EP2491240A1

EP2491240A1 - Method and device for improving the restart of a vehicle with start-stop system

Info

Publication number: EP2491240A1
Application number: EP10751635A
Authority: EP
Inventors: Rolf Jaros; Julian Roesner
Original assignee: Robert Bosch GmbH
Current assignee: Robert Bosch GmbH
Priority date: 2009-10-21
Filing date: 2010-08-31
Publication date: 2012-08-29
Also published as: US20120259535A1; WO2011047916A1; CN102575631A; DE102009045886A1; IN2012DN01958A

Abstract

The invention relates to a method and a device for improving the restart of a vehicle having a start-stop system. In order to accelerate restart, a control unit makes control signals available in a start-stop phase of the start-stop operation, due to which signals the excitation winding is supplied with a pre-excitation current in the stop phase. If there is a restart request occurring during the slow-down of the internal combustion engine, the control unit furthermore checks whether an immediate restart is possible and sensible, initiates an immediate restart if such immediate restart is possible and sensible and delays restart if an immediate restart is not possible or not sensible.

Description

description

title

Method and apparatus for improving the re-start of a vehicle equipped with start-stop operation

The invention relates to a method and a device for improving the restart of a vehicle equipped with start-stop operation.

State of the art

Systems for stopping and restarting internal combustion engines, in particular for the purpose of reducing fuel consumption and exhaust emissions, have become known as the start-stop system.

From EP 1 469 587 B1 a device for improving the start-stop operation of a vehicle is known. This has a starter generator of the vehicle associated and connected to the electrical system of the vehicle exciter winding and a control unit. The control signals provided by the control unit influence the exciting current flowing through the excitation winding. In the stop phase of the start-stop operation, the control unit provides control signals, on the basis of which the excitation winding in the stop phase is supplied with a pre-excitation current.

From DE 10 2006 057 892 A1 a method for biasing an electric machine for an automatic start of an internal combustion engine of a motor vehicle with automatic start-stop system is known. In this case, starting from an initiated by an automatic engine stop phase of the internal combustion engine within this stop phase and before the presence of a start request for an automatic engine start, the electric machine is biased. At least one of the parameters is the start time of the magnetization, amount of the bias current and duration for which a magnetizing current is activated, variable.

From WO 2009/024724 A1 a further method for stopping and restarting a motor vehicle is known. In this case, first of all the internal combustion engine is stopped, an excitation current is maintained for a predetermined period of time, and the exciter current is turned off at the end of the predetermined period.

Disclosure of the invention

A method for improving the restarting of a vehicle equipped with start-stop operation with the features specified in claim 1, on the other hand, has the advantage that in the case of a restart request occurring during the coasting of the internal combustion engine, the time to restart is kept as small as possible while ensuring that material loads are reduced and material destruction is avoided.

This applies in particular when a dual-mass flywheel is arranged on the crankshaft of the internal combustion engine. In this case, when using a method according to the invention, disturbing noises and vibrations, which are caused by resonance effects of the dual mass flywheel, reduced or completely avoided. As a result, costs are reduced, since the dual-mass flywheel is relieved and can therefore be dimensioned cheaper.

Furthermore, a reduction of the fuel consumption and a reduction of the exhaust gas reductions are achieved. It may be used more frequently than the prior art start-stop operation.

Furthermore, the safety of road traffic is improved because in the event of a re-start request that already occurs during the coasting of the internal combustion engine, the internal combustion engine can be restarted faster. As a result, the time span within which the vehicle can not be moved out of a danger zone is reduced. Continue Improved customer acceptance of start-stop systems. In particular, the invention leads to a reproducible starting behavior.

Further advantageous features of the invention will become apparent from the following explanation with reference to the drawing. It shows

Figure 1 is a flowchart for explaining a method for improving the restart of a vehicle equipped with start-stop operation vehicle and

Figure 2 is a block diagram of an apparatus for improving the restart of a vehicle equipped with start-stop operation.

