DE102008061946A1 - Electric drive unit with variable torque distribution - Google Patents

Abstract

A system (1) for the variable torque distribution within at least one axle (10) of a vehicle is disclosed. With at least one first drive unit (3), each wheel (RL, RR) of the axle (10) is driven with a same torque via a planetary gear (7) and a differential (20). A second drive unit (5) is provided, which has a smaller power than the first drive unit (3) in order to distribute the torques within the axle (10) on a wheel-specific basis via an overlay system (11).

Description

Field of the invention

The The invention relates to a system for variable torque distribution within at least one axle of a vehicle. With a first drive unit is about a planetary gear and a differential each Wheel of the axle driven at the same torque.

Background of the invention

The German patent application DE 10 2006 028 790 A1 discloses a device for distributing a drive torque to at least two drive shafts of a vehicle axle. Likewise, an axle drive is proposed that includes a differential having two electric motors, each associated with an output shaft. The respective output shaft is connected to an element of the differential. The differential cage of the differential is driven by a drive. The differential cage has an inner pair of differential gears and an outer pair of differential gears, two differential gears of the pairs of differential gears each being disposed on a common axis. The output of each side of the axle is connected to the inner equalizing gear pair, wherein each electric motor is connected via a hollow shaft with a pinion of the outer differential gear pair of the differential.

The German patent application DE 103 19 684 A1 discloses a transmission for distributing a drive torque to at least two output shafts with at least two at least three-shaft planetary gear sets. In each case a shaft of a planetary gear set is connected to a drive shaft. Furthermore, in each case one shaft of a planetary gearset represents one of the drive shafts and in each case at least one further shaft of a planetary gearset is operatively connected to a shaft of a further planetary gearset. An operating state-dependent torque of a shaft can be supported depending on an operating state of the respective other shaft operatively connected via the operative connection such that when a speed difference occurs between the drive shafts via the operative connection a torque difference changing torque is applied to the planetary gear sets.

The publications DE 2006 002 537 T5 . DE 2006 002 068 T5 . DE 11 2006 000 751 T5 . DE 11 2006 000 401 T5 . DE 11, 2006 002 557 T5 . DE 11 2006 002 031 T5 . DE 11 2006 002 210 T5 and DE 11 2006 002 069 T5 disclose various embodiments of an electrically variable transmission. In one embodiment, the electrically variable transmission consists of a drive element for receiving power from a machine. Furthermore, an output element is provided. Likewise, a first and a second motor or generator is provided. Likewise, the electrically variable transmission includes a first and a second differential gear set, each having a first, a second and a third element. The drive element is not permanently connected to any element of the gear sets. The output element is constantly connected to an element of the gear sets. A first connecting element, which connects the first element of the first gear set constantly with the first element of the second gear set, is provided. Likewise, a second connecting element is provided, which connects the second element of the second gear set constantly with the second element of the first gear set or with a stationary element. The first motor or generator is constantly connected to an element of the first or second gear set. The second motor / generator is selectively connected to two of the elements of the first or second gear set. The second motor / generator is selectively connected to two of the elements of the first or second gear set. Also, a second torque transmitting device is provided which selectively connects an element of the first or second gear set to the drive element, this element being different from the one connected by the first torque transmitting device. Similarly, a third torque transmitting device is provided which connects a member of the second gear set selectively with an element of the first gear set with a fixed element or with the drive element. A fourth torque transmitting device is connected in parallel with a first and second motor / generator to selectively prevent their rotation. A fifth torque transmitting device is connected in parallel with the other of the motors / generators to prevent their selective rotation. First, second, third, fourth and fifth torque transfer devices are configured to provide an electrically variable transmission having a continuously variable range of speed ratios and four fixed forward speed ratios.

Of the Invention is based on the object, a system for variable torque distribution within at least one axle of a transmission to provide that has a modular design and has a high power density.

The The above object is achieved by a system for variable torque distribution solved, which comprises the features of claim 1.

With the present invention, it is possible, an electric drive unit or a To provide drive unit with an internal combustion engine, so that the drive power can be distributed wheel-individually within an axis. In one embodiment, the drive unit is designed as an electric drive unit which distributes the drive power within the axle by means of an overlay stage and a further electric motor. Depending on the driving situation, this function can be used, inter alia, to generate driving-stabilizing yawing moments about the vertical axis of the vehicle. This can be done in the acceleration case as well as during braking maneuvers or in Rekuparationsfall. Recuperation would be possible with appropriate programming of the control of the vehicle even when cornering without oversteering or understeering influencing the driving behavior. The superimposition stage is designed so that the superposition stage associated electric motor provides free differential function for the torque distribution at the differential. The electric motor on the differential of the superposition stage is designed so that it stops when the same torque is applied to the wheels of an axle. In the event that this motor is activated, resulting from the planetary gear a specific speed of the differential gears in the differential unit. This causes a specific differential speed at the wheels of the respective drive axle regardless of the turning radius and the speed of the vehicle.

The System for variable torque distribution within at least one Axle of a vehicle includes a second drive unit, which is a smaller Has performance as the first drive unit. The second drive unit acts on a superimposition system, so that wheel-individual the torques are distributed within the axis.

The first drive unit can be used as an electric motor or as an internal combustion engine be educated. The second drive unit is an electric motor.

It a control is provided, which when cornering in the drive case, Braking maneuvers and / or in Rekuparationsfall the second Drive unit controls and drives such that individual wheel Torques within each driven axis independently can be distributed from the driving behavior.

