DE19607048A1 - Automobile servo braking system - Google Patents

Abstract

The braking system has the operating force for the wheel brakes determined by the detected depression of the brake pedal, or by control parameter provided by an electronic evaluation unit. The position of the vehicle accelerator pedal is provided by a switch (9) or a sensor (10), supplying a control value evaluated by the evaluation unit for automatic brake operation.

Description

The invention relates to a brake system for a motor driven motor vehicle to be operated by a driver Control device for determining the power output of the engine. The brake system has brake application tings on the vehicle wheels and a pedal-operated actuation supply device. The clamping device is designed that for braking a vehicle wheel two friction elements after overcoming an air gap will. The actuator generally has one Free travel on. The application device is actuated by the actuator, the power output by the force applied by the driver to a brake pedal and / or by an electronic evaluation unit generated control variable is determined.

At the control device for determining the power output of the engine may be a throttle valve is operated by a so-called accelerator pedal. In the reason position of the throttle valve, the engine runs with its so-called called idle speed. When the accelerator pedal is pressed, the Throttle valve adjusted so that the intake cross section increases which increases the power output of the engine. By pressing the accelerator pedal, the driver can change the speed of the vehicle. As an application device  either disc brakes or drum brakes are applied sets that are usually operated hydraulically.

With a disc brake, a disc rotates with the wheel, which represents a first friction element. In a caliper, attached to the wheel suspension are one or more Brake pistons guided, the brake pads against the brake disc can press. These brake pads provide a second rub element. In the drum brakes, the first friction element through a drum and the second friction element through Bremsbac ken shown. In both clamping devices, tech for air reasons.

Brake around the vehicle wheels and decelerate the vehicle if you want to be able to do this, you first have to empty the actuation direction and the clearance of the application device overcome will. The friction elements can then be pressed together will. In the period in which the empty path and the air play be overcome - the so-called swell time - it will Vehicle not decelerated. This leads to an extension of the Stopping distance.

The actuator for the application devices be generally consists of a master brake cylinder with Wheel brake cylinders in the application devices hydraulically ver is bound. The master brake cylinder is operated by the so-called brake pedal operated, in the power flow between the brake pedal and Master cylinder generally arranged an amplifier is, which contains a brake valve which, depending on the exerted pedal force is controlled. By means of the brake valve the power output of the amplifier is ge in a known manner regulates so that in addition to the pedal force one to the pedal force proportional gain is available that is based on the master cylinder acts.  

The invention is also with actuators that work with an electric motor, can be used.

It is already known that the amplifier or the brake valve to design that the amplifier regardless of the Pe dal actuation generates a force so that the application device independent of a brake pedal actuation a brake build strength.

Such an amplifier is called an active amplifier. The like amplifiers are used for different regulations of the Vehicle dynamics used. So z. B. a so-called Brake assistance function can be realized. So that's the following meant: A distance sensor is linked to the brake pedal, with which helps determine the speed at which the Brake pedal is depressed by the driver. Is the actuator speed above a certain value, this can be interpreted as meaning that the driver intends to to brake hard. To the duration of the brake pressure to keep the structure as low as possible, if the mentioned criterion of the amplifier fully controlled, d. H. the amplifier gives the largest it can deliver Force to the master brake cylinder regardless of what pedal force is applied. With this measure, the so-called swell time can be significantly shortened, what overall leads to a reduction in the stopping distance. With this measure However, the duration during braking, which is used for Overcoming the clearance is needed, not reduced who the.

The invention is therefore based on the task of the brake system to make the stopping distance as short as possible.  

This is achieved by providing a sensor which is the manipulated variable for determining the output of the An drive motor detected and corresponding values to the electro African evaluation unit for controlling the actuating device device outputs, where if the signal values certain criteria meet, the actuator is actuated. In the simplest case, the sensor can be the best from a switch hen, with the help of which it can be determined whether this Actuator, e.g. B. the throttle valve of a combustion motors, is in its home position.

If this is the case, the actuator can un depending on a pedal actuation by the driver be controlled for a short time so that the empty away in the actuator and, if necessary, the clearance in the application device is overcome.

