阅读说明：本技术 用于控制具有驻车锁的机动车的方法 (Method for controlling a motor vehicle having a parking lock ) 是由 P·默勒 S·萨姆森 S·厄恩斯特 R·瓦尔内克 于 2018-12-21 设计创作，主要内容包括：本发明涉及一种用于控制机动车(10)的方法,该机动车具有至少一个驻车锁(133),其中,机动车(10)具有传动系(20),其中,传动系(20)具有至少一个驱动马达(11)、至少一个车轮(12)、尤其多个车轮、和至少一个传动机构(13),其中,设置和/或存在有用于操纵驻车锁(133)的操作元件(14),其中,驻车锁(133)可占据锁定位置和释放位置,在锁定位置中驻车锁(133)锁定传动系(20)和/或传动系(20)的一部分,在释放位置中驻车锁(133)释放传动系(20)和/或传动系(20)的一部分,并且其中,在操纵操作元件(14)之后,使驻车锁(133)从释放位置切换到锁定位置中(或者反过来)。由此改善这种方法,即,测定机动车(10)的速度,在操纵操作元件(14)之后并且如果驻车锁(133)之前占据释放位置,-检验该速度是否大于预定的第一阈值,并且-如果该检验成功,产生第一警告信号,并且-实施将驻车锁(133)切换到锁定位置中。(The invention relates to a method for controlling a motor vehicle (10) having at least one parking lock (133), wherein the motor vehicle (10) has a drive train (20), wherein the drive train (20) has at least one drive motor (11), at least one wheel (12), in particular a plurality of wheels, and at least one transmission (13), wherein an operating element (14) for actuating the parking lock (133) is provided and/or present, wherein the parking lock (133) can assume a locking position in which the parking lock (133) locks the drive train (20) and/or a part of the drive train (20) and a release position, in the release position the parking lock (133) releases the drive train (20) and/or a part of the drive train (20), and wherein, after the actuation of the operating element (14), the parking lock (133) is switched from the release position into the locking position (or vice versa). The method is improved in that the speed of the motor vehicle (10) is determined, the release position is occupied after the operating element (14) is actuated and before the parking lock (133), whether the speed is greater than a predetermined first threshold value is checked, and a first warning signal is generated if the check is successful, and the parking lock (133) is switched into the locking position.)

1. Method for controlling a motor vehicle (10) having at least one parking lock (133), wherein the motor vehicle (10) has a drive train (20), wherein the drive train (20) has at least one drive motor (11), at least one wheel (12), in particular a plurality of wheels, and at least one transmission (13), wherein an operating element (14) for actuating the parking lock (133) is provided and/or is present, wherein the parking lock (133) can assume a locking position, in which the parking lock (133) locks the drive train (20) and/or a part of the drive train (20), and a release position, in which the parking lock (133) releases the drive train (20) and/or a part of the drive train (20), and wherein, after actuating the operating element (14), switching the parking lock (133) from a release position into a locking position or vice versa, characterized in that the speed of the motor vehicle (10) is determined, the release position is assumed after the actuation of the operating element (14) and before the parking lock (133),

-checking whether the speed is greater than a predetermined first threshold value, and

-if the check is successful, generating a first warning signal, and

-carrying out the switching of the parking lock (133) into a locking position.

2. Method according to claim 1, characterized in that a first indication is triggered on a cluster (16) of the motor vehicle (10) by the first warning signal within a predetermined period of time.

3. Method according to any one of the preceding claims, characterized in that the first indication contains information relating to an improper handling of the parking lock (133) while the motor vehicle (10) is travelling and/or information relating to an increased wear of the parking lock (133).

4. Method according to any of the preceding claims, characterized in that

If the verification of the speed is successful,

-incrementing a count variable;

-checking whether the count variable is greater than a predetermined second threshold;

-generating a second warning signal if the check is successful.

