DE102009055273A1 - Electric machine e.g. electric motor, for use in hybrid drive device of e.g. electric vehicle, has rotor arranged within closed housing, and fluid-flow machine circulating air within closed housing - Google Patents

Abstract

The machine (1) e.g. electric motor (2) or generator (3), has a closed housing (4), a stator (6), a shaft (22), and a rotor (5) arranged within the housing. A fluid-flow machine (8) circulates air within the housing. The fluid-flow machine is driven by a fan electric motor (9), and/or the closed housing and two ventilation circuits are impermeable to fluid e.g. water, with respect to an environment of the machine. The fluid-flow machine is designed as a fan impeller (10) or a fan (12), where fan blades (11) are arranged at the fan impeller.

Description

The present invention relates to an electric machine according to the preamble of claim 1 and a hybrid drive device according to the preamble of claim 15.

State of the art

Electric machines as electric motors or as generators are used for various technical applications. The electric machine comprises a rotor and a stator. Waste heat is generated at the rotor and at the stator, which has to be dissipated to the ambient air of the electric machine for sufficient functionality of the electric machine. It is thus a cooling of the electric machine required. The rotor and the stator are generally arranged inside a housing of the electric machine. For cooling the electric machine, it is known to pass air by means of a blower through openings of the housing and thus to cool the stator and the rotor in an open housing by means of the passage of air through an enclosed space of the housing. Moreover, it is also known to arrange a flow channel in the housing of the electric machine and through this flow channel, a cooling fluid, such as water, is passed. Heat is absorbed by the cooling fluid, thereby cooling the electric machine.

The DE 198 10 473 A1 shows an electric machine. On a rotor of the electric machine are not arranged completely perpendicular to a rotational axis of the rotor in the rotor transverse bores. The transverse bores act as a turbine, so that through an interior, which is enclosed by the housing of the electric machine, air is passed through, thereby a rotor and a stator of the electric machine is cooled by the circulating air. It is thus an open housing, because the housing has openings for the passage of air and the air is sucked in directly sucked from the ambient air and re-introduced.

The EP 1 722 463 A1 shows an electric machine. On a rotor of the electric machine fan blades are arranged so that by means of the fan blades from the vicinity of the electric machine through openings of the housing air can be introduced into an interior space within the housing and discharged through openings again. Thus, the stator and the rotor is cooled by the directly passed through the interior ambient air. It is thus an open housing in the electric machine.

When using electric machines with a voltage of more than 42 V, in particular when using electric machines in electric or hybrid vehicles, a closed housing is required in order to ensure adequate high-voltage protection and on the other hand due to the arrangement of the electric machine, the electric machine from negative Environmental influences, such as dirt or spray to protect.

Disclosure of the invention

Advantages of the invention

Electric machine according to the invention, comprising a closed housing, a stator, a shaft, a rotor disposed within the housing, and preferably also the stator is disposed within the housing, wherein the electric machine comprises at least one turbomachine for circulating the air within the housing to the cooling capacity to increase. Due to the use of the at least one turbomachine, the air can be circulated and moved within the housing, ie air in an enclosed space of the housing. Thus, the cooling performance of the electric machine can be improved. On the one hand, this can be done by virtue of the fact that, owing to the circulation of the air, the waste heat from the stator and / or the rotor can be conducted better to the housing and the heat from the housing can be conducted better to the ambient air and / or the recirculated air at one separate heat exchanger is cooled by means of a cooling fluid. The housing of the electric machine is closed, ie the air in the interior of the housing is not in direct contact with the ambient air. The housing of the electric machine is thus fluid-tight, in particular liquid-tight, so that thereby no dirt can get into the interior of the housing of the electric machine, while still venting an interior of the electric machine for pressure equalization is possible. By the interior of the electric machine, which is enclosed by the housing, thus no ambient air is directly or indirectly on and / or diverted. Due to the closed housing thus on the one hand a high voltage protection of the electric machine is ensured with a use of voltages of more than 42, 100 or 300 V in the electric machine and on the other hand, when using the electric machine in a hybrid or electric vehicle, the electric machine can be arranged such that the electric machine is directly exposed to environmental influences on the electric or hybrid vehicle, for example spray water or dust. Due to the closed housing so that contamination or Other impurities do not penetrate into the enclosed space of the housing with the stator and the rotor.

In particular, the at least one turbomachine is driven by at least one blower electric motor and / or the closed housing and preferably at least one air circuit is fluid-tight, in particular liquid-tight, with respect to an environment of the electric machine.

In a further embodiment, the at least one turbomachine is a fan with fan blades arranged on the fan or a fan.

