DE102015215965A1 - Drive device for a motor vehicle, in particular an electric vehicle, and method for driving such a motor vehicle - Google Patents

Abstract

The invention relates to a drive device (1) for a motor vehicle, in particular an electric vehicle, with at least one electric traction machine (2) for driving the motor vehicle, and with one of the traction machine (2) drivable, hydrodynamic torque converter (3), wherein one of the Traction machine (3) drivable transmission (7) is provided, via which the torque converter (3) is drivable.

Description

The invention relates to a drive device for a motor vehicle, in particular an electric vehicle, according to the preamble of patent claim 1 and a method for driving such a motor vehicle, in particular of such an electric vehicle, according to the preamble of patent claim 6.

Such a drive device for a motor vehicle, in particular an electric vehicle, and a method for driving such a motor vehicle, for example, already from the DE 10 2005 035 303 A1 known. The drive device in this case comprises an electric traction machine for driving the motor vehicle and a drivable by the traction machine, hydrodynamic torque converter. Thus, the motor vehicle can be driven by the traction machine via the hydrodynamic torque converter. In the context of the method, it is thus provided to drive the motor vehicle via the hydrodynamic torque converter by means of at least one electric traction machine driving the torque converter.

Further, the DE 10 2005 035 303 A1 a method for controlling or regulating a driver selectable starting operation of a motor vehicle with a arranged between a drive motor and a transmission torque transmission unit. In the method, the speed and / or the drive torque of the drive motor is at least one electronic control device in the case of a power demand by the driver, which suggests a maximum power requirement in a preparation phase in which no positive wheel torque is transmitted to the road set to a higher compared to the usual idling operation value. In an acceleration phase in which a positive wheel torque is transmitted to the roadway, a maximum vehicle acceleration is initiated. Furthermore, it is provided that the transmission is an automatic transmission and the torque transmission unit is a hydraulic converter. In the preparation phase, a parking brake function is automatically activated and then the speed and / or the drive torque of the drive motor is set to a transducer detection-dependent upper limit.

Object of the present invention is to provide a drive device and a method of the type mentioned, by means of which a particularly advantageous operation, in particular an advantageous start, the motor vehicle can be realized.

This object is achieved by a drive device with the features of claim 1 and by a method having the features of claim 5. Advantageous embodiments of the invention are the subject of the dependent claims.

The drive device according to the invention is characterized in that a drivable by the traction machine transmission is provided, via which the torque converter is driven. This means that, for example, in a force or torque flow from the traction machine to the torque converter between the traction machine and the torque converter, a transmission of the drive device is arranged so that, for example, when the torque converter is driven by the traction machine, the torque converter via the transmission of the electric Traction machine is driven. The transmission is thus the input side, that is coupled on an input side of the transmission with the electric traction machine and the output side, that is, on an output side of the transmission with the hydrodynamic torque converter. Torques provided for driving the hydrodynamic torque converter by the electric traction machine are introduced into the transmission on the input side thereof, so that the transmission is driven by these torques. On its output side, the transmission provides the torques by means of which the hydrodynamic torque converter is driven. The transmission may be, for example, a spur gear.

Through the use of the transmission and its arrangement with respect to the hydrodynamic torque converter and the electric traction machine, the invention provides a particularly advantageous transmission variant, in particular for use in a purely electrically driven vehicle or in a hybrid vehicle with at least one electrically driven axle. Such an electrically powered vehicle is also referred to as an electric vehicle or BEV (battery electric vehicle). In the case of the hybrid vehicle, for example, a first axle, in particular the front axle, is electrically driven or drivable, with a second axle, in particular the rear axle, being drivable by means of an internal combustion engine of the hybrid vehicle. In particular, it is possible by means of the drive device according to the invention to realize a particularly advantageous racing start in the vehicle. Under such a race start is to understand a particularly fast start with particularly high accelerations of the motor vehicle.