As well the second drive unit does not have to be carried along, d. H. the second drive unit stands still when the wheel-individual Torques within an axis are equal.

The overlay system, on which the second drive unit acts, is made of two identical planetary gears built up. The wheel-specific distribution of torques is infinitely variable the torque of the second drive unit adjustable. The performance the second drive unit is at least ten times smaller than the power of the first drive unit. If the first drive unit and the second drive unit each formed as electric motors are, they have the form of hollow shaft motors.

in the Below are embodiments of the invention and their advantages with reference to the accompanying figures closer explain.

1 schematically shows the structure of a system for variable torque distribution within at least one axle of a vehicle.

2 shows the schematic view of a vehicle, each with an electric motor drive on each axis.

For the same or equivalent elements of the invention will be identical Reference numeral used. Furthermore, for clarity's sake in the individual figures only reference numerals shown for the description of the respective figure are required. The illustrated Embodiments are merely examples, such as designed the device according to the invention can be. They do not provide a final limit to the Invention.

1 shows a schematic view of the system 1 for variable torque distribution within at least one axis 10 a vehicle (not shown). It is a first drive unit 3 provided, via an upstream planetary gear 7 a moment to a differential 20 transfers. That in the 1 illustrated planetary gear 7 represents only one possible embodiment of a transmission. It is obvious to a person skilled in the art that other types of transmission can be used in the invention. The planetary gear 7 is doing with a first clutch 2 and a second clutch 4 provided so that different translations can be provided. About the differential 20 the corresponding torque moments are on the axis 10 or the wheels RL and RR transmitted. Further, a second drive unit 5 provided with an overlay system 11 connected is. The overlay system 11 consists of a first planetary gear 21 and a second planetary gear 22 , The actuation of the second drive unit 5 becomes the overlay system 11 also actuated, so that thereby wheel-individually the torques within the axis 10 on the individual wheels RL, RR of the axle 10 are distributable.

In a preferred embodiment, the first drive unit 3 designed as an electric motor. Likewise, the second drive unit 5 as Elek formed tromotor. Here is the power of the first drive unit 3 at least ten times greater than the power of the second drive unit 5 , For straight ahead driving, with RL and RR on both wheels of the axle 10 lie the same torque, is the second drive unit 5 quiet. This means that when driving straight ahead, the second drive unit 5 does not have to be carried along, which ultimately leads to energy savings.

2 shows the schematic representation of a vehicle, in which the two systems for the variable torque distribution within at least one axis 10 are provided with electric motors, which are thus the first drive unit 3 and the second drive unit 5 form. It is a controller 12 provided with the systems for variable torque distribution on each axis 10 interacts. From the control unit corresponding commands to the second drive unit 5 delivered to the required for the current driving torque distribution on the two wheels RL, RR one axle 10 to distribute. Further, the control unit 12 a battery 14 assigned in the drive case, the power supply for the first drive unit and / or second drive unit 5 provides. In Rekuparationsfall the battery is charged via the control unit. Thus, the braking energy is converted back into electrical energy, which is in the battery 14 can be stored.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• DE 102006028790 A1 [0002]
• - DE 10319684 A1 [0003]
• - DE 2006002537 T5 [0004]
• - DE 2006002068 T5 [0004]
• - DE 112006000751 T5 [0004]
• - DE 112006000401 T5 [0004]
• - DE 112006002557 T5 [0004]
• - DE 112006002031 T5 [0004]
• - DE 112006002210 T5 [0004]
• - DE 112006002069 T5 [0004]

Claims (9)

System ( 1 ) for the variable torque distribution within at least one axis ( 10 ) of a vehicle, with a first drive unit ( 3 ), which via a planetary gear ( 7 ) and a differential ( 20 ) Each wheel (RL, RR) of the axle ( 10 ) drives at a same torque, characterized in that a second drive unit ( 5 ) is provided, which has a smaller power than the first drive unit ( 3 ), wherein the second drive unit ( 5 ) to a superposition system ( 11 ), so that the torques within the axle ( 10 ) are distributable. System ( 1 ) according to claim 1, characterized in that the first drive unit ( 3 ) is an electric motor or an internal combustion engine and that the second drive unit ( 5 ) is an electric motor. System ( 1 ) according to claim 1 and 2, characterized in that a controller ( 12 ) is provided, which when cornering in the drive case, braking maneuvers and / or in Rekuperationsfall the second drive unit ( 5 ) controls and drives such that the wheel-individually the torques within the respective driven axle ( 10 ) are distributable. System ( 1 ) according to claim 3, characterized in that the second drive unit ( 5 ) stands still when the wheel-individual torques are the same size. System ( 1 ) according to claims 1 to 4, characterized in that the overlay system ( 11 ) from two identical planetary gears ( 21 . 22 ), wherein the wheel-individual distribution of the torques steplessly via the torque of the second drive unit ( 5 ) is adjustable. System according to one of claims 1 to 5, characterized in that the power of the second drive unit ( 5 ) is at least 10 times smaller than the power of the first drive unit ( 3 ). System according to claim 1, characterized in that the first drive unit ( 3 ) and the second drive unit ( 5 ) are each formed as an electric motor and have the form of hollow shaft motors. System according to one of claims 1 to 7, characterized in that the differential ( 20 ) is designed as a spur gear differential. System according to claim 1, characterized in that the planetary gear ( 7 ) with a first clutch ( 2 ) and a second clutch ( 4 ), so that, depending on the actuation of the first clutch ( 2 ) and the second clutch ( 4 ) two different translations are available.