WO2002006074A1

WO2002006074A1 - Method and device for controlling the speed of a vehicle

Info

Publication number: WO2002006074A1
Application number: PCT/DE2001/002319
Authority: WO
Inventors: Thorsten Ott
Original assignee: Robert Bosch Gmbh
Priority date: 2000-07-19
Filing date: 2001-06-23
Publication date: 2002-01-24
Also published as: DE10035035A1

Abstract

The invention relates to a method and device for controlling the speed of a vehicle in the manner of providing a maximum speed limit when travelling downhill. The inventive method and device involve the operation of operator's controls that are hand-operated by the driver. The operation can be effected by means of a steering pitman arm or by means of a knurled wheel and operator buttons located on the steering wheel or by means of a rotary switch located on the instrument panel or on the center console of the vehicle. A deactivation of this speed limiting means effected by the driver's operation of the brake pedal or gas pedal ensures that the driver himself can take over control of the vehicle at any time.

Description

Method and device for controlling the speed of a vehicle

The present invention relates to a device and an associated method for controlling the speed of a motor vehicle, in particular with an internal combustion engine when driving downhill, in the sense of a speed limit.

State of the art

From DE 43 38 399 AI a method and a device is known, wherein a first control unit influences the engine power and a second control unit influences the braking power. Both control units work together in the sense of a vehicle speed control or vehicle speed limitation. Based on one of the variables speed, speed, acceleration, injected fuel quantity and / or

Throttle position is estimated whether a reduction in engine power is sufficient to maintain a maximum speed. If necessary, the second control unit increases the braking power.

From the previously unpublished application to the German Patent and Trademark Office with file number 199 25 369.2-42 is a procedure with associated Apparatus known which controls the speed of a vehicle in which a maximum speed is set at least by the driver operating the accelerator pedal. Depending on the maximum speed, at least one control element influencing the speed of the vehicle is actuated. When the accelerator pedal is released, the maximum speed is set to a predetermined minimum maximum speed value.

To control a vehicle, among other things, functions are used which regulate or limit the speed of a vehicle. These functions can play an important role when driving downhill, as they prevent a given speed from being exceeded. Especially for vehicles that are also driven off-road (off-road vehicles), it is desirable to reduce or limit the speed to very low values when driving downhill.

Object, solution and advantages of the invention

The object of the present invention is to specify a suitable operating strategy and suitable operating elements for controlling the controller or limiter. According to the invention, this object is achieved by the features of the independent main claims. Advantageous further developments and refinements result from the subclaims.

An advantage of this invention is that a low constant maximum speed can be specified, which can be easily adapted by the driver. This advantage is particularly important when used in so-called off-road vehicles in which the driver is on can easily adapt this predeterminable maximum speed to the different terrain situations.

Furthermore, it is advantageous that the control elements can be operated by the driver by hand, as a result of which they are in the driver's field of vision in the exemplary embodiments according to the invention. This means that the operator is always informed about the operating status and the settings of this downhill aid. The arrangement near the steering wheel or on the steering wheel itself results in a comfortable speed limiting system, since the driver does not have to move his hands far from the steering wheel to operate the elements, which has a positive effect on traffic safety.

Furthermore, it is advantageous that the driver can react at any time in dangerous traffic situations by actuating the accelerator or brake pedal and can thereby deactivate the system.

It is also particularly advantageous that the controlled braking force reduction as a result of

Accelerator pedal actuation of the vehicle's drive does not work against the braking means, but a comfortable transition is created that does not irritate the driver.

drawings

Exemplary embodiments of the invention are explained below with reference to the drawing. Show it

FIG. 1 shows an overview circuit diagram of a control device for limiting the actual speed of a vehicle when driving downhill to a predeterminable maximum speed, FIG. 2 shows an exemplary embodiment in which the operation is carried out by hand using a steering column lever,

FIG. 3 shows an exemplary embodiment in which the operation is carried out by hand using a knurled wheel and buttons on the steering wheel of the motor vehicle.

FIG. 4 shows an exemplary embodiment in which the operation is carried out by hand using a rotary switch which is located on the center console or on the dashboard,

FIG. 5 shows two diagrams belonging to one another, in which the braking force and the pedal travel of the accelerator pedal are plotted over time,

FIG. 6 also shows two diagrams belonging to one another, in which the braking force and the pedal travel of the accelerator pedal are plotted over time.