The driver then actually guides by pressing the pedal when braking, there is no free travel at the beginning of braking or air play more so that a braking force immediately can be built.

If the driver does not initiate braking, the pre-actuation is activated brake system released after some time.

It cannot be ruled out in the event of an air game overcome ß that low braking forces are transmitted, although none Braking is intended. But this can be for the intended Time to be accepted, since the advantage is achieved that a braking force is immediately built up when the brake is actuated, since no air gap has to be overcome.

The brake system can be improved in that the Actuator for determining the engine power not only out  is visibly monitored from its basic position, but with a displacement sensor is coupled, so that in particular the solution speed of the organ can be determined. Furthermore a sensor can be provided which detects the position of the clutch pedal.

Assuming that the driver brakes, especially re braking hard, want to initiate his foot very much quickly take off the accelerator pedal, so in this case, notice a high release speed. If the ransom speed is above a certain limit and too it is also found that the clutch pedal is not actuated this can be interpreted as meaning that the Driver will initiate braking (full braking).

This information can be used to the effect that the Actuating device, in particular the amplifier, is not only actuated to the extent that the air gap is overcome is, but also a brake operation takes place.

The underlying method for controlling the brake system thus consists in the actuator that the power output of the drive motor determined to monitor, depending on a brake from its position or release speed operated independently of a pedal operation.

The concept of the invention is explained on the basis of three figures. The shows

Fig. 1 shows the basic construction of a brake system,

Fig. 2 and 3 are diagrams for explaining the Eingriffskrite rien.

In Fig. 1, 1 denotes a brake pressure transmitter, which consists of a master cylinder 2 and a pneumatic booster 3 . This actuating device is actuated by means of a brake pedal 4 .

The pneumatic amplifier 3 is a so-called active amplifier, which means that the brake valve (not shown) of this amplifier is designed so that it can be actuated not only by the pedal 4 , but also by means of an actuating magnet. This means that the amplifier 3 can also generate an amplifying force which acts on the master cylinder 2 independently of a pedal actuation. The control of the control magnet and thus the amplifier 3 takes place by means of an electronic evaluation unit 6 , which receives information from an actuator for determining the power output of the vehicle drive motor. This actuator is in this embodiment, the throttle valve 8 in the air intake area of an internal combustion engine. The throttle valve 8 is operated by means of the so-called gas pedal 9 . In Fig. 1, the throttle valve is shown in its basic position, ie the air flow is mi nimal and just large enough that the engine is running at idle speed. The position of the throttle valve 8 or the actuator can be monitored by means of a switch 9 or a sensor 10 . The sensor signals are sent to the electronic evaluation unit 6 via a line 11 .

For a first embodiment of the invention, it is sufficient to provide a switch 9 , by means of which it can be determined whether the throttle valve 8 is in its basic position.

The control of the system will be explained in the following with the aid of the diagram in FIG. 2. The diagram consists of two partial diagrams, the time being plotted on the X axes 20 , 21 in each case. On the Y axis 22 of the first part of the diagram, the position of the throttle valve 8 is shown. The dashed line 23 indicates the basic position. The solid line 24 shows the course of the angular position of the throttle valves or the course of the gas pedal position coupled therewith. If the accelerator pedal 4 is released, the accelerator pedal position rapidly approaches a position which corresponds to the basic position of the throttle valve 8 .

In the lower part of the diagram, the position of the master cylinder piston, not shown, is shown on the Y axis 25 . The zero line 26 shows the basic position of the Hauptzylinderkol ben, in which there is a connection between the working spaces of the master cylinder 2 and the pressure medium reservoir 5 and since there is an air gap between the friction elements of the Zuspannvor direction. When the brake is actuated, the master cylinder piston is displaced, with the idle travel of the brake pressure sensor and then the clearance in the application device being overcome. This situation - air gap and clearance away equal to 0 - is reached when the master cylinder piston is in position 27 ( FIG. 2). This position of the master cylinder piston is achieved by means of the electronic evaluation unit 6, the actuating magnet of the brake valve is actuated to a corresponding extent, so that the amplifier 3 is controlled in such a way that it delivers the force necessary to force the master cylinder piston into the to move corresponding position 27 . The control by means of the evaluation unit takes place as soon as the throttle valve 8 is in its basic position, ie the switch 9 responds again after it has been released by actuating the accelerator pedal 9 .

