DE102020124643A1 - electrical machine - Google Patents

Abstract

The invention relates to an electrical machine (1), in particular for a drive train (2) of a hybrid or all-electric motor vehicle (3), comprising a stator (4) and a rotor (5) which can rotate relative to the stator (4), the stator (4) and the rotor (5) are arranged at least in sections in a motor housing (6), the stator (4) having at least one winding (7) through which electric current can flow, and the electrical machine (1) also having a connection ring ( 8) and at least one temperature sensor (9) for detecting the temperature of at least one winding (7), the temperature sensor (9) in turn comprising at least one electrical line (14) which is used to connect the temperature sensor (9) in a sensor plug (11 ) opens out, wherein a fixing element (10) for the sensor plug (11) of the temperature sensor (9) can be plugged in a form-fitting and/or non-positive manner from the axial direction on the connection ring (8).

Description

The present invention relates to an electric machine, in particular for a drive train of a hybrid or all-electric motor vehicle, comprising a stator and a rotor which can rotate relative to the stator, the stator and the rotor being arranged at least in sections in a motor housing, the stator having at least one of has a winding through which electric current can flow, and the electrical machine also has a connection ring and at least one temperature sensor for detecting the temperature of at least one winding, the temperature sensor in turn comprising at least one electrical line which opens into a sensor plug for connecting the temperature sensor.

Electrical machines comprising a rotor and a stator are used in different areas of application. The use of electric machines for electric hybrid vehicles and electric vehicles or for hub drives should only be mentioned as an example. If such an electrical machine is used as a drive machine, it is usually designed as an internal rotor, which means that the stator surrounds the internal rotor. A migration of the magnetic field is generated via the stator, which causes the rotation of the rotor. For this purpose, the stator has a winding consisting of a large number of conductors, the conductors being assigned to one or usually a plurality of phases.

The windings heat up during operation. It is therefore necessary to measure the temperature change in the area of the windings when recording the performance parameters of the machine. A temperature sensor, which is arranged in the winding area, is used for this purpose. Such an arrangement for temperature detection in the stator winding is, for example, from DE 10 2013 201 835 A1 famous. In this arrangement, a temperature sensor is arranged on a lance, and the sensor head is positioned at the free end of the lance. The temperature sensor or this lance is arranged on a housing of the machine via a corresponding alignment element, the signal lines from the sensor head also being routed via this alignment element to a plug-in connection external to the housing, where the measurement signals can be tapped. The lance is guided in a cantilevered manner between two stator winding sections, the sensor head is held in a cantilevered manner between the windings. In addition to the fact that a separate holding device is provided for the alignment element, which has to be mounted accordingly, the temperature sensor with the lance component, which is also surrounded by a plastic sleeve, is complex in its construction, with the added factor that the sensor head is self-supporting and therefore only measures the ambient temperature of the windings.

The object of the invention is to provide an electrical machine in which the ease of assembly and the transport security of a temperature sensor are improved.

This object is achieved by an electric machine, in particular for a drive train of a hybrid or all-electric motor vehicle, comprising a stator and a rotor which can rotate relative to the stator, the stator and the rotor being arranged at least in sections in a motor housing, the stator having at least one has a winding through which electric current can flow, and the electrical machine also has a connection ring and at least one temperature sensor for detecting the temperature of at least one winding, the temperature sensor in turn comprising at least one electrical line which ends in a sensor plug for connecting the temperature sensor, wherein at a fixing element for the sensor connector of the temperature sensor can be attached to the interconnection ring in a positive and/or non-positive manner from the axial direction.

This achieves the advantage that a possibility for fixing a sensor plug on an interconnection ring is created, which can be mounted “subsequently”—that is, after different processing steps on the interconnection ring. In addition, the sensor plug can be captively attached to the fixing element, so that the sensor plug is arranged in a defined position on the interconnection ring. This provides in particular a transport lock for the sensor plug, which prevents damage caused by a moving sensor plug during transport of the electrical machine. Furthermore, the assembly of the electrical machine is made easier since the sensor plug can always be found at a predefined location by the fitter.

