DE102019210105A1 - Method for operating a hybrid drive train and electronic control unit - Google Patents

Abstract

Method for operating a hybrid drive train of a motor vehicle, the drive train having drive wheels (DW), an internal combustion engine (VM), an electric machine (EM) and a separating clutch (K0) arranged in between, wherein in unfired operation of the internal combustion engine (VM) The following steps are carried out: operating the electrical machine (EM) in a speed control, setting a torque-transmitting state of the separating clutch (K0), monitoring an angle of rotation position of the internal combustion engine (VM) until the angle of rotation position has reached a target value or a target range, opening the clutch K0) when the angle of rotation position has reached the target value or the target range, the torque-transmitting state being implemented by a slipping state of the separating clutch (K0), as well as an electronic control unit (ECU) for carrying out such a method.

Description

The invention relates to a method for operating a hybrid drive train of a motor vehicle. The invention also relates to an electronic control unit for use in a motor vehicle, which is set up to carry out such a method.

The patent application US 2012/0309587 A1 describes an engine stop control system for a hybrid electric vehicle with an internal combustion engine, an electric machine, a clutch between the internal combustion engine and the electric machine and a control device. The control device can control a stop position of the internal combustion engine by controlling a speed of the electric machine while the first clutch is completely closed.

The patent application DE 198 38 853 A1 describes a hybrid drive device for a vehicle, which includes an engine, an electric motor, a clutch between the engine and the electric motor, a transmission unit for transmitting the power of the machine and the electric motor to wheels, and a control device for controlling the machine, the electric motor and the transmission the power of the machine and the electric motor on the wheels. Wait state control means is provided for executing control of rotating the engine to a cranking start position before starting the engine is carried out.

It is now the object of the invention to specify a method for further developing the processes known in the prior art.

The object is achieved by a method having the features of claim 1. In addition, an electronic control unit is specified which is set up to carry out the method according to the invention. Advantageous configurations result from the dependent claims, the description and the figures.

• - Betreiben der elektrischen Maschine in einer Drehzahlregelung,
• - Einstellen eines drehmomentübertragenden Zustands der Trennkupplung, sodass ausgehend von der elektrischen Maschine ein Drehmoment auf den Verbrennungsmotor übertragen wird,
• - Überwachen einer Drehwinkelposition des Verbrennungsmotors, bis die Drehwinkelpositionen einen Sollwert oder einen Sollbereich erreicht hat, und
• - Öffnen der Trennkupplung, wenn die Drehwinkelposition den Sollwert oder den Sollbereich erreicht hat.

A method for operating a hybrid drive train of a motor vehicle is proposed. The drive train comprises drive wheels, an internal combustion engine, an electrical machine and a separating clutch arranged between the internal combustion engine and the electrical machine. In unfired operation of the internal combustion engine, the following steps are carried out:

• - Operation of the electrical machine in a speed control,
• - Setting a torque-transmitting state of the separating clutch so that, starting from the electrical machine, a torque is transmitted to the internal combustion engine,
• - Monitoring a rotational angle position of the internal combustion engine until the rotational angle position has reached a target value or a target range, and
• - Opening the separating clutch when the angle of rotation position has reached the target value or the target range.

According to the invention it is now provided that the torque-transmitting state of the separating clutch is implemented by a slip state in which there is a differential speed between the internal combustion engine and the electric machine during the torque transmission. Such a procedure can dispense with complex, low-speed angular position control of the electrical machine.

The drive train can also have a starting element. The starting element is formed here by a friction clutch or a friction brake. A torque transmission between the electric machine and the drive wheels can be controlled by the starting element.

According to a first possible embodiment, the starting element is completely closed while the method is being carried out. With such a procedure, the motor vehicle can be accelerated with high dynamics during the process sequence.

According to a second possible embodiment, the starting element is operated in a slip state while the method is being carried out, that is to say with the formation of a differential speed between a drive side and an output side of the starting element with simultaneous torque transmission via the starting element. As a result, the process can be decoupled from influences on the output side, so that a high level of driving comfort is guaranteed.