One possibility for making a high torque available on the output during start-up, in particular during a rapid start-up, of a motor vehicle, in particular of a purely electrically operated vehicle or a hybrid vehicle, is, for example, between the electric traction machine, which is also referred to as an electric motor. and to assemble a two-speed transmission associated with an axle of the motor vehicle differential or differential gear. In this case, a first gear of the transmission allows a starting ratio with a particularly high torque. The second gear of the transmission is designed to be longer compared to the first gear and also allows a high maximum speed. This transmission is for example a switchable under load transmission with at least two gears, that is, with two or contrast, multiple gears. A transmission with exactly two gears is also known as a two-speed transmission. The disadvantage of such a two- or multi-speed transmission, however, is that the torque availability is provided for starting via the first gear, wherein additionally the second gear is provided. For this purpose, a high number of components is required, which leads to a high weight of the overall arrangement. For usual torque ranges of about 300 Newton meters input torque resulting weight differences of a two-speed gearbox to a one-speed gearbox with exactly one gear or with exactly a ratio of up to 25 kilograms. The transmission of the drive device according to the invention can thus be designed, for example, as a single-speed transmission.

The two-speed transmission must also be equipped with a comprehensive control effort compared to a one-speed transmission. Correspondingly high application costs must be met in vehicle integration. Furthermore, when starting, all shafts and gears must first be accelerated by means of the electric motor (traction machine), in this case, for example, a first shaft with a first gear and a second shaft with all three gears and the differential. This means that the masses to be accelerated during start-up are relatively high, which results in a certain inertia during start-up. These disadvantages can be avoided by means of the drive device according to the invention, so that the cost, weight and space requirements of the drive device according to the invention can be kept particularly low. At the same time, particularly high torques can be provided so that an advantageous and, in particular, rapid startup can be achieved with high accelerations. In particular, it is possible to present a particularly advantageous race start. In comparison with shiftable transmissions, it is possible for the drive device according to the invention to eliminate certain switching element and actuator peripherals, so that weight advantages result.

In an advantageous embodiment of the invention, the transmission as a planetary gear, that is designed as a planetary gear set. As a result, the space requirement can be kept very low. In addition, a particularly good torque and / or speed conversion can be realized, so that particularly high torques can be provided, in particular for a race start.

It has proven to be particularly advantageous if the torque converter has a pump wheel, a turbine wheel which can be driven by means of the pump wheel and a converter lockup clutch, by means of which the turbine wheel can be connected directly to the pump wheel in a rotationally fixed manner. As a result, in particular after starting, the motor vehicle can be driven particularly effectively and efficiently. The converter lockup clutch (WÜK) can be switched, for example, between a closed state and an open state. In the closed state, the turbine wheel is connected by means of the lockup clutch directly to the impeller rotatably. In the open state, the turbine wheel can be driven by the impeller by hydrodynamic power transmission. For example, if the impeller driven by the traction machine, so a liquid such as oil, water or other liquid is detected and accelerated by blades of the impeller. The impeller converts mechanical energy into flow energy. The turbine wheel resumes this flow energy and provides mechanical energy at an output of the torque converter so that wheels of the motor vehicle can be driven via the output.

It is furthermore advantageous if an axle differential assigned to an axle of the geared vehicle is provided. The axle differential is a differential gear. The axle differential can be driven by the traction machine via the torque converter and the transmission as well as optionally via a final drive transmission, wherein, for example, wheels of the aforementioned axle can be driven via the axle differential. In this way, a particularly advantageous drive of the motor vehicle can be realized.

A further advantageous embodiment provides that the transmission has an output side, via which the torque converter can be driven, and a drive side, via which the transmission can be driven by the traction machine, and is designed to effect a speed reduction that the output side has a lower speed than the drive side. In other words, it is possible to achieve a speed reduction by means of the transmission, so that, for example, a converter limit speed of at least about 7000 revolutions per minute is not exceeded. In other words, excessive speeds at which the torque converter is driven by the traction machine via the transmission can be avoided.

The inventive method is characterized in that a drivable by the traction machine transmission is provided, via which the torque converter is driven. Advantages and embodiments of the drive device according to the invention are to be regarded as advantages and embodiments of the method according to the invention and vice versa.

In order to realize a particularly efficient driving of the motor vehicle, it is provided in one embodiment of the method that the torque converter has a pump impeller, a turbine wheel driven by the impeller, and a converter lockup clutch, by means of which the turbine wheel is rotatably connected directly to the impeller.

In order to realize in a particularly simple manner, that is, with only a small number of parts and a low weight, a particularly advantageous starting of the motor vehicle, it is provided in a further embodiment of the method that at a starting process of the motor vehicle this with the converter lock-up clutch via the torque converter and the torque converter driving gear is driven by the transmission driving the traction machine. In other words, the transmission is driven by the electric traction machine. The torque converter in turn is driven by the transmission while the lockup clutch is open.