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.

For the purposes of this application, motor vehicles are land vehicles that are moved by machine power without being tied to railroad tracks. A motor vehicle can, for example be selected from the group of passenger cars (PKW), trucks (LKW), mopeds, light motor vehicles, motorcycles, buses (KOM) or tractors. A hybrid electric vehicle, also referred to as a hybrid electric vehicle (HEV), is an electric vehicle that is powered by at least one electric motor and another energy converter and draws energy from both its electrical storage (battery) and additional fuel that is carried.

For the purposes of this application, the drive train of a motor vehicle is understood to mean all components that generate the power for driving the motor vehicle in the motor vehicle and transmit it to the road via the vehicle wheels.

The motor housing encloses the electric machine. A motor housing can also accommodate the control and power electronics. The motor housing can also be part of a cooling system for the electric machine and can be designed in such a way that cooling fluid can be supplied to the electric machine via the motor housing and/or the heat can be dissipated to the outside via the housing surfaces. In addition, the motor housing protects the electrical machine and any electronics that may be present from external influences. A motor housing can be formed in particular from a metallic material. Advantageously, the motor housing can be formed from a cast metal material, such as gray cast iron or cast steel. In principle, it is also conceivable to form the motor housing entirely or partially from a plastic.

Temperature sensors are usually electrical or electronic components that deliver an electrical signal as a measure of the temperature. A temperature sensor can, for example, be selected from the group of thermistor temperature sensors, PTC thermistor temperature sensors, semiconductor temperature sensors, ferromagnetic temperature sensors, pyroelectric temperature sensors, fiber optic temperature sensors and/or pyrometers.

A thermistor, also known as an NTC resistor or NTC thermistor (English Negative Temperature Coefficient Thermistor), is a temperature-dependent resistor that belongs to the group of thermistors. Its essential property is a negative temperature coefficient and it conducts electricity better at high temperatures than at low temperatures. A PTC thermistor, also known as a PTC resistor or PTC thermistor (Positive Temperature Coefficient Thermistor) is a temperature-dependent resistor that belongs to the group of thermistors. Its essential property is a positive temperature coefficient and it conducts electricity better at low temperatures than at high temperatures.

According to an advantageous embodiment of the invention, it can be provided that the fixing element has at least one, preferably at least two, protruding snap hooks in the axial direction from the fixing element, which form a snap-lock connection with form-fitting means designed correspondingly on the interconnection ring. The advantage of this configuration is that the fixing element can be arranged on the connection ring in an ergonomically favorable manner—axial insertion.

According to a further preferred development of the invention, it can also be provided that the fixing element has form-fitting means which interact with corresponding form-fitting means of the sensor plug in such a way that the sensor plug can be fixed, in particular detachably, on the fixing element. It can hereby be achieved that the sensor plug can be fixed to the fixing element in a manner that is very easy to assemble.

Furthermore, according to a likewise advantageous embodiment of the invention, it can be provided that the sensor plug can be latched to the form-fitting means of the fixing element from the radial direction. The advantageous effect of this configuration is based on the fact that a particularly ergonomic insertion of the sensor plug is made possible.

According to a further particularly preferred embodiment of the invention, it can be provided that the fixing element has a cable duct in which the electrical line of the temperature sensor is routed. In this way, the effect can be achieved in particular that the electrical line or electrical lines of the temperature sensor are routed in a defined manner and can thus be protected from mechanical and/or thermal influences and damage in the electrical machine, in particular also vibrations.

Furthermore, the invention can also be further developed such that the cable duct runs in a substantially radial direction in the fixing element.

