EP3900165A1

EP3900165A1 - Interconnection assembly for a rotating electrical machine, and rotating electrical machine

Info

Publication number: EP3900165A1
Application number: EP19835227.0A
Authority: EP
Inventors: Ahmad TAYBA; Xavier COLLIN
Original assignee: Valeo Equipements Electriques Moteur SAS
Current assignee: Valeo Equipements Electriques Moteur SAS
Priority date: 2018-12-20
Filing date: 2019-12-19
Publication date: 2021-10-27
Also published as: WO2020127858A1; FR3091062A1; CN113169634A; FR3091062B1

Abstract

The invention relates to an interconnection assembly (100) for a rotating electrical machine, comprising: - a first interconnection module (6) comprising a first contact (11) intended to be electrically connected to an end of a phase winding (5) of a stator of an electric motor (8) and a first connection terminal (20) electrically connected to the first contact (11), - a second interconnection module (7) comprising a second connection terminal (21) electrically connected to a second contact (14) that is intended to be electrically connected to an electronic control module (29) or to a power electronics module (10) of the rotating electrical machine, the first connection terminal (20) and the second connection terminal (21) being configured so as to come into electrical contact with a connection that is able to be detached in a connection direction. The invention also relates to a rotating electrical machine comprising the interconnection assembly (100).

Description

Title of the invention: Interconnection assembly for rotating electrical machine and electrical machine

rotating

[The present invention relates to an interconnection assembly for a rotating electrical machine as well as a rotating electrical machine equipped with such an interconnection assembly.

A rotating electrical machine is an electromechanical device, preferably polyphase, and making it possible to convert electrical energy into mechanical energy, or vice versa. A known application of rotary electrical machines in the automotive field is the alternator-starter: a device for automatically stopping and restarting a thermal engine of a motor vehicle which makes it possible to reduce fuel consumption and pollution, for example during a short stop at a red light.

A rotating electric machine includes:

- an electric motor comprising a rotor and a stator,

- a control system electrically controlling the electric motor.

More particularly, the control system comprises a power module making it possible to define a value of an electric current flowing in each of the electric phases of the stator of the electric motor, and a control device comprising a control module making it possible to control the power module according to certain environmental parameters and data measured on the motor vehicle.

The control system may also include a heat sink body and a cover to protect the electrical elements of the control system such as the power module and the control module.

In known manner, an interconnector is used which makes it possible to establish a correspondence between the ends of the phase windings of the stator and the power modules which are angularly offset relative to the ends of the phase windings of the stator. Patent application FR3056842 presents such an electric machine in which the ends of the stator phase windings are soldered to the terminals of an interconnector. The interconnector terminals are electrically linked to connection terminals via traces on which a support made of insulating material is overmolded. The connection terminals are projecting relative to the axial direction, that is to say in the same direction as the axis of rotation of the rotor of the electric motor. The connection terminals are electrically connected to the legs of the power modules. The electrical connection of each of the connection terminals with the legs of the power modules is carried out by means of a screw extending in a radial direction, that is to say a direction perpendicular to the axis of rotation of the rotor of the electric motor. .

This connection by means of screws extending in a radial direction is very restrictive. Indeed it requires the development of passage areas for a screwdriver.

These passage areas for the screwdriver can cause the shapes of the surrounding parts to become more complex. For example, it may be necessary to have a non-planar interface between the heat sink body and the control system cover. This non-planar interface results in the application of a more complex seal between the heat sink body and the control system cover.

It may also be necessary to mount the heat sink body and / or control system cover only after having made the screw connection between the connection terminals and the legs of the power modules. It is an important industrial constraint. It is indeed not possible to assemble a finished control system on the electric motor.

In addition screwing is a particularly slow assembly process and requires complex tools to automate in particular because of the handling of the screws. Furthermore, such a screw connection is not removable, that is to say that it is not possible to separate the connection terminals from the legs of the power modules without dismantling or destroying the connection.