Finally, the motor vehicle or wheels of the motor vehicle are driven via the hydrodynamic torque converter. Since in this case the converter lock-up clutch is opened, an increase in speed can be effected by means of the hydrodynamic torque converter. In other words, provided by the electric traction machine via the transmission torques by means of the hydrodynamic torque converter in contrast higher torques, so that in a particularly simple manner, a particularly advantageous and strong acceleration of the motor vehicle when starting is displayed.

In addition, in order to realize a particularly effective operation of the motor vehicle, in particular after starting up, it is provided in a further embodiment of the method that after the starting operation, the lockup clutch is closed.

The invention also includes a motor vehicle, in particular an electric vehicle, with a drive device according to the invention. This means that the motor vehicle according to the invention is designed to carry out a method according to the invention. In this case, advantages and embodiments of the drive device according to the invention and of the method according to the invention are to be regarded as advantages and embodiments of the motor vehicle according to the invention and vice versa.

Further details of the invention will become apparent from the following description of a preferred embodiment with the accompanying drawings.

The single figure shows a schematic representation of a drive device for a motor vehicle, in particular an electric vehicle, with an electric traction machine for driving the motor vehicle, with a drivable by the traction machine, hydrodynamic torque converter and with a drivable by the traction machine and designed as a planetary gearbox over which is the torque converter driven.

The single figure shows a schematic representation of a whole with 1 designated drive device for a motor vehicle, in particular an electric vehicle or a hybrid vehicle. Such an electric vehicle is purely electrically driven or driven, so that the electric vehicle does not include an internal combustion engine, but can be driven only by electrical energy. The hybrid vehicle comprises, for example, a first axis, in particular a front axle, driven purely electrically or drivable, and a second axle, in particular a rear axle, which can be driven purely by means of an internal combustion engine. For realizing the electric driving of the axle or of the vehicle, the drive device comprises 1 an electric traction machine 2 for driving the motor vehicle. The electric traction machine 2 is an electric machine or an electric motor, by means of which the motor vehicle can be driven by means of electrical energy. For example, the motor vehicle comprises at least one energy store, which is not recognizable in the figure, for storing electrical energy or electric current, the energy store for example, may be formed as a battery. The electric traction machine 2 is supplied with the electrical energy stored in the energy storage and thereby operable, so that the motor vehicle by means of the electric traction machine 2 can be driven purely electrically.

It is possible that the electric traction machine 2 is operable in an engine operation, in which the electric traction machine 2 acts as an electric motor and drives the motor vehicle. Furthermore, it is conceivable that the electric traction machine 2 is operated in a generator mode, in which the electric traction machine 2 is driven by kinetic energy of the moving motor vehicle. In engine operation, for example in the figure unrecognizable wheels at least one axis of the motor vehicle by means of the electric traction machine 2 driven. In generator mode, the electric traction machine 2 driven by the wheels, so that, for example, at least a part of the kinetic energy of the motor vehicle by means of acting as a generator electric traction machine 2 is converted into electrical energy. This electrical energy can then be stored for example in the energy storage.

The drive device 1 further includes one of the traction machine 2 drivable, hydrodynamic torque converter 3 , which is also referred to as a converter. The hydrodynamic torque converter 3 comprises a housing, not recognizable in the figure, in which a liquid such as oil, water or the like is accommodated. Furthermore, the hydrodynamic torque converter comprises 3 a pump wheel 4 , a means of the impeller 4 drivable turbine wheel 5 and a stator 6 , which are all housed in the housing. The impeller 4 and the turbine wheel 5 are about a common axis of rotation relative to the housing of the torque converter 3 rotatable, the stator 6 is fixed to the housing. By this is meant that the stator 6 at least indirectly fixed to the housing, so that the impeller 4 and the turbine wheel 5 around the common pivot relative to the stator 6 are rotatable. The operation of such a hydrodynamic torque converter 3 is well known and will be described only briefly. Will the impeller 4 driven by its axis of rotation, in particular by means of mechanical energy, it converts the mechanical energy into flow energy. The impeller 4 thus forms a so-called primary side of the hydrodynamic torque converter 3 , The drive of the turbine wheel 5 takes place by hydrodynamic power transmission, wherein the liquid of blades of the impeller 4 recorded and accelerated. The turbine wheel 5 absorbs the flow energy and provides mechanical energy. The stator 6 , which is fixedly connected to the housing and therefore can not rotate relative to the housing, also has blades. The liquid is supported on these vanes of the stator 6 while causing a backwater, the blades of the turbine wheel 5 resulting in an increase in torque. As a result, by means of the hydrodynamic torque converter 3 Torques by means of which the hydrodynamic torque converter 3 , in particular the impeller 4 is driven, in contrast, larger torques are converted, which via the turbine wheel 5 from the torque converter 3 to be provided.