In a supplementary embodiment, the at least one turbomachine and / or the at least one blower electric motor is fastened to the housing.

In a further embodiment, the blower electric motor can be controlled or regulated in the power. Thus, the performance of the fan motor and thus the performance of at least one turbomachine can be adapted to the required cooling capacity of the electric machine. Sensors can thus be used to measure the temperature at the electric machine, for example at the stator and / or at the rotor, and operate the fan electric motor on the basis of this measured temperature.

Preferably, the at least one turbomachine and / or the at least one blower electric motor is mounted on the shaft and / or angeodnet around the shaft.

In a variant, the at least one turbomachine is surrounded by at least one blower housing and the at least one blower housing is formed by the housing of the electric machine and / or the at least one blower housing is thermally conductively connected to the housing of the electric machine, so that the heat from the at least one turbomachine circulated air through the housing is conductive to the ambient air to deliver the heat or waste heat to the environment or ambient air.

Suitably, the electric machine comprises a cooling device for dissipating waste heat or heat from the housing of the electric machine by means of thermal convention.

In a further embodiment, the housing of the electric machine has at least one flow channel for passing a cooling fluid, in particular a cooling fluid, for. As water, as a cooling device.

In particular, the at least one turbomachine is arranged within the housing of the electric machine, and preferably the at least one blower electric motor is arranged outside the housing.

In a further embodiment, the at least one turbomachine is arranged outside the housing of the electric machine.

In a supplementary variant, the housing of the electric machine has at least one inlet opening for introducing air, at least one outlet opening for discharging air and an air circuit, and by means of the at least one turbomachine arranged outside the housing the air can be recirculated in the air circuit, so that the air by the at least one inlet and outlet opening is guided by an enclosed by the housing of the electric machine interior.

In a further variant, the air circuit is partially guided outside the housing in at least one air line.

In a further embodiment, a heat exchanger is integrated in the air circuit for transmitting heat from the air circulated through the interior space within the housing to a cooling fluid.

In particular, the heat exchanger of the at least one flow channel for passing a cooling fluid, in particular a cooling liquid, for. As water, formed in the housing and the housing and preferably cooling fins are formed on the housing, which are flowed around by the circulating air.

In a further embodiment, the electric machine comprises a plurality of turbomachines and the turbomachines are individually switched on and off, so that thereby the required cooling capacity of the electric machine can be controlled as needed and / or regulated.

In an additional embodiment, the electric machine comprises a control unit, which detects a cooling requirement of the future, for example by detecting a kick-down on the electric and / or hybrid vehicle, and thereby a predicative cooling by increasing the cooling capacity of the at least one turbomachine is feasible ,

Appropriately, by a flow guide of the at least one Turbomachine recirculated air targeted hot spots, ie areas with locally elevated temperature, to be cooled at the electric machine. Furthermore, a flow pulsation of the conveyed air can also be carried out by means of the at least one turbomachine.

In a further embodiment, the cooling fluid in the flow channel is water, oil, glycol or air.

A hybrid drive device according to the invention with an internal combustion engine and an electric machine comprises an electric machine described in this patent application.

In an additional variant, the electric machine is an electric motor or a generator.

Suitably, the electric machine is a, preferably permanent magnet excited, synchronous machine or an electrically excited synchronous machine.

In a further embodiment, the electric machine comprises an electronic control circuit for supplying current to the coils on the stator.

Suitably, the rotor has means for starting positioning of the rotor.

In a further variant, the rotor is mounted by means of a bearing, in particular a plain bearing or a roller bearing.

Brief description of the drawings

In the following, an embodiment of the invention will be described in more detail with reference to the accompanying drawings. It shows:

1 a longitudinal section of an electric machine in a first embodiment,

2 a partial longitudinal section of the electric machine in a second embodiment,

3 a cross section of a fan housing of the electric machine according to 2 .

4 a partial longitudinal section of the electric machine in a third embodiment,

5 a longitudinal section of the electric machine in a fourth embodiment,

6 a simplified longitudinal section of the electric machine in a fifth embodiment,

7 a simplified longitudinal section of the electric machine in a sixth embodiment,

8th a simplified longitudinal section of the electric machine in a seventh embodiment,

9 a simplified longitudinal section of the electric machine in an eighth embodiment,

10 a partial longitudinal section of a housing of the electric machine with an integrated heat exchanger and

11 a highly simplified representation of a hybrid drive device.