FIG. 1 shows an overview circuit diagram of a control device 1 for controlling a vehicle. In the preferred embodiment, this control device 1 includes, among other things, a vehicle speed limiter or speed controller. The control device 1 has an input circuit 3, at least one microcomputer 2 and an output circuit 4. These elements are connected to one another via a communication system 5 for data exchange. The input circuit 3 is fed the input line 7 from a measuring device 6 for detecting the vehicle speed. Furthermore, the input circuit 3 is informed by further measuring lines 8 by means of further input lines 9 whether the brake pedal is actuated or the accelerator pedal is actuated or by means of the elements to be activated manually by the driver, the system is deactivated, or the maximum speed that can be specified by the driver is changed by increasing, decreasing or resetting the controller setpoint. The control device 1, there the at least one microcomputer 2, influences the braking force on at least one wheel brake of the vehicle within the scope of the maximum speed limitation via at least one output line 11 and at least one control element 10 (e.g. a brake system with ABS / ASR elements). In one exemplary embodiment, the currently currently set maximum speed of the vehicle is additionally displayed by means of at least one output line 13 and at least one display element 12, which can advantageously be a display in the dashboard or the center console of the vehicle. Programs are implemented in the microcomputer 2 which control the speed of the vehicle depending on a maximum speed value which can be specified by the driver. When the actual speed of the vehicle approaches the predetermined maximum speed, the actual speed is limited by suitable control of at least one braking means of the vehicle. In the preferred exemplary embodiment, the speed control is a speed limiter which, by engaging in at least one wheel brake of the vehicle, limits the speed of the vehicle to the maximum speed specified by the driver.

If the actual vehicle speed falls below the predetermined maximum speed, the deceleration is reduced by reducing the braking force until the actual vehicle speed reaches the predetermined maximum speed. In the preferred embodiment, the

Driving speed limiter or governor mainly used in the off-road area, with the speed of the vehicle being limited to the predeterminable maximum speed value by building braking force on selected wheel brakes, especially when driving downhill. Downhill descents with off-road vehicles in the off-road area in most cases require the driver to permanently apply the vehicle brake in order to keep the vehicle at low speeds, especially at walking pace. This brake actuation, which is permanent for the time of descending the slope, is relieved of the driver by the device on which the invention is based. One can therefore also speak of a comfort system for descending slopes. Due to this special application environment, it is therefore also expedient to limit the predeterminable maximum speed to relatively low speeds. In such an application, it is desirable that the maximum speed can be specified as low and constant as possible, the driver can easily adapt the maximum speed to different situations, in particular different terrain situations, the specification can be understood by him and the maximum speed specification relieves the driver.

It is therefore provided that the maximum speed for the speed limit is specified by actuating control elements which are to be operated by the driver by hand. Only the deactivation by the driver as a result of a confusing traffic situation can be carried out using control elements that are not operated by hand. The control elements, which can be operated by the driver by hand, include the functions activation, deactivation and increase of the maximum speed. speed and reduction of the maximum speed, in each case based on the currently set maximum speed value, and resetting the current predetermined maximum speed to a standard maximum setpoint. According to the invention, these control elements to be operated by the driver by hand can be designed in different ways.

Figure 2 shows the embodiment as a pitman arm. There is an operating lever 15 in the immediate vicinity of the steering wheel 14, which can be operated in several directions. It is thus advantageously possible to activate the speed limit by turning the steering column lever in a clockwise direction 16 and to deactivate it in a similar manner by turning it counterclockwise 17. A change in the currently specified maximum speed is advantageously carried out by moving the lever up to increase the permissible maximum speed or by moving it down to decrease the current maximum speed. A slight movement upwards 18 also causes only a slow increase in the maximum speed, whereas a strong ^" deflection 20 of the steering column lever results in a rapid increase in the maximum speed. In an analogous manner, the predetermined maximum speed value can be reduced by, by slightly deflecting the Lever down 19 the Maalal speed is slowly lowered, whereas an accelerated maximum speed lowering takes place when the lever is strongly deflected 21. The increase in the specifiable maximum speed is limited by a maximum maximum speed value which cannot be exceeded upwards the reduction of the predeterminable maximum speed down to a minimum maximum speed value possible, for example - in the range of a few kilometers per hour, e.g. B. 3 km / h. By pressing a button on the steering column lever 22, for example, it is possible to reset the currently specified maximum speed to a standard maximum value. This standard maximum value is selected in such a way that it represents a reasonable value in most applications. For example, this standard maximum value can be 8 km / h. In addition to this control element in the form of a steering column lever, it is possible to display the operating status (activated or deactivated) and the currently specified maximum speed in a display element of the dashboard or the center console.