The invention relates to a method for improving the re-start of a vehicle equipped with start-stop operation excitation winding having a starter generator of the vehicle and a control unit, is influenced by the control signals of the current flowing through the field winding excitation current, and in which the control unit in a stop phase of the start-stop operation provides control signals, due to which the excitation winding is applied in the stop phase with a Vorerregerstrom, wherein the control unit checks in the presence of occurring during the running out of the engine restart request, if an immediate restart possible and useful is, in the case of a possible and meaningful immediate re-start an immediate re-start in the way and delayed in the event of an impossibility and / or not meaningful immediate re-start the re-start.

FIG. 1 is a flowchart for explaining a method for improving the restarting of a vehicle equipped with start-stop operation.

The illustrated method assumes that the internal combustion engine of the vehicle is in operation.

According to the method shown, in a step S1, a query is made as to whether there is a request to switch to the stop mode. This request derung comes from a control unit, not shown in the figure 1 and is automatically generated for example at a traffic light stop when predetermined stop conditions are met. This includes, for example, falling below a predetermined speed limit while simultaneously pressing the vehicle brake.

If there is no request to go into the stop mode, then the normal operation of the vehicle is continued in a subsequent step S2. If, on the other hand, there is a request to switch to the stop mode, then a move is made to a step S3. In step S3, the starter generator of the vehicle, which is a belt-driven starter generator or a directly mounted starter generator, is brought into the ready to start state. This ready-to-start status enables rapid torque build-up in the event of a restart request occurring during the run-out of the internal combustion engine. For this purpose, the excitation current is turned on. Full excitation is possible but not required. Consequently, a partial excitation is preferably set. This partial excitation is preferably variable depending on the current operating state of the vehicle.

If the starter generator is prepared for a torque output according to the step S3, then a query is made in a step S4 whether a restart request is present. Such a restart request is triggered, for example, by an actuation of the accelerator pedal.

If there is no restart request, then it is ensured in a step S5 that the starter generator, whose excitation winding is supplied with an excitation current, neither outputs an undesirably high electrical power nor an undesirably high mechanical power. This is done by a corresponding control of the stator of the starter generator, for example by a field-oriented control or in block-commutated systems by a pre-commutation. In this case, the starter generator is actively controlled by means of a controlled torque output for the purpose of influencing the run-out behavior. Thereby, the outlet of the engine is controlled either driving or braking, for example, for the purpose of a gentle spout or for the purpose of positioning the crankshaft in a desired angular position.

As an alternative to an active control, a passive behavior of the starter generator can also be brought about by controlling the stator of the starter generator in such a way that the starter generator behaves as neutral as possible at its mechanical interface.

In a subsequent step S6, a query is made as to whether the starter generator has come to a standstill. If this is the case, then, according to a step S7, the starter generator is kept in the ready to start state by ensuring that an excitation current remains in order to accelerate a possibly occurring restart. The height of the excitation current can be less than maximum. Preferably, a variable adjustment of this excitation current in dependence on the current operating state of the internal combustion engine.

If the query in step S4 indicates that there is a restart request, then a query is made in a step S8 as to whether an immediate restart is possible and meaningful. As a criterion for whether an immediate restart is possible and useful, it is checked whether the current speed of the internal combustion engine is within a predetermined speed range. Alternatively or additionally, it is checked whether the crankshaft angle is within a predetermined angular range. Alternatively or additionally, serves as a criterion for whether an immediate restart is possible and useful, the current state of the electrical system and the nature and performance of the internal combustion engine.

An impossible and not sensible immediate restart is recognized, for example, when the instantaneous rotational speed of the internal combustion engine lies in the region of the resonance frequency of the dual-mass flywheel arranged on the crankshaft.