Embodiments of the invention

In 1 is an electric machine according to the invention 1 shown as an electric motor 2 or generator 3 For example, in a hybrid drive device 35 with an internal combustion engine 36 and the electric machine 1 , can be used ( 11 ). The hybrid drive device 35 or the electric machine 1 can for example be used to drive a hybrid vehicle (not shown) and then preferably additionally has a battery 37 on. The battery 37 can be charged, for example, at a standstill of the hybrid vehicle, not shown, and by means of electrical energy from the battery 37 as well as the electric machine 1 the motor vehicle can be moved. Furthermore, the electric machine 1 also be used in an electric vehicle, not shown, for driving the electric vehicle. The electric vehicle is only from at least one electric machine 1 driven.

The electric machine 1 ( 1 ) has one about an axis of rotation 26 rotating shaft 22 on. At the wave 22 or a rotor body made of steel are surrounded by insulation, not shown, fins 25 in the axial direction of the axis of rotation 26 one above the other to form a disk pack 24 arranged or layered. The slats 25 or the disk pack 24 have axial pockets 23 or recesses in which permanent magnets 27 are arranged. A rotor 5 the electric machine 1 thus includes the wave 22 , the permanent magnets 27 and the slats 25 or the disk pack 24 , A housing 4 the electric machine 1 is by means of a rolling bearing 28 on the shaft 22 stored. On the case 4 is a stator 6 with electromagnet 7 arranged. Preferably, the shaft 22 made of steel and the slats 25 made of iron. Here are the slats 25 surrounded with insulation (not shown). The insulation will open the slats 25 applied before this to the plate pack 24 get connected.

The housing 4 the electric machine 1 is with a flow channel 15 as a cooling device 14 Mistake. The flow channel 15 is essentially completely tangential circumferentially in the housing 4 formed so that a radially substantially complete circumferential cooling of the housing 4 by means of the flow channel 15 ie through the flow channel 15 passed cooling fluid, such as water, glycol or oil, is possible. The housing 4 the electric machine is closed, ie that from an environment 39 the electric machine 1 no liquid or gas in any of the housing 4 enclosed interior 29 can penetrate. This can contaminate the environment 39 the electric machine 1 not in the interior 29 and thus for example to the rotor 5 or the stator 6 reach. At or around the shaft 22 is by means of another rolling bearing 28 a turbomachine 8th as a fan 12 appropriate. Deviating from this, the turbomachine 8th also around the wave 22 be formed without the further rolling bearing 28 so that the turbomachine 8th exclusively on the housing 4 is attached (not shown). The fan 12 includes a fan 10 with on the fan 10 arranged fan blades 11 , The fan wheel 10 is characterized by a controllable in the performance of blower electric motor 9 driven. The fan electric motor 9 is on the case 4 the electric machine 1 attached. By means of the blower 12 will be in the interior 29 air circulated or moved, so that thereby the heat transfer from the rotor 5 and the stator 6 to the housing 4 can be improved, in particular to the housing 4 in the area of the flow channel 15 , This can also be an electric machine 1 with a closed housing 4 a sufficiently high cooling capacity can be achieved by means of the electric machine 1 Even with small or small dimensions to be able to provide a high electrical power available.

In 2 is a second embodiment of the electric machine 1 shown. In the following, essentially only the differences from the first exemplary embodiment will be explained 1 described. The fan electric motor 9 of the blower 12 is outside the case 4 arranged and by means of a through the housing 4 guided drive shaft 30 becomes the fan 12 with the fan wheel 10 and the fan blades 11 rubbed. The fan 12 is from a fan housing 13 surrounded, so by means of the blower housing 13 the one from the blower 12 circulated air is passed. The blower housing 13 is doing from the case 4 the electric machine 1 formed and thus advantageously by heat conduction of the blower housing 13 Passed by the air from the blower 12 circulated air by means of the housing 4 can be cooled because the heat from the housing 4 to the environment 39 or ambient air can be dissipated as a heat sink. In 3 is a cross section of the blower housing 13 shown. Through an inflow area 32 , on the air in the axial direction to the drive shaft 30 is sucked in, the air then becomes an air duct 34 through the fan blades 11 conveyed radially outward and in the air duct 34 the air flows in an outflow area 33 in the axial direction of the drive shaft 30 towards the electromagnet 7 and / or the rotor 5 , The drive shaft 30 is fluid-tight with respect to the housing 4 sealed. On the case 4 are several fans 12 with blower electric motors 9 arranged. The direction of rotation of the fans 12 is preferably in neighboring blower 12 in opposite directions. This can be done in an analogous manner by circulating the air in the interior 29 the electric machine 1 the cooling performance can be improved.