A further embodiment of these operating elements is shown in FIG. 3, in which the driver operates by hand using buttons and a knurled wheel in the steering wheel. The buttons and the knurled wheel can advantageously be positioned on the edge of the steering wheel hub, facing the driver. In the preferred embodiment, a button 26 is provided for activating and deactivating the limiting function. By means of the knurled wheel 23, the predeterminable maximum speed is increased or decreased by turning in the respective direction. A rotation of the knurled wheel in one direction increases the predeterminable maximum speed and a rotation of the knurled wheel in the other direction reduces the predeterminable maximum speed. The change in the specifiable maximum speed by means of the knurled wheel can be done in different ways, two of which are explained in more detail. One for ^¬ it is possible to provide the knurled wheel with a center detent position. By actuating the knurled wheel upwards or downwards, depending on the duration of the actuation, the predeterminable maximum speed can be increased or reduce. Depending on how far the knurled wheel is deflected from the latching center position, the predeterminable maximum speed value is changed more slowly or more quickly. After releasing the knurled wheel, it is advantageous if it automatically jumps back to the center position. A further way of changing the predeterminable maximum speed by means of the knurling wheel provides that the speed is set absolutely by means of the knurling wheel, in that a predeterminable maximum speed value is permanently assigned to each position of the knurling wheel. In the first embodiment of the knurled wheel, a further key 25 is provided, which is used to reset the currently set maximum speed to the standard maximum value. In this exemplary embodiment, too, a display can be implemented in the dashboard of the vehicle, which informs about the operating state "active" or "inactive" and / or the currently set maximum speed.

FIG. 4 shows a third embodiment of the object according to the invention. Here, a rotary switch 28, which is advantageously provided with a scale 29, can be fitted in the dashboard or in the center console 27 of the vehicle. In a variant of this embodiment, the rotary switch is designed such that it has a latching position in the middle of the deflection area. Rotation of the switch in one direction causes the predeterminable maximum speed value to be lowered and rotation in the other direction increases the predeterminable maximum speed. Depending on how far the switch is deflected from the latching center position, the maximum speed value changes faster or slower, depending on the sign. This system can be activated or deactivated by means of a separate switch or be carried out by a combined pull / rotary switch, activation and deactivation being realized by the pull function of the switch and the setting of the maximum speed by turning the switch. In a further variant of this exemplary embodiment, the rotary switch has no latching center position. Rather, each switch position is clearly assigned a maximum speed value. In this exemplary embodiment too, the operating state of the device and the currently set maximum speed can be displayed by a display device in the dashboard or in the center console or on the instrument panel.

All three embodiments have in common that the activated speed limiting system can be deactivated by actuating the accelerator pedal or the brake pedal, so that the driver can react to confusing traffic situations at any time. So if the driver presses the brake pedal when the speed limit is activated, it must be ensured that the braking force requested by the driver is applied by the braking means, provided that the requested braking force is greater than that automatically set by the maximum speed limiter. Acceleration of the vehicle as a result of only a slight actuation of the brake pedal is thereby avoided. In the event that the driver operates the accelerator pedal while the speed limit is activated, it must be ensured that the vehicle drive is not working against the brake system, which is why the braking force must be reduced in a controlled manner immediately after the accelerator pedal is actuated. This can be implemented on the one hand via a time-controlled function or on the other hand by reducing the force is controlled depending on the speed of the accelerator pedal actuation.

FIG. 5 shows two diagrams belonging together, which represent the pedal travel 31 of the accelerator pedal as a function of the time t, and the pressure 32 of the brake system. Line 38 in the pedal travel-time diagram represents a switching threshold which must be exceeded by the accelerator pedal actuation in order to deactivate the speed limit. At time 33, the accelerator pedal is activated according to curve 41. At time 34, the accelerator pedal threshold is exceeded, whereupon the braking force 39, 40 is reduced. The double arrow 37 represents a fixed period of time within which the braking means are released, regardless of the braking force previously prevailing. Thus, a low braking force 39 is reduced at the same time 47 as a higher braking force 40. If the accelerator pedal is depressed 44 at time 33, the accelerator pedal threshold value is exceeded at time 35. In general, it turns out that the time span between time 33 and 35 is longer than the time span between 33 and 34. In an analogous manner to the fast one

Accelerator pedal actuation begins with the slow accelerator pedal actuation at time 35 to reduce the braking force. In this case too, the same, fixed time period 37 is required for braking force reduction until the braking means are completely released. It is again the same with which braking force the braking system previously braked. If the braking force 39 is low, the braking force is reduced according to curve 45; if the braking force 40 is higher, the curve is reduced according to 46. Starting from the point in time 35, the duration up to the point in time 48 at which the braking means are completely released results in the fixed period 37.