A possible and meaningful immediate restart is recognized, for example, if the instantaneous crankshaft angle is such that the compression work can be used and the instantaneous speed of the internal combustion engine is within a desired speed range. A possible and meaningful immediate restart is also recognized, for example, when there are special operating states of the internal combustion engine or of the vehicle drive train. For example, it is possible to wait until a throttle valve or another actuator on the internal combustion engine is set such that there is a favorable condition for a restart.

If, in the query in step S8, it is recognized that an immediate restart is possible and sensible, then in a step S9 the playback start is initiated by the starter being correspondingly activated. Since the excitation current is already switched on and provides for a rotor flux, only a corresponding control of the stator is required. Since the time constant of the stator is low, this procedure achieves a considerable time saving on restarting.

If, on the other hand, it is detected in the query in step S8 that an immediate restart is not possible or not sensible, then a query is made in a step S10 as to whether braking of the internal combustion engine is required, preferably with the aid of a braking torque established by the starter generator. This is the case, for example, when the speed of the internal combustion engine is still greater than a predetermined speed threshold value.

If it is detected in the query in step S10 that braking is required, then according to step S1 1 it is ensured that the required braking torque is built up.

If, on the other hand, it is detected in the query in step S10 that braking is not required, then, according to step S12, it is ensured that the internal combustion engine runs out. During this run-out, the control unit ensures that the starter generator, whose excitation winding is supplied with an exciting current, neither emits nor absorbs an undesirably high electrical power or an undesirably high mechanical power. This is done by a corresponding control of the stator of the starter generator, for example by a field-oriented control or in block-commutated systems by a pre-commutation. In this case, the starter generator is controlled by means of a controlled rotation in order to influence the run-out behavior. torque output actively activated. Thereby, the outlet of the engine is controlled either driving or braking, for example, for the purpose of a gentle spout or for the purpose of positioning the crankshaft in a desired angular position.

After performing steps S2, S7, S9, S1 and S12, a return to step S1 occurs. Even if it is detected in the query in step S6 that the starter generator has not come to a standstill, there is a return to step S1.

The implementation of the method described above is a control unit, which is designed for carrying out the method described above. This control unit is - as shown below with reference to Figure 2 - via a communication line with other control devices and sensors of the vehicle in connection and is connected via a further line to the starter generator of the vehicle.

FIG. 2 is a block diagram of a device for improving the restarting of a vehicle equipped with start-stop operation.

The illustrated apparatus comprises a belt-driven starter generator 1, a pulley 2 connected thereto, a drive belt 3, a deflection and tensioning pulley 4, a pulley 5 arranged on the crankshaft of the vehicle, a control unit 6, a line 7, a crankshaft 8 Dual mass flywheel 9 and a communication line 10. The control unit 6 is intended to control the method described with reference to FIG.

The starter generator 1 is connected to the crankshaft 8 of the internal combustion engine of the vehicle via a belt drive, which includes the belt pulley 2, the drive belt 3, the deflection and tension pulley 4 and the pulley 5. On the crankshaft 8, a flywheel 9, which is preferably a two-mass flywheel mounted. In such a device, it is possible to transfer mechanical power between the crankshaft and the starter generator. The control unit 6 is electrically connected via the line 7 to the starter generator 1. It can also be integrated in the starter generator 1. By means of this control unit 6, the power-side control of the starter generator is realized. For this purpose, the control unit 6 has a built-in semiconductor switches pulse inverter and a logic part. This includes a controller on which using a program code, the above-described method is executed.

The control unit 6 is connected via the communication line 10 with other control devices and sensors of the vehicle and exchanges with these data. For example, the control unit 6 communicates with an engine control unit, a transmission control unit, a vehicle electrical system control unit and sensors for detecting the crankshaft angle and the battery condition.

As an alternative to the exemplary embodiment shown in FIG. 2, the starter generator can also be mounted directly on the internal combustion engine or on the transmission of the motor vehicle. In this case, the starter generator is connected by means of a chain, a shaft or a gear to the engine or the transmission.