5. Method according to claim 4, characterized in that a second indication is triggered on the instrument cluster (16) of the motor vehicle (10) by means of the second warning signal within a predetermined period of time.

6. The method according to any one of claims 4 or 5, characterized in that the second indication contains information relating to reaching a maximum number of improper manipulations of the parking lock (133) while the motor vehicle (10) is traveling, and/or information relating to a defect or malfunction of the parking lock (133), and/or information relating to a search for a workshop, and/or information relating to using a parking brake of the motor vehicle (10).

7. Method according to any of the preceding claims, characterized in that the transmission (13) has a drive shaft (131), a driven shaft (132) and/or an intermediate shaft, wherein the drive shaft (131) is coupled or coupleable at the drive motor (11) and the driven shaft (132) is coupled at the wheel (12), wherein the parking lock (133) is arranged to lock the drive shaft (131), the driven shaft (132) and/or the intermediate shaft of the transmission (13).

8. Method according to any one of the preceding claims, characterized in that the parking lock (133) is configured as a mechanically operable parking lock.

9. Method according to claim 8, characterized in that the operating element (14) is functionally operatively coupled with a control device (17) and the control device (17) actuates a mechanically operable member for switching the parking lock (133).

10. Method according to claim 8, characterized in that the operating element (14) is directly mechanically connected with the mechanism of the parking lock (133), in particular via a Bowden cable, for actuating the parking lock (133).

Technical Field

The invention relates to a method for controlling a motor vehicle having at least one parking lock according to the features of the preamble of claim 1.

Background

In order to control a motor vehicle having a parking lock, the drive train of the motor vehicle has in particular a plurality of components, in particular a drive motor, at least one wheel, in particular a plurality of wheels, and at least one transmission, wherein the respective components are operatively coupled and/or connected to one another in order to transmit the respective drive caused by the drive motor to the respective at least one wheel.

Conventional motor vehicles therefore generally have a drive motor, a plurality of wheels, a transmission having a drive shaft, a driven shaft and a parking lock, in particular for locking the driven shaft, a parking lock and an operating element for the parking lock. The drive shaft is coupled to or can be coupled to and/or operatively connected to the drive motor, the output shaft is coupled to or can be coupled to and/or operatively connected to at least one wheel, and the operating element is functionally directly or indirectly coupled to or operatively connected to the parking lock, in particular in the case of a parking lock which can be directly manually actuated.

The driver of the motor vehicle can engage the parking lock by actuating the actuating element and thus prevent an unintentional slipping of the parked motor vehicle. However, the driver can also engage the parking lock during driving by actuating the actuating element, in particular when the motor vehicle is traveling only very slowly, and thus brake the traveling motor vehicle. This is also referred to as "improper actuation" of the so-called parking lock and leads to increased wear of the transmission and/or the corresponding components.

DE 102013009747 a1 describes a motor vehicle having a drive train with a drivable axle which is connected to an electric motor via a force transmission device having a gear mechanism. The vehicle has a parking lock, by means of which the force transmission device can be locked; and a parking brake by means of which the vehicle can be fixed. The gear mechanism has a fixed-ratio gear (Festuebersettzung) into which the parking lock engages. The parking brake is a redundant brake system with respect to the parking lock. In the event of a parking lock failure, a warning signal may be transmitted to the person sitting in the vehicle. In the event of a malfunction of the parking lock, the parking brake can be actuated automatically. In this known motor vehicle, a warning signal is transmitted when the parking lock is defective, and the parking brake is automatically actuated in the event of a malfunction of the parking lock.