A torque output by the electric machine during the process sequence is preferably dependent on a setpoint drive torque of the motor vehicle. The target drive torque can, for example, be predetermined by an accelerator pedal position of the motor vehicle. The torque transmitted via the separating clutch during the process sequence is compensated for by the speed control of the electrical machine. This will the setpoint drive torque of the motor vehicle required during the process sequence is not influenced by the implementation of the process.

To achieve the object, an electronic control unit is also proposed which is set up to carry out the method described at the beginning. The electronic control unit can be provided to carry out further functions of the drive train control.

• 1 und 2 schematische Darstellungen je eines Kraftfahrzeug-Antriebsstrangs; sowie
• 3 und 4 schematische Darstellungen eines Abschnitts eines Kraftfahrzeugs-Antriebsstrangs.

The invention is described in detail by way of example in the following figures. Show it:

• 1 and 2 schematic representations of a motor vehicle drive train; such as
• 3 and 4th schematic representations of a section of a motor vehicle drive train.

1 shows a schematic representation of a motor vehicle drive train according to a first embodiment. The drive train has an internal combustion engine VM which is functional with a hybrid module HY connected is. The hybrid module HY houses an in 1 electrical machine not shown. The hybrid module HY is functional with a gearbox G connected, which is set up to provide various translations. In the transmission G can an in 1 friction element not shown may be present. The gear unit is on the output side G with a differential gear AG connected, which is set up on an output shaft W2 of the drive train applied power to drive wheels DW to distribute.

2 shows a schematic representation of a motor vehicle drive train according to a second embodiment. The gear G now includes one - in 2 not shown - electrical machine, and is functional with the internal combustion engine VM connected. In the embodiment according to 1 included hybrid module HY not applicable.

3 shows schematically a section of a motor vehicle drive train according to the FIG 1 illustrated embodiment. In the operative connection between the combustion engine VM and electric machine EM is a disconnect clutch K0 arranged. A rotor of the electric machine EM is with a wave W1 connected. Is the disconnect clutch K0 opened, rotation of the rotor does not cause the engine shaft to rotate, so the engine VM when the disconnect clutch is open K0 is decoupled from the drive train. By pressing an in - 3 not shown - the actuator can disconnect the clutch K0 getting closed. The combustion engine VM is a starter RS assigned. The ignition RS is formed by an electric motor, which is set up for the internal combustion engine VM to accelerate to a starting speed.

Between the rotor and the gearbox G is functionally a starting element C2 arranged. The starting element C2 is formed here by a coupling. The starting element C2 can also be part of the transmission G be. For example, the starting element C2 in the formation of the gear steps of the transmission G be involved. Alternatively, the starting element C2 - as in 3 shown - the gearbox G be preceded. The starting element C2 can be, for example, a lock-up clutch of a hydrodynamic torque converter.

The starting element C2 is through an actuator C2_A can be operated against a spring force. The actuator C2_A can for example be designed as a hydraulic or electromechanical actuator.

For controlling the electrical machine EM and the starting element C2 is an electronic control unit ECU intended. This control unit ECU stands with a converter INV in communication link, which supplies power to the stator of the electrical machine EM controls. The control unit ECU also stands with the actuator C2_A in communication link. The combustion engine VM is its own control unit ECU_VM assigned, which is set up for the internal combustion engine VM to control. The control unit ECU_VM stands with the control unit ECU in communication link so that signals between the control unit ECU and the control unit ECU_VM can be exchanged. The control unit ECU also receives speed signals n1 , n2 . The speed signal n1 represents a rotational speed of the shaft W1 . The speed signal n2 represents a speed of the output-side half of the starting element C2 .

4th shows schematically a section of the transmission G according to the in 2 shown powertrain. The gear G has at least one planetary gear set P on. The starting element C2 is now designed as a multi-disc brake and acts between a ring gear of the planetary gear set P and a non-rotatable housing GG of the transmission G . The rotor of the electric machine EM acts via the wave W1 on a sun gear of the planetary gear set P . A planet carrier of the planetary gear set P is with a wave W3 of the transmission G connected, which is only shown schematically on a subsection TG of the transmission G works. The wave W1 is about the disconnect clutch K0 to the in 4th internal combustion engine not shown VM coupled.