In order to realize a particularly advantageous operation, in particular an advantageous starting, of the motor vehicle, the drive device comprises 1 one from the traction machine 2 drivable transmission in the form of a planetary gear 7 , which is also referred to as planetary gear set. Here is the torque converter 3 over the planetary gear 4 from the traction machine 2 drivable. This means that the planetary gear 7 based on a torque flux from the electric traction machine 2 to the torque converter 3 between the traction machine 2 and the torque converter 3 is arranged.

The planetary gear 7 comprises a sun gear rotatable about a rotation axis 8th which, for example, in a housing of the drive device, not shown in the figure 1 is arranged. Here is the sun wheel 8th rotatable about the axis of rotation relative to the housing. Furthermore, the planetary gear comprises 7 a plurality of planetary gears, two of which in the figure 9 designated planetary gears are recognizable. Furthermore, the planetary gear comprises 7 a planet carrier 17 , which is also referred to as a web, wherein the planetary gears 9 rotatable on the planet carrier 17 are held. In addition, the planetary gear includes 7 a ring gear 10 , Which in the present case fixed to the housing, that is on the housing of the drive device 1 is fixed. The sun wheel 8th and the planet carrier 17 are thus about an axis of rotation relative to the housing and to the ring gear 10 rotatable. From the figure it can also be seen that the sun gear 8th with the planet wheels 9 and this with the ring gear 10 comb, where present the sun gear 8th an input element or drive of the planetary gear 7 represents. In other words, the sun gear 8th arranged on an input side of the planetary gear, so that the planetary gear 7 on the input side or the sun gear 8th from the traction machine 2 is drivable. This is the sun wheel 8th non-rotatable with a shaft 11 connected, which in turn, for example, rotationally fixed with a rotor of the electric traction engine 2 connected is. The rotor is about an axis of rotation relative to a stator of the electric traction machine 2 rotatable, so that the shaft 11 and thus the sun wheel 8th are driven by the rotor.

Furthermore, the bridge (planet carrier 17 ) an output or an output element of the planetary gear 7 , This means that the planet carrier 17 on an output side of the planetary gear 7 arranged and from the sun wheel 8th over the planet wheels 9 is drivable. Here is the impeller 4 with the output element of the planetary gear 7 coupled or couplable. In other words, the impeller 7 from the output element of the planetary gear 7 drivable, wherein the output element of the planetary gear 7 in this case the planet carrier 17 is. The torque converter 3 is thus the input side, that is on the impeller 4 with the output side, that is in this case the planet carrier 17 of the planetary gear 7 coupled or coupled and thus from the planet carrier 17 drivable. On the output side is the hydrodynamic torque converter 3 with a wave 12 coupled, the shaft 12 rotatably with the turbine wheel 5 connected is. Thus, the wave 12 from the turbine wheel 5 drivable so that the torque converter 3 the aforementioned torques over the shaft 12 provides.

The exact arrangement of drive and output, that is, output element and input element of the planetary gear 7 , but can also be designed differently and varied as desired. Basically, it is the drive device 1 provided that the hydrodynamic torque converter 3 , in particular the impeller 4 , from the planetary gear 7 and about this from the electric traction machine 2 can be driven, wherein the motor vehicle or the wheels of the motor vehicle of the hydrodynamic torque converter 3 that is about this and the planetary gear 7 from the traction machine 2 are drivable.