DE 10243276B 4 describes a method for controlling a selector lever lock in order to prevent an improper actuation of the parking lock as a result of a movement of the selector lever of an automatic transmission of a motor vehicle. The selector lever is connected to the parking lock via a cable. The vehicle speed (v) of the vehicle is detected via a controller in a sensor-assisted manner. If the vehicle speed (v) is greater than the limit speed (vlim), the selector lever lock is activated for preventing the parking lock from being engaged. The select lever lock is deactivated for enabling the parking lock to be engaged if the vehicle speed is less than or equal to the limit speed (v ≦ vlim). Although this known method prevents the parking lock from being engaged when driving too fast, i.e. when the motor vehicle is driving faster than the limit speed, it does not prevent the parking lock from being engaged when driving slowly, i.e. when the parking lock motor vehicle is not driving faster than the limit speed or slower than the limit speed, but rather enables the parking lock to be engaged.

DE 102006061656 a1 describes a method for estimating the wear state of an electric parking brake which is actuated in a vehicle via a control system for generating at least one dynamic braking process. A dynamic braking process is understood here to mean the braking of a vehicle in motion which exceeds a predetermined minimum speed, for example of the order of 5 km/h. The presence of a dynamic braking process is determined. The reference value which accounts for the current state of wear of the electric parking brake is updated accordingly. To estimate the wear state, the reference value is updated accordingly before, during or immediately after activation of the electric parking brake. In order to determine the presence of a dynamic braking process, a first measurement signal is generated which is dependent on the speed of the vehicle and is evaluated by the control system. A single measurement variable is derived from the generated first measurement signal, this measurement variable is compared with a first associated measurement threshold value, and an increased wear state is detected if it is exceeded by the measurement variable. The number of dynamic braking processes is detected as an updated reference value and the state of wear of the electric parking brake is estimated therefrom. The driver of the vehicle is informed of the state of wear of the electric parking brake. The electric parking brake is provided in addition to the conventional service brake of the vehicle. In the normal case, dynamic braking of the vehicle takes place via the service brake, whereas static braking of the vehicle takes place by means of the electric parking brake. However, in a specially preset driving situation or emergency situation, the electric parking brake may additionally or alternatively be used for dynamic braking of the vehicle. In order to generate the adjusting force, the electric parking brake has an electric motor drive unit. The adjusting force is transmitted from the electric-motor drive unit to a brake mechanism unit, which is operatively connected to the electric-motor drive unit via a cable system. In accordance with the actuating force present at the brake mechanism unit, a braking force is generated by the brake mechanism unit, by means of which at least one wheel of the vehicle is braked. The known method involves wear of an electric parking brake that brakes a wheel of the vehicle.

Disclosure of Invention

The object of the invention is therefore to improve a method for controlling a motor vehicle having a parking lock.

The object on which the invention is based is achieved by a method for controlling a motor vehicle having at least one parking lock, having the features of claim 1. Advantageous embodiments of the invention are described in the dependent claims.

Firstly, the speed of the motor vehicle is determined, after the actuation of the operating element and if the parking lock is in the released position, it is checked whether the speed is greater than a predetermined first threshold value, and if the check is successful, a first warning signal is generated, wherein the parking lock is switched into the locked position.

The basic idea of the invention is firstly to lock the drive train and/or a part of the drive train, in particular a component of the drive train, by means of the parking lock when the parking lock is switched from the release position into the locking position. However, if there is a so-called "improper manipulation" by the driver (who has manually manipulated the operating element) when the parking lock is engaged into the lock position, a first warning signal is generated. This makes the driver aware of "improper actuation" of the parking lock, and in particular also warns the driver, and perhaps-from now on-when the parking lock is engaged-more attention is paid to the command it applies via the operating element. That is, the attention of the driver is accordingly increased by the first warning signal.

Since the first warning signal is already generated when the first successful test is made (and not only when the parking lock fails, as in the prior art from DE 102013009747 a 1), the driver of the motor vehicle can be indicated early on that the parking lock is actuated improperly while the motor vehicle is moving and that increased wear of the parking lock and/or the transmission results. Wear can therefore be delayed in particular.

The actuation of the operating element is carried out manually by the driver of the motor vehicle.