An object of the present invention is to provide an interconnection assembly for a rotating electrical machine in order to at least largely respond to the above problems.

The invention relates to an interconnection assembly for a rotary electrical machine comprising:

- a first interconnection module comprising a first terminal intended to be electrically connected to one end of phase winding of a stator of an electric motor and a first connection terminal electrically connected to the first terminal,

- a second interconnection module comprising a second connection terminal electrically connected to a second terminal intended to be electrically connected to an electronic control module or to an electronic power module of the rotary electrical machine,

the first connection terminal and the second connection terminal being configured to come into electrical contact according to a removable connection in a connection direction, in particular the direction of the axis of rotation O of the electric motor.

The use of such an interconnection assembly facilitates the assembly of the control system of the rotary electrical machine on the electric motor. Indeed, this assembly does not require screws or any other non-removable electrical connection device to establish the electrical connection between the phase windings of the electric motor and the electronic modules of the control system. Assembly is faster and does not require complex tools.

Such an interconnection assembly also facilitates the separation, for example during disassembly, of the electric motor control system. It is thus possible to replace the control system or the electric motor without complex or destructive disassembly. In addition, this removable connection makes it possible to reduce the bulk since it does not require an additional fixing system such as screws.

The interconnection assembly allows greater flexibility in the manufacture of the rotary electrical machine. It is indeed possible to separately manufacture the control system, on which is fixed the second interconnection module, and the electric motor, on which is fixed the first interconnection module, then to assemble them in a last step.

According to an additional feature of the invention, the electrical contact between the first connection terminal and the second connection terminal is ensured by an elastic conductive element.

The use of a conductive elastic element improves the electrical contact between the first connection terminal and the second connection terminal by allowing tolerances in the shape of the connection terminals and positioning between the larger connection terminals, these tolerances which can be compensated by the elasticity of the conductive elastic element.

According to an additional characteristic of the invention, the electrical contact between the first connection terminal and the second connection terminal is ensured by a plug-in, one of the first connection terminal and the second connection terminal comprises a male connection member , the other of the first connection terminal and the second connection terminal comprises a female connection member.

According to an additional characteristic of the invention, the female connection member comprises a cylindrical socket and the male connection member comprises a plug capable of being inserted into the cylindrical socket.

According to an additional characteristic of the invention, the first terminal and the first connection terminal of the first interconnection module are overmolded in a first support made of an electrical insulating material, in particular a plastic material, and / or the second terminal and the second terminal of the second interconnection module are overmolded in a second support made of an electrical insulating material, in particular a plastic material. According to an additional characteristic of the invention, the first interconnection module comprises a plurality of first terminals and first connection terminals and / or the second interconnection module comprises a plurality of second terminals and second connection terminals.

According to an additional characteristic of the invention, the first interconnection module comprises a sensor.

According to an additional characteristic of the invention, the sensor is a temperature sensor and / or an angular position sensor capable of measuring the angular position and / or the speed of a rotor of the electric motor.

According to an additional characteristic of the invention, the first interconnection module and / or the second interconnection module comprises a magnetic core provided with an air gap where a Hall effect sensor is intended to be arranged in order to measure a current.

The invention also relates to a rotary electric machine comprising:

- an interconnection assembly according to one of the preceding claims,

- an electric motor comprising a stator comprising a body and a winding formed by a plurality of phase windings, each phase winding comprising at least one end electrically connected to the first terminals of the first interconnection module,

- an electronic control system for the rotary electrical machine electrically connected to the second terminals of the second interconnection module, and comprising a heat sink body receiving an electronic control module and / or an electronic power module,

the first interconnection module being integral with the stator body and the second interconnection module being integral with the heat sink body.

According to an additional characteristic of the invention, the heat sink body is closed by a cover, the interface zone between the heat sink body and the cover being flat.

