DE3421387C2 - - Google Patents

Description

The invention relates to a clutch control for a motor vehicle according to the preamble of the patent claim 1.

For commercial vehicles with automatic gear shift the clutch and the gearbox are shifted automatic depending on the driving condition controlled. The actuation of clutch and transmission is done by servomotors, the z. B. pneumatic, work hydraulically or in combination. A clutch pedal is not available.

It is usually not with such vehicles possible, e.g. B. driving particularly slowly when maneuvering,  since a longer operation with grinding Clutch is not provided in the automatic. The therefore the lowest possible speed results from the engine idling speed. But that is the vehicle for certain cases, such as B. for that Coupling a trailer too quickly.

There are already modified clutch controls been hit with a shunting operation at Creep speed possible with sliding clutch is (DE 33 34 723 A1 and DE 33 34 724 A1). However, these are relatively complicated built and contain control circuits for that Clutch torque and engine speed.

The invention has for its object a clutch Control for a motor vehicle of the type mentioned Specify a type that is constructed with simple means and maneuvering with a sliding clutch when creeping allows speed.

This object is achieved by the ent in claim 1 holding invention solved. The sub-claim contains one expedient development of the invention.

By using the accelerator pedal according to the invention the clutch is used indirectly for clutch control pedal reintroduced in the vehicle. The invention will be explained in more detail below using a drawing purifies.

Fig. 1 is a simplified block diagram shows the drive train of a motor vehicle.

Fig. 2 shows a diagram of the clutch position over the accelerator pedal position.

Referring to FIG. 1, the drive train consists of a motor vehicle from the engine 1, the clutch 2, the transmission 3 and the drive wheels, of which a wheel is drawn. 4 The clutch 2 and the transmission 3 are controlled by an automatic switch 7 via a first servomotor 8 and a second servomotor 12 . As servomotors z. B. pneumatic working cylinder is provided. For control purposes, the automatic switch 7 receives information about the current driving state of the vehicle via a wheel sensor 8 and possibly further sensors (not shown). From this information, the automatic transmission 7 determines the most favorable gear and causes it to be engaged. The engine 1 is controlled by the driver using an accelerator pedal (accelerator pedal) 6 . The accelerator pedal is e.g. B. provided with a potentiometer and gives an analog, depending on the actuation electrical output signal from (E-gas). Between driving pedal 6 and motor 1 there is usually a regulator 5 . This is integrated in an injection pump 15 and enables the fuel quantity to be adjusted internally between zero delivery and full load, regardless of the position of the accelerator pedal or the adjustment lever of the injection pump 15 . The controller 5 is primarily used for setting and keeping the idle speed constant. A second sequential control 13 and a third servomotor 14 adjust the position of the accelerator pedal 6 in accordance with the adjustment lever of the injection pump as a setpoint specification for the controller 5 . Sequence control can also be understood to mean an electronic circuit which generates an analog input signal according to a predetermined, e.g. B. transformed progressive characteristic and forwarded to a servomotor.

According to the invention, a maneuvering switch 10 is inserted between the accelerator pedal 6 and the second sequence control 13 . The switching switch 10 is designed as an electrical switch. In the (drawn) normal position, it connects the accelerator pedal 6 to the second sequence controller 13 . In a maneuvering position to be set by the driver if necessary, the accelerator pedal 6 is decoupled from the second sequence control 13 and connected to the first servomotor 8 for the clutch 2 via a first sequence control 11 . In this position, the controller 5 sets the engine 1 to idle speed. This is done regardless of driving resistance such as vehicle weight and road gradient. The clutch 2 can thus be operated by the accelerator pedal 8 . The driver can thus set the clutch 2 in any intermediate positions via the accelerator pedal 6 and thus set vehicle speeds when the clutch is slipping, which are below the vehicle speed at idling speed of the engine.

This will make the accelerator pedal function normally switched as encoder for load specifications to encoder for Disengagement paths of the clutch. The missing clutch pedal is therefore indirectly reintroduced.

In FIG. 2 a diagram is given in which the clutch position is specified through the accelerator pedal position. Two possibilities are specified therein which curves (A, B) can be realized in the first sequence control 11 .

Curve A begins at accelerator pedal position 0 with clutch 2 fully disengaged. When the accelerator pedal is actuated, the grinding area of the clutch is reached in point 18 . If you press the accelerator pedal again, the grinding area is exited in point 20 . In point 17 , the fully engaged state is reached.

Curve B enables the clutch to be adjusted more sensitively. The grinding area has already been reached in point 18 . This will be left in point 16 . In point 17 the clutch is fully engaged.

If increased driving resistance occurs during maneuvering, controller 5 adjusts itself automatically to full throttle. This will overcome the driving resistance. However, it is not possible to utilize the full engine torque as this is only achieved at higher engine speeds.

It is useful that he in the clutch when grinding witnessed energy to monitor overheating To prevent clutch. This is done using standard, Means not shown.

Claims (3)

1. clutch control for a motor vehicle, in particular a road vehicle with automatic step transmission, with the following features:

• a) an accelerator pedal ( 6 ) is provided which controls a motor ( 1 ) via a speed controller ( 5 );
• b) there is an automatic switch ( 7 ) which, depending on the driving state of the vehicle, controls a transmission ( 3 ) via a first servomotor ( 8 ), a clutch ( 2 ) and at least one second servomotor ( 12 );

characterized by the following features:

• c) between the accelerator pedal ( 6 ) and the speed controller ( 5 ), a maneuverable switch ( 10 ) which can be actuated by the driver is inserted, through which the signal of the accelerator pedal ( 6 ) is uncoupled from the speed controller ( 5 ) and via a first sequence control ( 11 ) is passed to the first servomotor ( 8 );
• d) when the maneuvering switch ( 10 ) is actuated, the speed controller ( 5 ) is set to a predetermined, fixed speed, in particular to the idling speed of the engine ( 1 ).

2. Clutch control according to claim 1, characterized in that the first sequence control ( 11 ) of the respective position of the accelerator pedal ( 6 ) assigns a given position of the clutch ( 2 ), the idle position of the accelerator pedal ( 6 ) of the fully disengaged position and the full throttle position of the accelerator pedal ( 6 ) corresponds to the fully engaged position of the clutch ( 2 ).