outwards and between their free ends and a rotor body an air gap for the magnetic field is formed.

The stator of a radial flow machine is usually constructed cylindrically and generally consists of electrical laminations that are electrically insulated from one another and are constructed in layers and packaged to form laminated cores. This structure keeps the eddy currents in the stator caused by the stator field low. Distributed over the circumference, grooves or peripherally closed recesses are let into the electrical lamination running parallel to the rotor shaft and accommodate the stator winding or parts of the stator winding. Depending on the construction towards the surface, the slots can be closed with locking elements such as locking wedges or covers or the like in order to prevent the stator winding from being detached.

According to a preferred embodiment of the invention, it can be advantageous for the pressing tool to have a cavity that can be pressurized and that expands under pressure.

Furthermore, it can be advantageous that the pressing tool has a pressure line that does not expand under pressure, which can be inserted into the stator slot, and a cavity that can be expanded under pressure is arranged on the pressure line.

In a further development of the invention, it can also be preferred that the stator slot and/or the slot insulation paper is/are wetted with an adhesive at least in sections.

The invention will be explained in more detail below with reference to figures without restricting the general inventive idea. The figures are only of a schematic nature and serve exclusively for understanding the invention. The same elements are provided with the same reference numbers. The different features of the various exemplary embodiments can also be freely combined with one another within what is technically feasible.

• 1 eine elektrische Maschine in einer schematischen Querschnittsansicht,
• 2 eine Detailansicht einer Statornut mit eingesetztem Andrückwerkzeug in zwei unterschiedlichen Betriebszuständen,
• 3 eine Detailansicht einer Statornut mit eingesetztem Andrückwerkzeug in zwei unterschiedlichen Betriebszuständen, und
• 4 ein Kraftfahrzeug mit einer im Antriebsstrang angeordneten elektrischen Maschine.

Show it:

• 1 an electrical machine in a schematic cross-sectional view,
• 2 a detailed view of a stator slot with the pressing tool used in two different operating states,
• 3 a detailed view of a stator slot with the pressing tool used in two different operating states, and
• 4 a motor vehicle with an electric machine arranged in the drive train.

1 shows an electrical machine 2, comprising a rotor 3 and a stator 4, the stator 4 having a stator body 5 with a plurality of stator teeth 6 distributed circumferentially and stator slots 7 formed between the stator teeth 6, as shown in Figures 2-3.

The structure of the stator 3 is based on the 2-3 explained in more detail. The stator windings 8 are arranged in the stator slots 7 , with slot insulation paper 10 also being present in each of the stator slots 7 , which electrically insulates the stator windings 8 from the stator slots 7 .

The stator 4 can be manufactured as follows. First, the slot insulation paper 10 is placed in one of the stator slots 7 . A pressing tool 11 that can be expanded under pressure is then introduced into the stator slot 7 . Pressure is then applied to the pressing tool 11 in such a way that it expands in the stator slot 7 until it presses the slot insulating paper 10 against the stator slot 7 over its entire surface. After that, the pressure is released from the pressing tool 11 and the pressing tool 11 is removed from the stator slot 7 .

As in the 2-3 As can be seen, the pressing tool 11 has a cavity 12 which can be acted upon by pressure and which expands under pressure. This is in the in 2 shown embodiment shown. The pressing tool 11 can be pushed into the stator slot 7 from a radial or axial direction. The cavity 12 of the pressing tool 12 by means of a fluid, such as pressure air or hydraulic oil, pressurized from the inside so that the cavity 12 expands. For this purpose, the region of the pressing tool 11 delimiting the cavity 12 can be formed from a pressure-resistant material that can be expanded under pressure, such as an elastically deformable plastic.

the 3 shows an alternative embodiment of the pressing tool 11, in which the pressing tool 11 has a pressure line 13 that does not expand under pressure, which can be inserted into the stator slot 7, and on the pressure line 13 a cavity 12 that expands under pressure is arranged.

In the region of the pressure line 13 introduced into the stator slot 7 , the pressing tool 11 is surrounded by a pressure-tight membrane which defines the expandable cavity 12 . The cavity 12 of the pressing tool 11 is then pressurized from the inside by means of a fluid, so that the lamella and the cavity 12 expand.

The stator slot 7 and/or the slot insulation paper 10 can be wetted with an adhesive at least in sections to improve the fixing of the slot insulation paper 10 in relation to the stator slot 7 .

The pressing tool 11 can be adapted to the number of slots in the stator 4 . Is shown in the embodiments of 2-3 only one detail for a stator slot 7.

An electric machine 2 produced by the method according to the invention can be used in particular within an all-electric or hybrid drive train 15 of a motor vehicle 15, as is exemplified in FIG 4 is shown.

The invention is not limited to the embodiments shown in the figures. The foregoing description is therefore not to be considered as limiting but as illustrative. The following patent claims are to be understood in such a way that a mentioned feature is present in at least one embodiment of the invention. This does not exclude the presence of other features. If the patent claims and the above description define 'first' and 'second' feature, this designation serves to distinguish between two similar features without establishing a ranking.

Reference List

2

electrical machine

3

rotor

4

stator

5

stator body

6

stator teeth

7

stator slots

8th

stator windings

10

slot insulation paper

11

pressing tool

12

cavity

13

pressure line

14

drive support

15

motor vehicle

Claims (4)

Method for producing an electrical machine (2), comprising a rotor (3) and a stator (4), the stator (4) having a stator body (5) with a large number of stator teeth (6) distributed around the circumference and between the stator teeth (6) formed stator slots (7), and wherein stator windings (8) are arranged in the stator slots (7), wherein a slot insulating paper (10) is arranged in each of the stator slots (9), which separates the stator windings (8) from the stator slots (7) electrically insulated, characterized in that the slot insulation paper (10) is placed in one of the stator slots (7) and then a pressure tool (11) that can be expanded under pressure is inserted into the stator slot (7), the pressure tool (11) then being subjected to pressure in this way is that it expands in the stator slot (7) until it presses the entire surface of the slot insulation paper (10) against the stator slot (9), with the pressure then being released from the pressing tool (11) and the Andr backing tool (11) is removed from the stator slot (7). procedure after claim 1 , characterized in that the pressing tool (11) has a cavity (12) which can be acted upon by pressure and which expands under pressure. Method according to one of the preceding claims, characterized in that the pressing tool (11) has a pressure line (13) which does not expand under pressure and which can be inserted into the stator slot (7), and on the pressure line (13) a cavity which can be expanded under pressure (12) is arranged. Method according to one of the preceding claims, characterized in that the stator slot (7) and/or the slot insulation paper (10) is at least partially wetted by an adhesive / are.

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