An interface zone between the heat sink body and the cover allows easy installation of a seal. In particular, it is easier to remove the seal automatically. The invention will be better understood on reading the description which follows of non-limiting examples of implementation thereof and on examining the appended drawing in which:

- Figure 1 shows a rotary electrical machine equipped with an interconnection assembly according to a first embodiment of the invention

FIG. 2 represents the first interconnection module and the second interconnection module of the interconnection assembly of FIG. 1,

FIG. 3 represents the second interconnection module of the interconnection assembly of FIG. 1,

FIG. 4 represents the terminals and connection terminals of the first interconnection module of the interconnection assembly of FIG. 1,

FIG. 5 represents the terminals and connection terminals of the second interconnection module of the interconnection assembly of FIG. 1,

FIG. 6 represents an interconnection module of an interconnection assembly according to a second embodiment,

FIG. 7 schematically represents a section of the connection terminals of the first interconnection module and of the second interconnection module of the interconnection assembly of FIG. 1.

In all the figures, identical elements or ensuring the same function bear the same reference numbers. The following embodiments are examples. Although the description refers to one or more embodiments, this does not necessarily mean that each reference relates to the same embodiment or that the characteristics apply only to a single embodiment. Simple features of different embodiments can also be combined or interchanged to provide other embodiments.

FIG. 1 represents a rotary electric machine 1 comprising an electric motor 8 and a control system 2.

The electric motor 8 comprises a rotor 3 with an axis of rotation O and a stator 4

The stator 4 surrounds the rotor 3 with the presence of an air gap between the internal periphery of the stator 4 and the external periphery of the rotor 3. The stator 4 is fixedly mounted in a casing 26 provided with a front bearing and a rear landing. Room allowing the circulation of a heat transfer fluid can be carried out between the front bearing and the rear bearing of the casing 26 so as to improve the cooling of the electric motor 8.

The rotary electrical machine 1 is able to operate in a generator mode in particular to supply energy to a battery and to the on-board network of a vehicle, and in an engine mode, not only, for example, to ensure the starting of 'a vehicle engine, but also, for example, to participate in the traction of the vehicle alone or in combination with the engine.

The rotor 3 comprises for example a body in the form of a pack of sheets, permanent magnets being implanted in cavities of the body.

The stator 4 comprises for example a body constituted by a pack of sheets as well as phase windings. The body can be formed by a stack of sheets of sheets held in the form of a pack by means of a suitable fixing system. The stator body is for example provided with teeth defining two by two of the notches for mounting the phase windings 5 forming the stator winding 4.

Each phase winding 5 comprises a first end and a second end 12. The first end of the phase windings 5 is for example electrically connected to a neutral bar.

The second end of the phase windings 5 is electrically connected to a first terminal 11 of a first interconnection module 6.

The first interconnection module 6 further comprises:

a first connection terminal 20 electrically connected to the first terminal

1 1,

- A first support 16 made of an insulating material, in particular a plastic material.

The first terminal 11 and the first connection terminal 20 are for example overmolded in the first support 16. FIG. 4 represents the first terminal 11 and the first connection terminal 20 before the first support 16 is overmolded.

Terminal 1 comprises a first end to which the first terminal 1 1 is fixed and a second end to which the second end 12 of the phase winding is electrically connected 5. This electrical connection is for example made by welding or soldering or crimping .

The first connection terminal 20 and the first terminal 1 1 are for example linked by crimping.

In other embodiments, the first connection terminal 20 and the first terminal 11 are force-fitted or welded or brazed or screwed.

The first interconnection module 6 has for example a generally annular shape.

The first interconnection module 6 is for example screwed or riveted to the rear bearing of the stator 26 of the electric motor 8.

The first interconnection module 6 comprises for example six first terminals and six first connection terminals 20 as shown in FIG. 2 for a hexaphase electric motor 8.

The control system 2 comprises a second interconnection module 7.