In 4 is a third embodiment of the electric machine 1 shown. In the following, only the differences from the second embodiment will be essentially according to FIG 2 described. The drive shaft 30 of the fan electric motor 9 is perpendicular to the axis of rotation 26 of the rotor 5 aligned. In the second embodiment according to 2 is the drive shaft 30 parallel to the axis of rotation 26 of the rotor 5 aligned. Otherwise, the operation essentially corresponds to the second embodiment according to 2 ,

In 5 is a fourth embodiment of the electric machine 1 shown. In the following, essentially only the differences from the third embodiment will be according to FIG 4 described. The length of the drive shaft 30 of the fan electric motor 9 is much longer than in the third embodiment according to 4 , so that's around the blower housing 13 arranged blower 12 much closer to the wave 22 is arranged.

In 6 is a highly simplified longitudinal section of the electric machine 1 shown in a fifth embodiment. In the fifth embodiment according to FIG 6 all components of the electric machine 1 not as shown in the previous embodiments. For example, in 6 the rolling bearing 28 and the disc pack 24 with the slats 25 not shown. The electric machine 1 includes two air circuits 18 , In every air circulation 18 in which by air ducts 19 Air by means of a blower 12 is circulated, is a heat exchanger 20 arranged. Through the air pipes 19 gets air out of one outlet 17 in the case 4 sucked in, then through the heat exchanger 20 passed and in the heat exchanger 20 cooled by means of a cooling fluid, not shown, and after cooling again through the inlet opening 16 in the interior 29 the electric machine 1 initiated. The electric machine 1 in the fifth embodiment according to 6 points despite the inlet and outlet 16 . 17 a closed housing 4 because of the air in the interior 29 the electric machine 1 not in direct contact with the ambient air of the electric machine 1 on the other hand no pollution from the environment 39 the electric machine 1 in the interior 29 can get there because of the air circulation 18 represents a closed system. With the two air circuits 18 can thus on the one hand due to the respective arrangement of the two heat exchangers 20 the air in the interior 29 be cooled and on the other hand by the circulation of air by means of the blower 12 outside the interior 29 is arranged, due to the air movement and circulation of the air in the interior 29 the heat transfer from the stator 6 and the rotor 5 on the air in the interior 29 increase.

In 7 is a sixth embodiment of the electric machine 1 shown. In the following, essentially only the differences from the fifth embodiment will be according to FIG 6 described. The electric machine 1 has only one air circuit 18 with the fan 12 and the heat exchanger 20 on. It will be through two outlet openings 17 Air from the interior 29 sucked in and through two inlet openings 16 again cooled the interior 29 recycled. Due to the air ducts essentially no axial flow occurs at the interior 29 on.

In 8th is a seventh embodiment of the electric machine 1 described. In the following, only the differences from the sixth embodiment will be essentially according to FIG 7 described. In the axial direction with respect to the axis of rotation 26 are at one as shown in 8th left section of the housing 4 two inlet openings 16 of the air circulation 28 trained and at an in 8th right section of the housing 4 two outlet openings 17 available. Due to this arrangement of the two inlet openings 16 and the two outlet openings 17 on the housing 4 it comes to an axial flow through the interior 29 ,

In 9 is an eighth embodiment of the electric machine 1 shown. In the following, only the differences from the seventh exemplary embodiment will be explained in accordance with FIG 8th described. The air circulation 18 has a blower 12 and two heat exchangers 20 on. The two inlet and outlet openings 16 . 17 are unbalanced to the case 4 arranged so that it due to this asymmetrical arrangement to an axial flow through the interior 29 the electric machine 1 comes.

In 10 is a partial longitudinal section of a housing 4 the electric machine 1 shown in a tenth embodiment. The housing 4 has a flow channel 15 for passing a cooling fluid, for example water or oil. On the outside of the housing 4 are in the area of the flow channel 15 cooling fins 21 educated. The cooling fins 21 are from a heat exchanger housing 38 surrounded, so by the interior, by the heat exchanger housing 38 and the housing 4 is included, an air line 19 for passing air. This can be done on the housing 4 with the flow channel 15 in a simple way, the heat exchanger 20 for the electric machine according to the embodiments in the 6 to 9 will be realized. The electric machine 1 in the embodiment according to the 6 to 9 can thus in addition to the air circulation 18 in the 6 to 9 is shown, also one in the housing 4 arranged flow channel 15 have, for example, as in the first embodiment according to 1 ,

Overall, are considered with the electric machine according to the invention 1 and the hybrid drive device according to the invention 35 significant benefits. The housing 4 the electric machine 1 is closed, so the electric machine 1 can also be used in harsh environments, such as in electric or hybrid vehicles, because impurities or water spray due to the closed housing 4 not in the interior 29 can penetrate. By means of the blower 12 that is either inside or outside the case 4 is arranged, the air inside the interior 29 be circulated and thereby the heat transfer from the rotor 5 and the stator 6 be raised to the air. Optionally, the air inside the interior 29 also through the heat exchanger 20 or the cooling device 14 with the flow channel 15 additionally cooled.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been 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.