The design variant that the braking force is reduced depending on the speed of the accelerator pedal actuation ^• 6 shows. FIG. 6 shows two diagrams belonging to one another, in which the pedal travel of the accelerator pedal 49 and the braking force of the braking means 50 are shown against time. The horizontal line 54 in the pedal travel-time diagram represents an accelerator pedal threshold value which must be exceeded in order to deactivate the speed limit. At time 51, the accelerator pedal is operated at a certain speed, which results in curve shape 56. At time 52, the accelerator pedal threshold is exceeded and the prevailing braking force 55 is reduced according to curve 57. If the accelerator pedal is actuated more slowly at time 51, so that a curve after 58 results, the accelerator pedal threshold value is exceeded at time point 53. In this case, the braking system begins at time 53 to reduce the prevailing braking force 55. In this case, the slower actuation of the accelerator pedal reduces the braking force with a smaller time gradient than when the accelerator pedal is actuated faster. This results in a flatter curve 59 in comparison to the previous curve 57.

Another form of these two forms of brake raft reduction is to vary the accelerator pedal threshold value 38 or 54 depending on the current vehicle speed. This threshold value prevents the driver being inadvertently actuated to deactivate the system and prevent an unwanted vehicle reaction. It is also possible to carry out the two methods as shown in FIG. 5 and FIG. 6 as a mixed form.

Claims

Expectations

1.Device for controlling the speed of a vehicle in the sense of a speed limit which, in the activated state, limits the actual vehicle speed, in particular when driving downhill, to a braking force which can be specified by the driver, in particular a small maximum speed, characterized in that the activation and deactivation and the Setting or changing the maximum speed which can be specified by the driver is carried out by means of operating elements which are to be operated by the driver by hand and which, when the speed limit is activated

Maximum speed limit can be deactivated at any time by pressing the brake or accelerator pedal.

2. Device according to claim 1, characterized in that the operation is carried out by hand using a steering column lever.

3. Device according to claim 1, characterized in that the operation is carried out by hand using a knurled wheel and at least one button on the steering wheel of the motor vehicle.

4. The device according to claim 1, characterized in that the operation by. Hand using a rotary switch located on the center console or on the dashboard.

5. Device according to one of claims 1 to 4, characterized in that the system can be switched on and off by means of the operating elements and the predeterminable maximum speed can be increased or decreased based on the standard maximum speed.

6. The device according to claim 5, characterized in that the maximum speed can be reset to the standard maximum speed by means of the control elements.

7. A method for maintaining a maximum speed of a motor vehicle driving downhill which can be predetermined by the driver, characterized in that the maximum speed limitation is deactivated by actuating the brake pedal only when the braking force requested by the driver is greater than the braking force automatically set by the downhill assistance.

8. A method for maintaining a maximum speed of a motor vehicle traveling down a hill, characterized in that when the maximum speed limit is deactivated by actuating the accelerator pedal, the braking force built up at the request of the maximum speed limiter is reduced in a controlled manner as a function of the current vehicle speed.

9. The method according to claim 8, characterized in that the braking force reduction is a function of time.

10. The method according to claim 8, characterized in that the braking force reduction is dependent on the speed of the accelerator pedal actuation.

11. The method according to any one of claims 8 to 10, characterized in that a pedal angle dependent on the speed must be exceeded in order to trigger the deactivation by accelerator pedal actuation.

12. Device for carrying out a method according to at least one of claims 6 to 11, which comprises at least one microcomputer, with an output circuit via which the microcomputer, depending on a predeterminable maximum speed, at least one control signal for actuating at least one, reducing the speed of the vehicle Control element generated, with an input circuit via which the microcomputer receives at least one actuation signal of at least one manually operated control element of the driver, characterized in that the microcomputer comprises at least one program., Which is dependent on the actuation signal of a manually operated by the driver Control element determines the predeterminable maximum speed and which at least one that

Brake vehicle reducing vehicle speed, in the sense of a maximum speed limit, is actuated.

13. Device for carrying out a method according to. at least one of claims 7 and 8, characterized in that means for deactivating the maximum speed limit are provided which effect the deactivation when the braking force requested by the driver is greater than the braking force automatically set by the downhill assistance and / or effect the deactivation, - If the braking force built up at the request of the maximum speed limiter is reduced in a controlled manner as a result of an accelerator pedal actuation.

14. Computer program for a control device for speed limitation when driving downhill of a vehicle, which is stored on a storage element, in particular on a read-only memory, and which is suitable for carrying out a method according to one of claims 6 to 10 when it is on a computing device , especially on a microprocessor.