The first terminal 1 1 may comprise between its first end and its second end an intermediate part. The intermediate part is for example in the form of a circular arc. It makes it possible to establish a correspondence between the second end 12 of the stator phase winding and a second connection terminal of the second interconnection module 7.

The first interconnection module 6 and the second interconnection module 7 form an interconnection assembly 100.

FIG. 2 represents the interconnection assembly according to a first embodiment. The second interconnection module 7 comprises a second terminal 14 and a second connection terminal 21. The second connection terminal 21 is electrically connected to the first connection terminal 20.

The second interconnection module 7 further comprises a second support 15 made of an insulating material, in particular a plastic material.

The second terminal 14 and the second connection terminal 21 are for example overmolded in the second support 15.

FIG. 3 represents the second interconnection module 7.

The second support 15 can comprise a rib 22 between two adjacent second connection terminals 21. Such a rib 22 makes it possible to stiffen the second interconnection module 7.

FIG. 5 shows the second terminal 14 and the second connection terminal 21 before the second support 15 is overmolded.

The second connection terminal 21 and the second terminal 14 are for example linked by crimping.

In other embodiments, the second connection terminal 21 and the second terminal 11 are force-fitted or welded or brazed or screwed.

The electrical connection between the first connection terminal 20 and the second connection terminal 21 is carried out by means of a removable connection, that is to say a connection which can be established or interrupted by simple relative movement between the first connection terminal 20 and the second connection terminal 21.

This relative movement making it possible to establish or interrupt the electrical connection between the first connection terminal 20 and the second connection terminal 21 is for example a translation, in particular a translation along a connection direction such as the direction of the axis of O rotation of the rotor 3.

The first connection terminal 20 comprises a male connection member, in particular a plug, for example a plug of cylindrical shape.

The second connection terminal 21 comprises a female connection member, in particular a socket, for example a socket of cylindrical shape. The male connection member is capable of being inserted into the female connection member.

In another embodiment, not shown, the first connection terminal 20 comprises a female connection member and the second connection terminal 21 comprises a male connection member.

In another embodiment not shown:

the first interconnection module 6 comprises a plurality of first connection terminals 20 of which at least one first connection terminal comprises a male connection member and at least one other first connection terminal comprises a female connection member, and

the second interconnection module 7 comprises a plurality of second connection terminals 21, a second connection terminal of which comprises a female connection member into which the male connection member of the at least first connection terminal is inserted, and another second connection terminal comprises a male connection member inserting into the female connection member of the at least other first connection terminal.

The first interconnection module 6 comprises at least three first connection terminals 20. Each first connection terminal is electrically connected to a second connection terminal 21 of the second interconnection module 7.

This electrical connection is made by an electrical contact between the first connection terminal 20 and the second connection terminal 21. This electrical contact is provided by a plug-in.

To ensure that each first connection terminal 20 is connected to the correct second connection terminal 21, a coding system can be provided.

In the first embodiment of the interconnection assembly, the polarization is enabled by an arrangement of the connection terminals which do not allow plugging in a single position.

The rib 22 can also participate in the polarization. Indeed, the rib 22, disposed between the female connection members blocks the insertion of a male connection 20 between the female connection members 21. The insertion of the male connection member can only be obtained in the female connection members 21.

The control system 2 further comprises:

- a heat sink body 18,

a closing cover 19 of the heat sink body 18,

an electronic power module 10 capable of electrically supplying the electric motor 8,

an electronic control module 29 configured to generate at least one control signal enabling the power module 10 to be controlled.

The electronic power module 10 has a heat exchange face with the heat sink body 18.

The heat exchange between the electronic power module 10 and the heat sink body 18 can be achieved by means of a thermal conductive element such as a thermal paste, or a thermal glue.

The heat sink body 18 may include an internal circuit allowing the circulation of a heat transfer liquid, in particular water. The circulation of a heat transfer fluid improves the cooling of the power module 10.