In a likewise preferred embodiment variant of the invention, it can also be provided that the fixing element projects out of the fixing element in an axial direction has constricting wall, which is provided in particular for guiding the electrical line of the fixed to the fixing element temperature sensor between the sensor connector and the cable duct. In this way it can be achieved that the guidance of the electrical line of the temperature sensor can be further improved.

It can also be advantageous to further develop the invention in such a way that at the radial end of the cable duct, a curved section protruding in the radial direction is formed for guiding the electrical line out of the radially running cable duct in the axial direction into the stator, which further optimizes the cable routing of the temperature sensor leaves.

According to a further preferred embodiment of the subject matter of the invention, it can be provided that the fixing element is formed from a plastic.

The invention is explained in more detail below with reference to figures without restricting the general inventive idea.

• 1 eine elektrische Maschine in einer perspektivischen Ansicht.
• 2 ein Kraftfahrzeug mit einer elektrischen Maschine in einem hybriden Antriebsstrang und einen vollelektrischen Antriebsstrang,
• 3 ein Fixierungselement und ein Verschaltungsring in einer perspektivischen Darstellung,
• 4 ein Fixierungselement und ein Verschaltungsring in einer perspektivischen Darstellung,
• 5 ein Fixierungselement in einer perspektivischen Darstellung,
• 6 ein Fixierungselement in einer perspektivischen Darstellung,
• 7 ein Fixierungselement mit einem Sensorstecker an einem Verschaltungsring in einer perspektivischen Darstellung,
• 8 ein Fixierungselement mit einem Sensorstecker an einem Verschaltungsring in einer perspektivischen Darstellung, und
• 9 ein Sensorstecker in einer perspektivischen Darstellung-

Show it:

• 1 an electrical machine in a perspective view.
• 2 a motor vehicle with an electric machine in a hybrid drive train and a fully electric drive train,
• 3 a fixing element and a connection ring in a perspective view,
• 4 a fixing element and a connection ring in a perspective view,
• 5 a fixing element in a perspective view,
• 6 a fixing element in a perspective view,
• 7 a fixing element with a sensor plug on a connection ring in a perspective view,
• 8th a perspective view of a fixing element with a sensor plug on a connection ring, and
• 9 a sensor connector in a perspective view-

the 1 shows an electric machine 1, in particular for a drive train 2 of a hybrid (upper figure) or fully electric (lower figure) motor vehicle 3, as exemplified in FIG 2 is shown. The electrical machine 1 comprises a stator 4 and a rotor 5 which can rotate relative to the stator 4 , the stator 4 and the rotor 5 being arranged at least in sections in a motor housing 6 . The stator 4 has at least one winding 7 through which electric current can flow.

The electrical machine 1 also has an interconnection ring 8 and at least one temperature sensor 9 for detecting the temperature of at least one winding 7, with the temperature sensor 9 in turn comprising at least one electrical line 14, which ends in a sensor plug 11 for connecting the temperature sensor 9. This is good in the 8th recognizable.

A fixing element 10 for the sensor plug 11 of the temperature sensor 9 can be attached to the interconnection ring 8 in a positive and/or non-positive manner from the axial direction, as can be seen from the synopsis of the 3-4 is evident. The fixing element 10 has two snap hooks 12 protruding from the fixing element 10 in the axial direction, which form a snap-lock connection with the form-fitting means 13 correspondingly designed on the connection ring 8 . 4 shows the fixing element 10 in its mounted state fixed on the interconnection ring 8 .

From a synopsis of 7 with 8th It is also easy to see that the fixing element 10 has form-fitting means 15 which interact with corresponding form-fitting means 16 of the sensor plug 11 in such a way that the sensor plug 11 can be fixed to the fixing element 10, in particular detachably. The sensor plug 11 can be latched to the form-fitting means 15 of the fixing element 10 from the radial direction. The form-fitting means 16 of the sensor connector 11 are particularly good at 9 to recognize.