After all, the invention enables a quick restart if there is already a restart request during the run-out of the internal combustion engine. The driver of the motor vehicle can rest assured that the internal combustion engine is always available to him. This is achieved by allowing the starter to accelerate the engine by applying torque before the engine has stalled. This ensures that no disturbing or even material-damaging operating conditions occur.

This applies in particular when using a two-mass flywheel connected to the crankshaft. Dual mass flywheels inherently suffer from a resonant frequency because they form a dual mass torsional oscillator. This resonance frequency is usually above the speed at which an internal combustion engine ignites for the first time, but below the idling speed of the internal combustion engine. Thus, the resonance range is traversed both at the start and when stopping the engine. A stay of the Crankshaft speed in the resonance range leads to clearly noticeable vibrations of the internal combustion engine. Damage to components up to the destruction of these components can not be ruled out. Operating states of this kind in which damage or even destruction of the components can occur are avoided in the procedure according to the invention.

Claims

claims

1 . A method for improving the restart of a vehicle equipped with start-stop operation having an exciter winding associated with the starter generator of the vehicle and a control unit, by whose control signals the exciting current flowing through the field winding is affected, and wherein the control unit in a stop phase the start-stop operation provides control signals, due to which the exciter winding in the stop phase is supplied with a Vorerregerstrom, characterized in that the control unit checks in the presence of a re-start request occurring during the expiration of the internal combustion engine, if an immediate restart is possible and useful , in the event of a possible and meaningful immediate restart, initiates an immediate re-start and delays the re-start in the event of an inability or ineffective immediate re-start.

2. The method according to claim 1, characterized in that the control unit checks in the presence of a re-start request occurring during the coasting of the internal combustion engine, whether the current speed of the internal combustion engine is in the range of the resonance frequency of a arranged on the crankshaft of the internal combustion engine flywheel and then, if this Case is delayed, the restart.

3. The method of claim 1 or 2, characterized in that the control unit in the event of an impossibility of immediate immediate restart initiates a deceleration of the internal combustion engine in the ways.

4. The method according to claim 1 or 2, characterized in that the control unit in the event of an impossibility or inapplicable immediate restart stops the engine and thereby the starter generator of the vehicle for the purpose of influencing the leakage behavior of Internal combustion engine or for the purpose of inducing a passive behavior of the starter generator drives.

Method according to one of the preceding claims, characterized in that the control unit checks whether an immediate restart is possible and useful by checking whether the current speed of the internal combustion engine is within a predetermined speed range.

Method according to one of the preceding claims, characterized in that the control unit checks whether an immediate restart is possible and useful by checking whether the crankshaft angle is within a predetermined angular range.

Method according to one of the preceding claims, characterized in that the control unit checks whether an immediate restart is possible and useful by checking whether an actuator of the vehicle is in a predetermined state.

Method according to one of the preceding claims, characterized in that the control unit in the event of a possible and meaningful immediate restarting the re-start by a control of the stator of the starter generator in the way.

Method according to one of the preceding claims, characterized in that the control unit in the absence of an occurring during the expiration of the internal combustion engine restart request the starter generator for the purpose of influencing the flow behavior of the internal combustion engine or for the purpose of inducing a passive behavior of the starter generator drives.

0. A device for improving the restart of a vehicle equipped with start-stop operation, comprising:

- One provided with a field winding starter generator (1) and

a control unit (6) connected to the starter generator via a line (7), characterized in that the control unit (6) is designed for carrying out a method according to one of the preceding claims.

Device according to claim 10, characterized in that it comprises:

a pulley (2) connected to the starter generator,

a crankshaft (8),

- One arranged on the crankshaft pulley (5) and

- A drive belt (3) which is placed around the pulley (2) of the starter generator (1) and the pulley (5) on the crankshaft (8).

Apparatus according to claim 10, characterized in that the starter generator is connected by means of a chain, a shaft or a gear to the engine or a transmission of the vehicle.