In another embodiment, not shown, the heat sink body 18 includes cooling fins promoting heat exchanges with the ambient air to cool the power module 10.

The control system may further comprise a filtering capacity 28 making it possible to filter the current exchanged between the power module 10 and the vehicle on-board network.

The filtering capacity 150 has a heat exchange face in thermal contact with the heat sink body 18 so as to promote the cooling of the filtering capacity in order to achieve a thermal transfer of the calories generated by each filtering capacity 150 with l 'ambiant air. The thermal contact can be made by means of a thermal conductive element such as a thermal paste, or a thermal adhesive. The second interconnection module 7 is for example screwed or riveted on the heat sink body 18.

The power module 10 can comprise a plurality of power members, each power member comprising electronic components in electrical coupling with a metal substrate, preferably of the type of a bus bar 17 making it possible to electrically connect each power member of the module of power 10 to the second terminal 14 of the second interconnection module 7 and therefore to the phase winding 5 of the electric motor 8 via the first interconnection module 6.

Each power unit forming the power module 10 is supplied by two bus bars making it possible to electrically connect the power module 10 to the vehicle electrical network.

The electrical connection between the bus bar 17 and the second terminal 14 of the second interconnection module 7 is made by means of a connection module 9. This type of electrical connection is used in the control system shown in the figure 1.

The connection module 9 comprises a connection busbar 13 ensuring the electrical connection between the busbar 17 and the second terminal 14. The connection module 9 further comprises, around the connection busbar 13, a magnetic toroid 30 provided an air gap where a Hall effect sensor (not shown) is intended to be arranged in order to measure the phase current passing through the bus bar 13.

The connection module 9 can further comprise a third support, in particular a third overmolded support, making it possible to maintain the connection busbar 13 and the magnetic toroid 30 and to electrically isolate the connection busbar 13.

A first end of the connecting busbar 13 is for example welded or brazed to the second terminal 14. A second end of the connecting busbar 13 is for example welded or brazed to the busbar 17 of the power module 10. FIG. 6 represents a second interconnection module 70 of an interconnection assembly according to a second embodiment.

In this embodiment, the second interconnection module 70 performs the functions of the connection module 13. The connection module 13 is no longer necessary.

The second interconnection module 70 comprises a second terminal 24 and a second connection terminal 21. The second connection terminal 21 is, as in the first embodiment, intended to be electrically connected to the first connection terminal 20.

The second interconnection module 70 further comprises, around the second terminal 24, a magnetic toroid 23 provided with an air gap where a Hall effect sensor (not shown) is intended to be arranged in order to measure the current of the passing phase. via the second terminal 24.

The second interconnection module 70 further comprises a second support 150 made of an electrical insulating material, in particular a plastic material.

The second support 150 is for example overmolded on the second terminal 24, the second connection terminal 21 and the magnetic toroid 23.

The second terminal 24 is for example directly connected to the bus bar 17. This connection is for example made by soldering or soldering the second terminal 24 to the bus bar 17 of the power module 10.

The second support 150 has an opening 25 allowing for example the passage of a control pin between the power module and the electronic control module 29.

According to one embodiment, the interface zone between the heat sink body 18 and the cover 19 is flat.

According to an embodiment not shown, the first interconnection module 6 comprises a sensor. The sensor is for example a temperature sensor and / or an angular position sensor able to measure the angular position and / or the speed of the rotor 3 of the electric motor 8.

FIG. 7 represents a section AA of a male connection member of a first connection terminal 20 plugged into a female connection member of a second connection terminal 21. The male connection member is for example a plug and the female connection member is for example a socket of cylindrical shape.

A conductive elastic element, in particular a spring 27, allows the electrical connection between the male connection member and the female connection member.

According to one embodiment, the spring 27 is housed in the female connection member. Advantageously, the spring 27 is held in the female connection member in the direction of insertion of the male connection member in the female connection member. This holding is for example achieved using a flange formed at the entrance to the entry of the female connection member.

