DE102016209530A1 - Method for operating a motor vehicle and control unit for a motor vehicle - Google Patents

Abstract

The invention relates to a method for operating a motor vehicle (2), comprising an internal combustion engine (4), a generator (18), a manual transmission (10) and an e-clutch (8), comprising the steps of detecting a non-actuation of an accelerator pedal and a brake pedal and a clutch pedal, and upon detecting the non-operation of the accelerator pedal and the brake pedal and the clutch pedal opening the eClutch (8) to switch to a sail operating mode. After opening the eClutch the internal combustion engine of the motor vehicle is turned off, and the generator of the motor vehicle is subjected to the full kinetic energy of the internal combustion engine.

Description

The invention relates to a method for operating a motor vehicle with a manual transmission and an eClutch. In addition, the invention relates to a control device for a motor vehicle and a computer program product with software components for operating a control device.

In motor vehicles with a manually operated by the motor vehicle operator manual, hereinafter referred to only manual transmission, the motor vehicle driver actuates the clutch pedal to perform a gear change or when the motor vehicle should stop.

In so-called sailing on e.g. On a highway, the motor vehicle driver does not actuate the accelerator pedal and leaves the motor vehicle "sailing" e.g. until you reach the next motorway exit. However, the engine drag torque still acts because there is a transfer of forces through the closed clutch to the engine of the motor vehicle. The effective engine drag torque causes a deceleration of the motor vehicle, thus reducing the range that can be sailed back.

There is therefore a need to find ways to increase the range that can be sailed back.

The object of the invention is achieved by a method for operating a motor vehicle with an internal combustion engine, a generator, a manual transmission and an e-clutch, with the following steps:

Detecting a non-operation of an accelerator pedal and a brake pedal and a clutch pedal, and
upon detecting the non-actuation of the accelerator pedal and the brake pedal and the clutch pedal, opening the eClutch to switch to a sail operating mode,
in which
after opening the eClutch the internal combustion engine of the motor vehicle is turned off and the generator of the motor vehicle with the kinetic energy of the internal combustion engine, in particular with the full kinetic energy of the internal combustion engine, is applied.

So no fuel is expended for the operation of the internal combustion engine at a standstill. Furthermore, the kinetic energy of the internal combustion engine of the motor vehicle can be converted into electrical energy, which can then be retrievably stored in a battery of the motor vehicle. This reduces consumption and emissions at the same time.

In this case, an eClutch is understood to be an electronic clutch which is opened or closed by an actuator when the motor vehicle driver does not actuate the accelerator pedal. Under a sail operating mode is understood a function of the motor vehicle, while driving off the engine and decouple from the drive train. Thus, the existing kinetic energy of the internal combustion engine can be automatically used for locomotion, instead of losing it in the form of towing power, when at the same time neither the brake pedal, nor the clutch pedal are actuated. This ensures that the drag torque assists a braking process initiated by actuating the brake pedal, and the internal combustion engine is not switched off during an intended gear change by the motor vehicle driver.

In one embodiment, a vehicle speed of the motor vehicle is detected and compared to an upper speed limit and / or lower speed limit, and the eClutch is opened when the vehicle speed of the motor vehicle is less than the upper speed limit and / or greater than the lower speed limit. In other words, a change to the sail operating mode is made only when the detected vehicle speed is within the value interval formed by the upper speed limit and the lower speed limit. This ensures that e.g. At low vehicle speeds near standstill, a change in the sail operating mode is omitted, since a change of the operating mode due to the expected small path length, which can be traveled sailing, not meaningful. At high vehicle speeds, e.g. near the maximum permissible maximum speed on a gradient, an additional acceleration is prevented by decoupling the engine drag torque.

According to another embodiment, an angle of inclination of the motor vehicle is detected and compared with an upper angle limit and / or lower angle limit, and the eClutch is opened when the inclination angle of the motor vehicle is smaller than the upper angle limit and / or greater than the lower angle limit. Thus, an unfavorable change in the sail operating mode is avoided on a route with slope and at the same time prevents the braking effect of the engine drag torque is omitted on a route with a gradient.

According to another embodiment, upon detection of an operation of the accelerator pedal or the brake pedal or the clutch pedal, the clutch is closed to change to a normal operation mode. Thus, during an acceleration, a braking operation or a gear change, a change to the normal operating mode takes place.

According to another embodiment, the clutch is closed when the vehicle speed of the motor vehicle is greater than or equal to the upper speed limit and / or less than or equal to the lower speed limit. In other words, he is switching to the normal operating mode.