The actuating element can be designed in any desired manner and method, for example as a selector lever at the center console of the motor vehicle or as a switch at the dashboard of the motor vehicle.

In one embodiment, it is provided that the first warning signal triggers a first indication in a predetermined time period on a combination instrument of the motor vehicle.

The first indication may be constructed in any manner and method as desired and for example comprises an optical and/or acoustic signal and/or a display of text and/or icons.

In one embodiment, it is provided that the first indication contains information relating to an improper actuation of the parking lock during the travel of the motor vehicle and/or information relating to an increased wear of the parking lock and/or the transmission.

In one embodiment it is provided that,

if the verification of the speed is successful,

-incrementing a count variable;

-checking whether the count variable is greater than a predetermined second threshold;

-generating a second warning signal if the check is successful.

Thus, the count variable is the number of improper manipulations of the parking lock. After the parking lock or the gear is repaired or after a new parking lock or a new gear is installed, the counter variable is preferably reset to zero.

In one embodiment, it is provided that the second warning signal triggers a second indication in a predefined time period on the instrument cluster of the motor vehicle.

The second indication may be constructed in any manner and method as desired and may for example comprise an optical and/or acoustic signal and/or a display of text and/or icons.

In one embodiment, it is provided that the second indication contains information relating to a maximum number of incorrect actuations of the parking lock during travel of the motor vehicle, and/or information relating to a defect or malfunction of the parking lock, and/or information relating to a search space, and/or information relating to the use of a parking brake of the motor vehicle.

Different possibilities exist for implementing a parking lock in the drive train of a motor vehicle accordingly. It is important that the parking lock is arranged and/or designed in such a way that the drive train and/or a part of the drive train, in particular a component of the drive train, is then locked in the locked position of the parking lock in such a way that at least one wheel of the motor vehicle is locked in order to prevent an unintentional slipping. In particular, the transmission has a drive shaft, a driven shaft and/or an intermediate shaft, wherein the drive shaft is operatively coupled to the drive motor and the driven shaft is operatively coupled to the at least one wheel. In particular, the parking lock is then provided and/or configured to lock the drive shaft, the driven shaft and/or the intermediate shaft of the transmission.

The motor vehicle may preferably have an automatic or automated transmission. The motor vehicle can advantageously be a hybrid or electric vehicle, the drive train of which has at least one electric machine as drive motor.

Drawings

There are now a number of possible ways of designing and improving the method according to the invention for controlling a motor vehicle having a parking lock in an advantageous manner and method. For this purpose reference may be made first to the claims depending on claim 1. The preferred embodiments of the invention can be explained in detail below with the aid of the figures and the associated description. Wherein:

fig. 1 shows a preferred embodiment of a motor vehicle, in particular a motor vehicle with a parking lock;

fig. 2 shows a preferred embodiment of the method for controlling the motor vehicle of fig. 1.

Detailed Description

Fig. 1 schematically shows a preferred embodiment of a motor vehicle 10, in particular a motor vehicle "10" with a parking lock 133.

The motor vehicle 10 has a drive train 20, wherein the drive train 20 has at least one drive motor 11, at least one wheel 12 (in particular a plurality of wheels), and at least one transmission 13. For actuating the parking lock 133, an operating element 14 is provided and/or present, wherein the parking lock 133 can be switched into a locking position or into a release position. In the locked position of the parking lock 133, the drive train 20 and/or a part of the drive train 20 or in particular one of the previously mentioned components is locked, so that an unintentional slipping of the motor vehicle 10 is prevented. Accordingly, the design and/or embodiment of the parking lock 133, in particular the arrangement of the parking lock 133 in the drive train 20, can be implemented in a plurality of ways. In the following, a preferred embodiment of the motor vehicle 10 and/or an arrangement or configuration of the parking lock 133 may be described.

The motor vehicle 10 has a drive motor 11, at least one wheel 12 (in particular a plurality of wheels), at least one gear 13, an operating element 14, a wheel speed sensor 15, a combination meter 16 and a control device 17.