Cited patent literature

• DE 19810473 A1 [0003]
• EP 1722463 A1 [0004]

Claims (15)

Electric machine ( 1 ), comprising - a closed housing ( 4 ), - a stator ( 6 ), - a wave ( 22 ), - one within the housing ( 4 ) arranged rotor ( 5 ), characterized in that the electric machine ( 1 ) at least one turbomachine ( 8th ) for circulating the air inside the housing ( 4 ) to increase the cooling capacity. Electric machine according to claim 1, characterized in that the at least one turbomachine ( 8th ) of at least one blower electric motor ( 9 ) is driven and / or the closed housing ( 4 ) and preferably at least one air circuit ( 18 ) fluid-tight, in particular liquid-tight, with respect to an environment ( 39 ) of the electric machine ( 1 ) is trained. Electric machine according to claim 1, characterized in that the at least one turbomachine ( 8th ) a fan wheel ( 10 ) with on the fan wheel ( 10 ) arranged fan blades ( 11 ) or a blower ( 12 ). Electric machine according to one or more of the preceding claims, characterized in that the at least one turbomachine ( 8th ) and / or the at least one blower electric motor ( 9 ) on the housing ( 4 ) is attached. Electric machine according to one or more of the preceding claims, characterized in that the at least one turbomachine ( 8th ) and / or the at least one blower electric motor ( 9 ) on the shaft ( 22 ) and / or around the shaft ( 22 ) is arranged. Electric machine according to one or more of the preceding claims, characterized in that the at least one turbomachine ( 8th ) of at least one blower housing ( 13 ) is surrounded and the at least one fan housing ( 13 ) of the housing ( 4 ) of the electric machine ( 1 ) is formed and / or the at least one fan housing ( 13 ) thermally conductive with the housing ( 4 ) of the electric machine ( 1 ), so that heat from the at least one turbomachine ( 8th ) circulated air through the housing ( 4 ) is conductive. Electric machine according to one or more of the preceding claims, characterized in that the electric machine ( 1 ) a cooling device ( 14 ) for dissipating waste heat from the housing ( 4 ) of the electric machine ( 1 ) by heat convention. Electric machine according to claim 7, characterized in that the housing ( 4 ) of the electric machine ( 1 ) at least one flow channel ( 15 ) for passing a cooling fluid, in particular a cooling liquid, for. As water, as a cooling device ( 14 ). Electric machine according to one or more of the preceding claims, characterized in that the at least one turbomachine ( 8th ) within the housing ( 4 ) of the electric machine ( 1 ) and preferably the at least one blower electric motor ( 9 ) outside the housing ( 4 ) is arranged. Electric machine according to one or more of the preceding claims, characterized in that the at least one turbomachine ( 8th ) outside the housing ( 4 ) of the electric machine ( 1 ) is arranged. Electric machine according to claim 10, characterized in that the housing ( 4 ) of the electric machine ( 1 ) at least one inlet opening ( 16 ) for introducing air, at least one outlet opening ( 17 ) for discharging air and an air circuit ( 18 ) and by means of at least one outside of the housing ( 4 ) arranged turbomachine ( 8th ) the air in the air circuit ( 18 ) is recirculatable, so that the air through the at least one inlet and outlet ( 16 . 17 ) through one of the housing ( 4 ) of the electric machine ( 1 ) enclosed interior ( 29 ) is conductive. Electric machine according to claim 11, characterized in that the air circulation ( 18 ) partially outside the housing ( 4 ) in at least one air line ( 19 ) is guided. Electric machine according to claim 11 or 12, characterized in that in the air circuit ( 18 ) a heat exchanger ( 20 ) is integrated for the transfer of heat from the through the interior ( 29 ) within the housing ( 4 ) circulated air to a cooling fluid. Electric machine according to claim 13, characterized in that the heat exchanger ( 20 ) of the at least one flow channel ( 15 ) for passing a cooling fluid, in particular a cooling liquid, for. As water, in the housing ( 4 ) and the housing ( 4 ) is formed and preferably on the housing ( 4 ) Cooling fins ( 21 ) are formed, which are flowed around by the circulating air. Hybrid drive device ( 35 ) with an internal combustion engine ( 36 ) and an electric machine ( 1 ), characterized in that the electric machine ( 1 ) is formed according to one or more of the preceding claims.

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