FR2802267A1 - Motor vehicle having gear that can be used in manual and automatic driving mode, where automatic driving mode has at least two automatic gear selection modes - Google Patents

Abstract

The vehicle has a gear that can be used in a manual driving mode, with a manually-operated gear stick (60), and an automatic driving mode, with the gear changed by a control unit (44) in a first automatic gear selection mode. The gear can be switch to at least one further automatic gear selection mode of the automatic driving mode. The automatic driving mode can be selected by selecting the further automatic gear selection mode.

Description

The present invention relates to a motor vehicle comprising a drive motor and a gearbox equipped with a device for modifying the gear ratio, a control device and a switching device, and in which the gearbox can operate in type of manual operation, in which a gear change is triggered by manual operation of the switching device, and in a type of automatic operation, in which a modification of the gear ratio is automatically triggered by the control device in a first gear mode. automatic selection of the gear ratio.

such motor vehicles are generally known. In German Pat. No. 3,717,675 a switching device is known for an automobile hicle comprising an automatic gearbox, in which the gear ratio can be selected both automatically and manually.

Similarly in the type of automatic operation, the driver expects to obtain a behavior of movement of the vehicle, which satisfies the requirements, for example with regard to driving safety and / or a particularly economical type of driving, a type of driving that respects the environment and / or a type of sporty driving. When, in addition, high driving comfort is to be achieved by simultaneous adaptation to different driving situations and taking into account different requirements, a type of automatic operation with only one type of automatic gear selector does not meet the requirements imposed. .

The invention aims to create a vehicle, which increases the safety for the driver and / or a type of economic driving and respecting the environment and / or comfort, especially with regard to driving.

This is obtained in the vehicle of the type indicated above because at least the gearbox can be switched at least in another automatic selection mode of the reduction of the type of automatic operation. Such another mode of selection of the gearing in the type of automatic operation can be a mode designed in particular for driving the vehicle on slippery roads. Advantageously the start is made with a lower starting torque than that used in the normal driving mode. Similarly, a mode for economic and environmentally friendly driving, in which drive motor operates predominantly in its range of rotational speeds, optimal from the point of view of consumption or less in the vicinity of this range, is advantageous . A sporty driving mode, in which the drive motor operates at high power, may be appropriate in accordance with the invention.

The advantage provided by the invention lies in the fact that a vehicle is created increases the safety for the driver and / or economical driving and respecting the environment and / or comfort, especially concerning driving, by the fact that at least one other automatic gear ratio selection mode is available for different hazard situations and on the basis of different requirements.

An advantageous embodiment of the invention makes it possible to select the other automatic selection mode of the automatic operation reduction ratio as well as from the first automatic selection mode of the reduction of the automatic operation type, as from the type of automatic manual operation. For example, it is possible to select a mode for a safe start in the case where the roadway is slippery or an economical and environmentally friendly driving mode, such as a pipe producing low emissions and / or achieving fuel economy, or sporty driving, from each type of operation.

According to other features of the invention, the selection or switching in the other automatic selection mode of the gearing, the automatic operation is performed manually or automatically; for the manual selection of the other automatic selection mode the reduction of the type of automatic operation, it is possible to actuate a switching element; an automatic switching in the other automatic selection mode of the reduction of the automatic operation type is performed by means of the control device, when at least one parameter satisfies a criterion which can be predetermined; the predetermined criterion is formed at least from a parameter of the vehicle and / or a parameter of the environment; the predetermined criterion may be modified according to at least one other parameter.

Another mode of selection respectively necessary of the multiplication of the type of automatic operation can be selected if necessary manually by the driver or in an automated way in the control device. The selection by the driver is effected by means of a switching element, and the automatic selection is effected by means of a control device when at least one parameter, which is sent to the control device as that input quantity, reaches a criterion that can be predetermined. This parameter is a parameter of the vehicle, for example a rotation speed and / or a parameter of the environment, such as outside temperature. The predetermined one is suitably a determined difference in rotational speed. It is advantageous that the rotation speed difference as a criterion is modified, in a manner influenced by other parameters, for example an intervention in so-called ASR regulation or else by the external temperature. Under the term ASR intervention, generally denotes an intervention performed by a traction control system (ASR), in which for example the engine torque is reduced in the case of a large wheel slip.

According to other features of the invention, the other automatic mode of automatic reduction of the type of automatic operation when switching the type of manual operation in the type of automatic operation has priority as long as it is activated; the other automatic selection mode of the reduction of the type of automatic operation can be deactivated manually or automatically; a switch to the manual operation mode from the automatic operation type in the other automatic gear selector mode does not represent any deactivation in the sense of a priority order. According to these provisions, if another mode of automatic selection of the gear ratio is selected, this mode has priority over the first mode of selection of the gear ratio until it is deactivated expressly in a manner triggered by the driver at control device. Intermediate switching on the manual operation type does not remove this priority, so that in the case of a return to the automatic operation type, the other automatic gear reduction selection mode is again selected.