The drive device 1 further comprises an axle differential associated with an axle of the motor vehicle 13 over which the wheels of this axle are drivable. The axle differential 13 is a differential gear and allows for example when cornering the motor vehicle different speeds of the inside wheel to the outside wheel. The torque converter 3 , in particular the turbine wheel 5 , drivable shaft 12 is rotatably with a gear in the form of a pinion 14 connected with a ring gear 15 of the axle differential 13 combs. The ring gear 15 and thus the axle differential 13 in total are thus of the pinion 14 drivable, which in turn on the shaft 12 from the turbine wheel 5 is drivable.

By using the planetary gear 7 and the driveability of the hydrodynamic torque converter 3 over the planetary gear 7 from the traction machine 2 can, in particular at a start or a starting process of the motor vehicle, on the shaft 12 particularly high torques in a simple manner, that is provided with only a small number of parts and thus weight and space favorable, so that the motor vehicle can be greatly accelerated when starting. In particular, a so-called race start can thus be realized.

The planetary gear 7 is designed so that over the planetary gear 7 a speed reduction is achieved. This means that the output side of the planetary gear 7 , that is the planet carrier in the present case 17 , a lower speed than the drive side, that is in this case the sun gear 8th , so that, for example, a limit speed of the torque converter 3 is not exceeded. This limit speed is for example at about 7000 revolutions per minute, which due to the speed reduction not by the planet carrier 17 and thus the impeller 4 is exceeded. For this purpose, the planetary gear is suitable 7 due to its narrow axial space and the traction machine 2 similar radial extent. Overall, it is thus possible, the space requirement of the drive device 1 particularly low. The pinion 14 is a simple spur gear, through which the torques on the ring gear 15 of the axle differential 13 be directed.

As can also be seen from the figure, the hydrodynamic torque converter has 3 a lockup clutch 16 (WÜK) on. By means of the lockup clutch 16 is the turbine wheel 5 directly with the impeller 4 rotatably coupled. The torque converter lockup clutch 16 is switchable between a closed state and an open state. In the open state, the turbine wheel 5 about the liquid from the impeller 4 driven and the turbine wheel 5 is not about the lockup clutch 16 directly with the impeller 4 rotatably connected. In the closed state of the lockup clutch 16 is the turbine wheel 5 directly with the impeller 4 rotatably coupled, so that the impeller 4 and the turbine wheel 5 as a block rotates at the same speed around the axis of rotation. With closed converter lockup clutch 16 is therefore functionally a one-speed transmission shown. During or during a starting process of the motor vehicle, this is when the converter lock-up clutch is open 16 on the torque converter 3 and that the torque converter 3 driving planetary gear 7 from the planetary gear 7 driving traction machine 2 driven.

This means that the traction machine 2 the planetary gear 7 , the planetary gear 7 the torque converter 3 and the torque converter 3 over the wave 12 , the pinion 14 and the axle differential 13 the wheels are driving while the WÜK is open, that is, is in its open state.

Outside or after the starting process is or the WÜK is closed, that is, switched to its closed state, so that the motor vehicle is, for example, in a so-called normal operation. Here, the torque converter is running 3 or the impeller 4 and the turbine wheel 5 as a closed component and causes - in contrast to the open state of the WÜK - no torque / speed conversion. This can reduce losses during operation of the torque converter 3 arise with open WÜK, be eliminated.

When starting or during start-up, however, the WÜK is or is opened and it becomes the special properties of the hydrodynamic torque converter 3 used to achieve at least short-term torque increase. In particular, during operation of the torque converter 3 with open WÜK the output speed, that is the speed of the turbine wheel 5 and thus the wave 12 , Always smaller than the input speed, that is, the speed of the impeller 4 , so that the output is the drive of the torque converter 3 lags. This effect is at the drive device 1 when starting, in particular during a starting process under racing conditions, used, so that preferably designed as a passenger vehicle motor vehicle can be greatly accelerated.

At standstill of the motor vehicle, for example, the torque converter 3 biased in the following manner: At a standstill example, a brake, in particular a service brake, the motor vehicle is actuated, so that the motor vehicle is initially secured against roles. Further, the traction machine 2 , in particular, while the WÜK is open, operated, so that thereby the impeller 4 is driven. However, since the motor vehicle is kept at a standstill by means of the brake, the entire output-side part of the axle differential must also be stopped 13 up to or including the turbine wheel 5 of the torque converter 3 stand still. From the traction machine 2 provided drive energy is transmitted through the planetary gear 7 in the torque converter 3 directed. However, since the turbine wheel 5 over the wave 12 , the pinion 14 and the axle differential 13 held by the brake, that is secured against rotation, is the torque converter 3 biased.