According to another embodiment, the clutch is closed when the angle of inclination of the motor vehicle is less than or equal to the upper angle limit and / or greater than or equal to the lower angle limit. In other words, he is switching to the normal operating mode.

According to a further embodiment, the internal combustion engine is driven to provide a minimum torque. Thus, driving comfort reduced torque jumps are avoided when closing the eClutch. The height of the minimum torque is based on the requested engine torque.

In accordance with another embodiment, a transition from the normal mode of operation back to the sail mode of operation is suppressed for a predetermined minimum period of time. This ensures that e.g. In stop and go situations in a traffic jam a change of the operating mode is carried out constantly, which would reduce by unnecessary operation of the eClutch only their life span.

Furthermore, the invention includes a control unit for carrying out such a method and a computer program product with software components for operating the control unit.

The control apparatus for a motor vehicle having an internal combustion engine, a generator, a manual transmission and an eClutch is adapted to detect non-operation of an accelerator pedal and a brake pedal and a clutch pedal, detecting the non-operation of the accelerator pedal and the brake pedal and the Clutch pedals out opening the eClutch to change to a sail operating mode, and after opening the eClutch off the engine of the motor vehicle and to pressurize the generator of the motor vehicle with the full kinetic energy of the internal combustion engine. The computer program product includes software components for operating the controller accordingly.

The invention will now be explained with reference to a drawing. Show it:

1 an embodiment of an arrangement of components of a motor vehicle in a schematic representation for carrying out an embodiment of a method according to the invention, and

2 a flowchart of an embodiment of a method according to the invention.

It is going on first 1 Referenced.

Shown is an arrangement of various components of a motor vehicle, e.g. a car.

In the 1 Components shown are an internal combustion engine 4 like a petrol or diesel engine, and a controller 8th to control the same.

The control unit 8th is further configured to read in and evaluate an accelerator pedal operation signal A of an accelerator pedal, a brake pedal operation signal B and a clutch pedal operation signal C, as will be explained later in detail.

Between the manual transmission 10 , which in the present embodiment is a manual transmission to be manually operated by the motor vehicle driver, and the internal combustion engine 8th is an e-clutch 8th arranged. At the eClutch 8th it is an electronic clutch that is opened or closed by an actuator when the motor vehicle driver does not operate the accelerator pedal.

Between the drive wheels 14 and the manual transmission 10 is another transmission gear 12 intended.

With the internal combustion engine 4 is also in the present embodiment via a belt 16 a generator 18 connected to the power transmitting, with a battery 20 is electrically connected.

It is now additionally on 2 Referenced.

The procedure starts in step 100 with running internal combustion engine 4 ,

In step 200 the controller asks 6 by evaluating the accelerator pedal operation signal A, the brake pedal operation signal B and the clutch pedal operation signal C periodically from whether there is an operation or non-operation of the accelerator pedal and the brake pedal and the clutch pedal. Furthermore, the controller reads 6 a detected vehicle speed of the motor vehicle 2 and compares these with an upper speed limit and lower speed limit. Furthermore, the controller reads 6 a detected angle of inclination of the motor vehicle 2 and compares this with an upper angle limit and lower angle limit.

If the controller 6 determines that there is no operation of the accelerator pedal and the brake pedal and the clutch pedal and the vehicle speed is less than the upper speed limit and greater than the lower speed limit, and the vehicle tilt angle is less than the upper limit angle and greater than the lower limit angle a change to the sail operating mode by opening the eClutch 8th , For this purpose, the control unit generates 6 a control signal for driving the eClutch 8th to open these.

Further, in the present embodiment, the controller generates 6 a control signal for switching off the internal combustion engine 4 ,

Furthermore, in the present embodiment, the generator 18 with the complete kinetic energy of the internal combustion engine of the motor vehicle 2 applied. The generator 18 converts the kinetic energy of the internal combustion engine into electrical energy stored in the battery.

In step 300 is the motor vehicle 2 in sail operating mode, where now the controller 6 by interrogating the accelerator operation signal A, the brake pedal operation signal B and the clutch pedal operation signal C periodically interrogates whether an operation of the accelerator pedal and the brake pedal and the clutch pedal is present. Furthermore, the control unit 6 a detected vehicle speed of the motor vehicle 2 read and compared with the upper speed limit and the lower speed limit. Furthermore, by the controller 6 a detected angle of inclination of the motor vehicle 2 read in and compared with the upper angle limit and lower angle limit.