According to another embodiment, the spring 27 is positioned on an external surface of the male connection member. Advantageously, the spring 27 is held on the male connection member in the direction of insertion of the male connection member in the female connection member. This holding is for example achieved using a flange formed on the outer surface of the end of the male connection member.

The spring 27 is for example a polygonal spring made from a metal sheet or a wave-shaped spring made from a metal sheet.

According to the invention, the characteristics of the various embodiments described can be combined.

Claims

1. Interconnection assembly (100) for a rotating electrical machine comprising:

- a first interconnection module (6) comprising a first terminal (1 1) intended to be electrically connected to one end of phase winding (5) of a stator of an electric motor (8) and a first terminal connection (20) electrically connected to the first terminal (1 1),

- a second interconnection module (7) comprising a second connection terminal (21) electrically connected to a second terminal (14) intended to be electrically connected to an electronic control module (29) or to an electronic power module ( 10) of the rotating electric machine,

the first connection terminal (20) and the second connection terminal (21) being configured to come into electrical contact according to a removable connection in a connection direction, in particular the direction of the axis of rotation O of the electric motor (8) .

2. Interconnection assembly (100) according to claim 1, in which the electrical contact between the first connection terminal (20) and the second connection terminal (21) is ensured by an elastic conductive element (27).

3. Interconnection assembly (100) according to one of claims 1 and 2 wherein the electrical contact between the first connection terminal (20) and the second connection terminal (21) is provided by a plug, one the first connection terminal (20) and the second connection terminal (21) comprises a male connection member, the other of the first connection terminal and the second connection terminal comprises a female connection member.

4. Interconnection assembly (100) according to claim 3, wherein the female connection member comprises a cylindrical socket and the male connection member comprises a plug capable of being inserted into the cylindrical socket.

5. Interconnection assembly (100) according to one of the preceding claims wherein the first terminal (1 1) and the first connection terminal (20) of the first interconnection module (6) are molded into a first support ( 16) made of an electrical insulating material, in particular a plastic material, and / or the second terminal (14) and the second terminal (21) of the second interconnection module (7) are overmolded in a second support (15) produced in an electrical insulating material, in particular a plastic material.

6. Interconnection assembly (100) according to one of the preceding claims wherein the first interconnection module (6) comprises a plurality of first terminals (1 1) and first connection terminals (20) and / or the second interconnection module (7) comprises a plurality of second terminals (14) and second connection terminals (21).

7. Interconnection assembly (100) according to one of the preceding claims wherein the first interconnection module (6) comprises a sensor.

8. Interconnection assembly (100) according to the preceding claim wherein the sensor is a temperature sensor and / or an angular position sensor capable of measuring the angular position and / or the speed of a rotor of the electric motor (8 ).

9. Interconnection assembly (100) according to one of the preceding claims wherein the first interconnection module (6) and / or the second interconnection module (7) comprises a magnetic core (23) provided with a air gap where a Hall effect sensor is intended to be arranged in order to measure a current.

10. Rotating electric machine (1) comprising:

- an interconnection assembly (100) according to one of the preceding claims,

- an electric motor (8) comprising a stator (4) comprising a body and a winding formed by a plurality of phase windings (5), each phase winding (5) having at least one end (12) electrically connected to the first terminals (1 1) of the first interconnection module (6), - an electronic control system (2) of the rotary electric machine (1) electrically connected to the second terminals (21) of the second interconnection module (7), and comprising a heat sink body (18) receiving an electronic control module and / or an electronic power module,

the first interconnection module (6) being integral with the stator body (4) and the second interconnection module (7) being integral with the heat sink body (18).

11. Rotating electric machine (1) according to the preceding claim wherein the heat sink body (18) is closed by a cover (19), the interface area between the heat sink body (18) and the cover being planar.