The gear mechanism 13 has a drive shaft 131, a driven shaft 132 and/or an intermediate shaft, not shown, and in particular a parking lock 133 for locking the driven shaft 132.

The drive motor 11 is coupled to and can drive the drive shaft 131, while the driven shaft 132 is coupled to and can drive at least one wheel 12.

The parking lock 133 can assume a locking position, in particular locking the output shaft 132, and a release position, in particular releasing the output shaft 132. The operating element 14 is coupled to the control device 17 and/or to the parking lock 133 and is configured as a selector lever, in particular, by way of example. In particular, the operating element 14 can be operated manually by a driver of the motor vehicle 10 and/or is functionally operatively connected to the control device 17.

In particular, the parking lock 133 is designed as a mechanically actuatable parking lock 133. In this case, the operating element 14 can be operatively connected to the parking lock 133, in particular directly mechanically, in particular via a bowden cable, or the parking lock 133 can be actuated by the control device 17 (as a mechanically designed parking lock 133) via an actuator actuated by the control device 17 accordingly, which then mechanically actuates the parking lock 133.

The control device 17 is coupled to the parking lock 133, the operating element 14, the wheel speed sensor 15 and to the combination meter 16. The control device 17 is designed such that it can determine the speed of the motor vehicle 10, in particular by means of the wheel speed sensor 15, and also the position of the parking lock 133, and can switch the parking lock 133 from the release position into the locking position (and vice versa) as a function of the actuation of the operating element 14.

Fig. 2 schematically shows a preferred embodiment of the method for controlling the motor vehicle 10. The method is implemented by the control device 17 as an example.

In step 100, the speed of the vehicle 10 is determined. For this purpose, the control device 17 evaluates the measured values provided by the wheel speed sensors 15 with respect to the rotational speed of the wheels 12 in a known manner.

In step 101 it is checked whether the operating element 14 is actuated. For this purpose, the control device 17 evaluates the status signal provided by the operating element 14. If the check is successful, a jump is made to step 102, otherwise a jump is made to step 100.

In step 102, it is checked whether the parking lock 133 occupies the release position. For this purpose, the control device 17 evaluates the position signal provided by the parking lock 133. If the check is successful, a jump is made to step 103, otherwise a jump is made to step 100.

In step 103 it is checked whether the speed is greater than a predetermined first threshold value. To this end, the control device 17 reads out the first threshold value from the memory and compares it with the measured speed. If the check is successful, a jump is made to step 104, otherwise a jump is made to step 100.

A first warning signal is generated in step 104 and transmitted to the combination meter 16, which displays a first indication within a predetermined period of time, which contains information relating to an improper actuation of the parking lock 133 while the motor vehicle 10 is traveling and information relating to an increased wear of the parking lock 133.

In step 105, the parking lock 133 is switched into the locking position. For this purpose, the control device 17 actuates the parking lock 133 in particular such that the parking lock 133 assumes the locking position.

In step 106, the count variable is incremented and it is checked whether the count variable is greater than a predetermined second threshold value. To this end, the control device 17 reads the second threshold value from the memory and compares it with the counting variable. If the check is successful, jump to step 107, otherwise jump to step 100.

In step 107, a second warning signal is generated and sent to the combination meter 16, which displays a second indication within a predetermined period of time, the second indication containing information relating to the maximum number of incorrect manipulations of the parking lock 133 being reached while the motor vehicle 10 is traveling, and/or information relating to a malfunction of the parking lock 133, and/or information relating to a search for a workshop, and/or information relating to the use of a parking brake, not shown, of the motor vehicle 10.

List of reference numerals:

10 Motor vehicle

11 drive motor

12 wheel

13 drive mechanism

131/132/133 Driving shaft/driven shaft/parking lock

14 selector lever, operating element

15 wheel speed sensor

16 combination meter

17 control device

20 drive train.