The through the torque converter 3 caused torque increase leads to an increased output torque, so that a two-speed transmission is not provided and required. Due to the already rotating parts, for example in the form of the rotor of the traction machine 2 , the wave 11 , the impeller 4 and the planetary gear 7 in the stalled state of the motor vehicle is a particularly high performance, that is, a particularly high performance at a race start possible. For example, in the prestressed state of the torque converter 3 the brake is released so that the wheels and thus the axle differential 13 or the ring gear 15 , the pinion 14 , the wave 12 and the turbine wheel 5 can turn, especially while the WÜK is still open, it results in a particularly strong acceleration of the motor vehicle. As a result, a high torque availability for starting can be realized without a second gear, since the torque converter 3 is biased. In contrast to the use of a two-speed transmission certain Schaltelement- and Aktorikumfänge can be omitted, so that the weight of the drive device 1 can be kept very low. Since all parts up to the impeller 4 of the torque converter 3 already while preloading the torque converter 3 accelerated or from the traction machine 2 are driven, the masses to be accelerated are significantly lower than, for example, in a two-speed gearbox. This results in improved dynamics and an increased acceleration potential during startup. After starting, the WÜK can be closed.

LIST OF REFERENCE NUMBERS

1

driving means

2

traction engine

3

torque converter

4

impeller

5

turbine

6

stator

7

planetary gear

8th

sun

9

planet

10

ring gear

11

wave

12

wave

13

axle differential

14

pinion

15

crown

16

Converter lockup clutch

17

planet carrier

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 102005035303 A1 [0002, 0003]

Claims (10)

Drive device ( 1 ) for a motor vehicle, in particular an electric vehicle, with at least one electric traction machine ( 2 ) for driving the motor vehicle, and one of the traction machine ( 2 ) drivable, hydrodynamic torque converter ( 3 ), characterized in that one of the traction machine ( 2 ) drivable transmission ( 7 ) is provided, over which the torque converter ( 3 ) is drivable. Drive device ( 1 ) according to claim 1, characterized in that the transmission ( 7 ) as a planetary gear ( 7 ) is trained. Drive device ( 1 ) according to claim 1 or 2, characterized in that the torque converter ( 3 ) an impeller ( 4 ), by means of the impeller ( 4 ) driven turbine wheel ( 5 ), and a lockup clutch ( 16 ), by means of which the turbine wheel ( 5 ) directly with the impeller ( 4 ) is rotatably connected. Drive device ( 1 ) according to one of the preceding claims, characterized in that an axle differential assigned to an axle of the motor vehicle ( 13 ) is provided, which via the torque converter ( 3 ) and the transmission ( 7 ) of the traction machine ( 2 ) is drivable. Drive device ( 1 ) according to one of the preceding claims, characterized in that the transmission ( 7 ) an output side through which the torque converter ( 3 ) is drivable, and a drive side, via which the transmission ( 7 ) of the traction machine ( 2 ) is drivable, and is designed to effect a speed reduction, so that the output side has a lower rotational speed than the drive side. Method for driving a motor vehicle, in particular an electric vehicle, in which the motor vehicle is driven by a hydrodynamic torque converter ( 3 ) by means of at least one torque converter ( 3 ) driving electric traction machine ( 2 ), characterized in that one of the traction machine ( 2 ) drivable transmission ( 7 ) is provided, over which the torque converter ( 3 ) is driven. Method according to claim 6, characterized in that the torque converter ( 3 ) an impeller ( 4 ), by means of the impeller ( 4 ) driven turbine wheel ( 5 ), and a lockup clutch ( 16 ), by means of which the turbine wheel ( 5 ) directly with the impeller ( 4 ) is rotatably connected. A method according to claim 7, characterized in that at a starting operation of the motor vehicle this with open converter lock-up clutch ( 16 ) via the torque converter ( 3 ) and the torque converter ( 3 ) driving gears ( 7 ) of which the transmission ( 7 ) driving traction machine ( 2 ) is driven. A method according to claim 8, characterized in that after the starting process, the lockup clutch ( 16 ) is closed. Motor vehicle, with a drive device ( 1 ) according to one of claims 1 to 5.

Images