This control is maintained over a certain period of time obtained, the length of the period being set so that after this period no longer stops with braking to calculate. Braking takes place within this period by the driver, neither does the idle travel of the main cylinder need who also overcome the air gap of the application device be so that the brake can be applied immediately The threshold time in the brake application is thus to zero right induced.

If there is no braking, it must be possible for the period mentioned a slight deceleration is to be expected, since the amplifier cannot be controlled so precisely, that only idle travel and clearance are overcome. This Slight braking of the vehicle that is not desired can be sufficient be taken because of the advantage of rapid braking solution of the vehicle with a delay desired by the driver tion is more than canceled.

In a second embodiment of the invention, the scarf ter 9 is replaced by a sensor 10 (see FIG. 1), which makes it possible to detect not only the basic position but also any position of the throttle valve or the pedal 9 . By evaluating the sensor signal, it is also possible to determine the actuation speed, in particular the release speed of the accelerator pedal.

To illustrate this consideration, a time diagram is again shown in two parts in FIG. 3. On the X-axes 20 , 21 , the time is again shown on the Y-axis 22 of the upper diagram, the accelerator pedal position and on the Y-axis 25 of the lower diagram, the master cylinder position.

The solid line 24 in the upper part of the diagram shows the respective position of the accelerator pedal. The release speed is indicated with the tangent 30. If this is above a certain threshold value, which should be the case at time 31 , the indication is read therefrom that the driver will very likely initiate braking after the accelerator pedal has been completely released.

This has the consequence that the electronic evaluation unit 6 gives a control signal to the amplifier 3 , which controls the magnet for actuating the brake valve in such a way that the master cylinder piston is moved so far that not only empty travel and clearance are overcome, but also beyond a braking effect is achieved before the driver has pressed the pedal himself. The maximum value 28 shown of the master cylinder piston position corresponds to a vehicle deceleration of. . . m / sec.².

Also here applies that the control of the amplifier after eini time is canceled if there is no brake actuation should. In this case too, there can be a significant reduction the braking threshold can be achieved.

Claims (7)

1.Brake system for a motor-driven motor vehicle, since it is provided with an actuator to be actuated by the driver for determining the power output of the engine, with at least one application device which presses two friction elements against one another for braking a vehicle wheel after overcoming a free travel, with an actuating device for the Applying device, the power output of the actuation device being regulated by the driver actuating a brake pedal and / or on the basis of a control variable that is generated in an electronic evaluation unit, characterized in that a switch ( 9 ) or sensor ( 10 ) is provided , which detects the position of the actuator for determining the power output of the drive motor, and that the sensor outputs a control variable, the control variable being evaluated in the evaluation unit according to certain criteria and the actuating device being actuated when the criteria are reached earth 2. Brake system according to claim 1, characterized in that the switch ( 9 ) speaks to the basic position of the actuator. 3. Brake system according to claim 1, characterized in that the sensor is designed as a displacement sensor, the corresponding one Outputs values for the respective position of the actuator. 4. Brake system according to claim 2, characterized in that when the switch ( 9 ) is actuated, the actuating device is actuated in such a way that the free travel in the actuating device ( 1 ) and the clearance in the application device is overcome. 5. Braking system according to claim 3, characterized in that when a certain release speed of the Actuator controlled the actuator is that on the one hand, idle travel and air play are overcome and on the other hand, there is a brake application. 6. Brake system according to claim 4 or 5, characterized in that the control is maintained for a certain period of time is retained, although if within this period no brake actuation by the driver, the on control of the actuation is canceled. 7. A method for controlling a brake system, characterized in that the position of the actuator ( 8 ) for determining the power output of the drive motor is monitored, and that criteria are derived from the signals of the monitoring sensor with which the actuating device is independent of the driver in certain Way is controlled so that at least overcoming the free travel of the actuation device and / or the air play of the Zuspannvor direction takes place.