From the detail view of 5 it is easy to see that the fixing element 10 has a cable duct 17 in which the electrical line 14 of the temperature sensor 9 is guided. The cable duct 17 runs in a substantially radial direction in the fixing element 10.

What the 5 It can also be seen that the fixing element 10 has a wall 18 protruding from the fixing element 10 in the axial direction, which is provided in particular for guiding the electrical line 14 of the temperature sensor 9 fixed to the fixing element 10 between the sensor plug 11 and the cable duct 17. This is also once again in the 8th shown.

Also is in the 5 and the 8th shown that at the radial end of the cable duct 17 an in arcuate section 19 protruding in the radial direction for guiding the electrical line 14 out of the radially extending cable duct 17 in the axial direction in the stator 4 is formed.

6 shows that from the 5 known fixing element 10 in a perspective view of the underside of the fixing element 10, where you can also see several cutouts for wires of the winding 7 of the stator 4, which are intended not to damage them during assembly and operation.

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

1

electric machine

2

powertrain

3

motor vehicle

4

stator

5

rotor

6

motor housing

7

winding

8th

interconnection ring

9

temperature sensor

10

fixation element

11

sensor connector

12

snap hook

13

form-fitting means

14

management

15

form-fitting means

16

form-fitting means

17

Cabel Canal

18

wall

19

arc section

QUOTES INCLUDED IN DESCRIPTION

This list of documents cited by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent Literature Cited

• DE 102013201835 A1 [0003]

Claims (9)

Electrical machine (1), in particular for a drive train (2) of a hybrid or fully electrically operated motor vehicle (3), comprising a stator (4) and a rotor (5) which can rotate relative to the stator (4), the stator (4) and the rotor (5) are arranged at least in sections in a motor housing (6), the stator (4) having at least one winding (7) through which electric current can flow, and the electric machine (1) also having a connection ring (8) and at least has a temperature sensor (9) for detecting the temperature of at least one winding (7), the temperature sensor (9) in turn comprising at least one electrical line (14) which opens into a sensor plug (11) for connecting the temperature sensor (9), thereby characterized in that a fixing element (10) for the sensor plug (11) of the temperature sensor (9) can be plugged onto the connection ring (8) in a positive and/or non-positive manner from the axial direction. Electric machine (1), after claim 1 characterized in that the fixing element (10) has at least one, preferably at least two snap-on hooks (12) protruding from the fixing element (10) in the axial direction, which form a snap-lock connection with form-fitting means (13) correspondingly designed on the connection ring (8). form. Electrical machine (1) according to one of the preceding claims, characterized in that the fixing element (10) has form-fitting means (15) which interact with corresponding form-fitting means (16) of the sensor plug (11) in such a way that the sensor plug (11), in particular detachable, can be fixed to the fixing element (10). Electrical machine (1) according to one of the preceding claims, characterized in that the sensor plug (11) can be latched to the form-fitting means (15) of the fixing element (10) from the radial direction. Electrical machine (1) according to one of the preceding claims, characterized in that the fixing element (10) has a cable duct (17) in which the electrical line (14) of the temperature sensor (9) is guided. Electric machine (1), after claim 5 , characterized in that the cable duct (17) runs in a substantially radial direction in the fixing element (10). Electric machine (1), after any of the previous ones Claims 5 - 6 characterized in that the fixing element (10) has a wall (18) protruding from the fixing element (10) in the axial direction, which is used in particular to guide the electrical line (14) of the temperature sensor (9) fixed to the fixing element (10) between the Sensor connector (11) and the cable duct (17) is provided. Electric machine (1), after any of the previous ones Claims 5 - 7 , characterized in that at the radial end of the cable duct (17) an arcuate section (19) protruding in the radial direction is formed for guiding the electrical line (14) out of the radially running cable duct (17) in the axial direction into the stator (4). Electrical machine (1) according to one of the preceding claims, characterized in that the fixing element (10) is formed from a plastic.

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