If the controller 6 is determined that an operation of the accelerator pedal or the brake pedal or the clutch pedal is present or the vehicle speed is greater than the upper speed limit or less than the lower speed limit or the inclination angle of the motor vehicle is greater than the upper angle limit is less than the lower angle limit, takes place in a change in the normal operating mode by closing the eClutch 8th ,

For this purpose created in step 400 the control unit 6 a control signal for driving the eClutch 8th to close this. Further, in the present embodiment, the controller generates 6 a control signal for switching on the internal combustion engine 4 , The control unit controls the internal combustion engine 4 such that it provides a minimum torque whose size is based on the requested torque. How to reduce ride comfort Torque jumps when closing the eClutch 8th avoided.

In step 500 the controller is waiting 6 a predetermined minimum period of time before it performs a change from the sail operating mode to the normal operating mode. Only after expiration of the minimum period of time, the process with the step 200 continued.

Thus, automatically existing kinetic energy of the internal combustion engine of the motor vehicle 2 be used for locomotion instead of losing it in the form of towing.

LIST OF REFERENCE NUMBERS

2

 motor vehicle

4

 Internal combustion engine

6

 control unit

8th

 eClutch

10

 manual transmission

12

 transmission gear

14

 drive wheel

16

 belt

18

 generator

20

 battery

100

 begin

200

 Is there an operation or non-operation of the accelerator pedal and the brake pedal and the clutch pedal?

300

 Sailing mode

400

 Generate control signal

500

 Wait

A

 Accelerator pedal actuation signal

B

 Brake pedal actuation signal

C

 Clutch pedal actuation signal

Claims (10)

Method for operating a motor vehicle ( 2 ), with an internal combustion engine ( 4 ), a generator ( 18 ), a manual transmission ( 10 ) and an e-clutch ( 8th ), with the steps: Detecting a non-actuation of an accelerator pedal and a brake pedal and a clutch pedal, and detecting the non-actuation of the accelerator pedal and the brake pedal and the clutch pedal opening the eClutch ( 8th ) to switch to a sail mode of operation, after opening the eClutch ( 8th ) the internal combustion engine ( 4 ) of the motor vehicle ( 2 ) is switched off and the generator ( 18 ) of the motor vehicle ( 2 ) with the kinetic energy of the internal combustion engine ( 2 ) is applied. A method according to claim 1, characterized in that a vehicle speed of the motor vehicle ( 2 ) and compared with an upper speed limit and / or lower speed limit, and the eClutch ( 8th ) is opened when the vehicle speed of the motor vehicle is less than the upper speed limit and / or greater than the lower speed limit. Method according to claim 1 or 2, characterized in that an angle of inclination of the motor vehicle ( 2 ) and compared with an upper angle limit and / or lower angle limit, and the eClutch ( 8th ) is opened when the inclination angle of the motor vehicle is smaller than the upper angle limit value and / or greater than the lower angle limit value. A method according to claim 1, 2 or 3, characterized in that upon detection of an operation of the accelerator pedal or the brake pedal or the clutch pedal the eClutch ( 8th ) is closed to switch to a normal operating mode. Method according to one of the preceding claims, characterized in that the eClutch ( 8th ) is closed when the vehicle speed of the motor vehicle ( 2 ) is greater than or equal to the upper speed limit and / or less than or equal to the lower speed limit. Method according to one of the preceding claims, characterized in that the eClutch ( 8th ) is closed when the inclination angle of the motor vehicle ( 2 ) is less than or equal to the upper angle limit and / or greater than or equal to the lower angle limit. Method according to one of the preceding claims 4 to 6, characterized in that the internal combustion engine ( 4 ) is driven to provide a minimum torque. Method according to one of the preceding claims 4 to 7, characterized in that a change from the normal operating mode is suppressed back into the sail operating mode for a predetermined minimum period of time. Control unit ( 6 ) for a motor vehicle ( 2 ) with an internal combustion engine ( 4 ), a generator ( 18 ), a manual transmission ( 10 ) and an e-clutch ( 8th ), adapted to detect non-actuation of an accelerator pedal and a brake pedal and a clutch pedal, upon detection of non-actuation of the accelerator pedal and the brake pedal and the clutch pedal to open the eClutch ( 8th ) to switch to a sail operating mode and after opening the eClutch ( 8th ) the internal combustion engine ( 4 ) of the motor vehicle ( 2 ) and turn off the generator ( 18 ) of the motor vehicle ( 2 ) with the complete kinetic energy of the internal combustion engine ( 2 ). Computer program product comprising software components for operating a control device ( 6 ) according to claim 9.

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