The starting element C2 according to the embodiment in 4th is used in the same way as in 3 through one - in 4th not shown - actuator operated. The speed signals n1 , n2 , which is representative of the differential speed of the starting element C2 are the control unit ECU fed. The control unit ECU stands with the converter INV in communication link, which supplies power to the stator of the electrical machine EM controls. The control unit ECU_VM stands with the control unit ECU in communication link so that signals between the control unit ECU and the control unit ECU_VM can be exchanged.

• - Betreiben der elektrischen Maschine EM in einer Drehzahlregelung,
• - Einstellen eines drehmomentübertragenden Zustands der Trennkupplung K0, wobei der drehmomentübertragenden Zustand durch einen Schlupfzustand der Trennkupplung realisiert wird.
• - Überwachen einer Drehwinkelposition des Verbrennungsmotors VM, bis die Drehwinkelpositionen einen Sollwert oder einen Sollbereich erreicht hat,
• - Öffnen der Trennkupplung K0, wenn die Drehwinkelposition den Sollwert oder den Sollbereich erreicht hat.

Should with a drive train like in the 1 to 4th described the internal combustion engine VM are brought to an angle of rotation position favorable for starting, the electronic control unit performs ECU the following procedure:

• - Operation of the electrical machine EM in a speed control,
• - Setting a torque-transmitting state of the separating clutch K0 , the torque-transmitting state being realized by a slipping state of the separating clutch.
• - Monitoring a rotational angle position of the internal combustion engine VM until the angle of rotation position has reached a target value or a target range,
• - Open the disconnect clutch K0 when the angle of rotation position has reached the target value or the target range.

Depending on a dynamic requirement of the motor vehicle, for example depending on a comfort mode or a sport mode of the motor vehicle, the starting element can C2 be closed or operated in the slip state while the method is being carried out.

The torque generated by the disconnect clutch during the process K0 is transmitted is through the speed control of the electrical machine EM compensated so that a target speed of the electrical machine EM is maintained.

List of reference symbols

VM

Internal combustion engine

ECU_VM

Electronic control unit

RS

Starter

K0

Disconnect clutch

HY

Hybrid module

G

transmission

TG

Gear section

GG

Gear housing

W2

Output shaft

AG

Differential gear

DW

drive wheel

EM

Electric machine

INV

Converter

ECU

Electronic control unit

C2

Friction element

C2_A

Actuator

CN_M

Target transmission torque

W1

wave

W3

wave

P

Planetary gear set

n1, n2

Speed signal

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed 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

• US 2012/0309587 A1 [0002]
• DE 19838853 A1 [0003]

Claims (5)

Method for operating a hybrid drive train of a motor vehicle, the drive train having drive wheels (DW), an internal combustion engine (VM), an electrical machine (EM) and a separating clutch (K0) arranged between the internal combustion engine (VM) and the electrical machine (EM), the following steps are carried out in unfired operation of the internal combustion engine (VM): - operating the electrical machine (EM) in a speed control, - setting a torque-transmitting state of the separating clutch (K0), - monitoring a rotational angle position of the internal combustion engine (VM) until the Angle of rotation position has reached a target value or a target range, - opening the separating clutch (K0) when the angle of rotation position has reached the target value or the target range, characterized in that the torque-transmitting state is implemented by a slip state of the separating clutch (K0), in which a differential speed between internal combustion engine (VM) and electrical machine (EM). Procedure according to Claim 1 , characterized in that a starting element (C2) is arranged between the electrical machine (EM) and drive wheels (DW), which is formed by a friction clutch or a friction brake, the starting element (C2) being completely closed while the method is being carried out. Procedure according to Claim 1 , characterized in that a starting element (C2) is arranged between the electric machine (EM) and drive wheels (DW), which is formed by a friction clutch or a friction brake, the starting element (C2) being operated in a slip state while the method is being carried out becomes. Method according to one of the Claims 1 to 3 , characterized in that a torque output by the electric machine (EM) during the process is dependent on a target drive torque of the motor vehicle, the torque transmitted by the separating clutch (K0) during the process being compensated by the speed control of the electrical machine (EM) becomes. Electronic control unit (ECU) for use in the motor vehicle, characterized in that the electronic control unit (ECU) for performing the method according to one of the Claims 1 to 4th is set up.

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