The invention also relates to a motor vehicle comprising a drive motor and a gearbox equipped with a device for modifying the gear ratio, a control device and a switching device, characterized in that the gearbox can operate in a gearbox. a type of manual operation, in which a modification of the gear ratio is triggered by a manual operation of the switching device, and in a type of automatic operation, in which a modification of the gear ratio is triggered automatically by the control device in a first mode of automatic selection of the gear ratio.

Other features and advantages of the present invention will become apparent from the description given hereinafter with reference to the accompanying drawings, in which: - Figure 1 shows a vehicle comprising a driving chain, a device for actuating a box of speeds and a control device, in the form of a schematic representation; Figure 2 shows the arrangement of switching positions at the switching device; FIG. 3 represents a block diagram serving to represent the switching between the type of automatic operation and the type of manual operation; Figure 3a is a block diagram for showing the relationship between the type of automatic operation and the type of manual operation; FIG. 4 represents a block diagram for representing the communication between the type of automatic operation and the type of manual operation for selecting the gear reduction selection mode; Figure 5 shows a block diagram for illustrating the selection of gear selection mode from the type of manual operation; Figure 6 shows a block diagram for representing the selection of the gear selection mode by means of the control device; FIG. 7 is a block diagram for illustrating an example of the selection of another automatic downmix selector mode by the controller based on the fact that predetermined criteria can be met by parameters, with lag response thresholds; Figure 8 shows a block diagram for illustrating the mode selection switch priority; and FIG. 9 represents a block diagram in the case of the example of a winter driving mode.

FIG. 1 diagrammatically represents, by way of example, a vehicle 1 comprising a torque transmission device 4 and a gearbox 6. The torque transmission device 4 is disposed in the present case in the force between the engine of the engine. 2 and the gearbox 6, between the drive motor 2 and the torque transmission device 4 is arranged a divided mass of inertia, the partial masses of which can be rotated relative to one another. other by the interposition of a spring damping device, which has the effect that essentially the particular vibratory technical characteristics of the drive chain are improved. Preferably the invention is combined with a damping device for absorbing or compensating for rotation jolts or a device for compensating for jolts of rotation or a device for reducing jolts or a device for damping vibrations or oscillations, as described in particular in the publications DE OS 34 18 671, DE OS 34 1 1 092, OS 34 1 1 239, OS 36 30 398, OS 36 28 774 and DE <B> 05 </ B> 37 21 712 of the applicant.

The vehicle 1 is driven by a drive motor 2, which in this case is represented in the form of an internal combustion engine such as a gasoline engine or a diesel engine; in another embodiment, the drive can also be achieved by means of a hybrid drive, electric motor or hydraulic motor. The torque transmission device 4, in the exemplary embodiment represented, a friction clutch, by means of which the drive motor 2 can be separated from the gearbox 6, in particular for starting or running the engine. switching operations. A higher or lower torque is transmitted by means of a progressive engagement or disengagement of the clutch, and for this purpose a clamping plate and a pressure plate are offset axially with respect to each other and more or less drive an interposed friction disc. The torque transmission device 4 arranged in the form of a clutch is preferably self-adjusting, that is to say that the wear of the friction linings is compensated so that a force Low and constant disengagement is guaranteed. Preferably, the invention is combined with a friction clutch of the type described, for example, in the German patent applications DE OS 42 39 291, DE OS 42 39 289 and DE OS 43 <B> 06 </ B> 505 .

The wheels 12 of the vehicle 1 are driven by means of a shaft 8 via a differential 10. The speed sensors 70, 71 are associated with the driven or driven wheels 12, and optionally there is also provided a only rotation speed sensor 70 or 71, which respectively produces a signal corresponding to the speed of rotation of the wheels 12; in addition or alternatively, a sensor 52 is provided at another location in the drive train, for example on the shaft 8, to determine the output rotational speed of the gearbox. The transmission speed of the transmission can be determined using another sensor or also, as in the case of the embodiment, from the speed of rotation of the drive motor. , and in this way one can also set for example the gear ratio set in the gearbox. An actuation of the friction clutch 4, which is advantageously clamped, can be suitably also effected by pulling in another embodiment, and in the present case realized by means of an actuating device 46. , such as a clutch actuator. To actuate the gearbox 6, there is provided an actuating device, which comprises two actuators 48 and 50, one of which performs a selection actuation and the other a switching actuation. The actuator 46 of the clutch and / or the actuators 48, 50 of the gearbox are arranged in the form of DC electric motors, and in another exemplary embodiment, in particular when intense forces of actuation are required. it may also be very appropriate to provide a hydraulic system or a combined system for actuation. In the present embodiment, the actuation of the clutch is carried out appropriately by the interposed mounting of a hydraulic section.

The control of the clutch 4 and the gearbox 6 is effected by means of a control device 44, which suitably forms a construction unit with the actuator 46 of the clutch, in which case in another embodiment it may also be advantageous to install these units at another location in the vehicle. Actuation of the clutch 4 and the gearbox 6 can be carried out automatically in a type of automatic operation, by means of the control device, or in a type of manual operation, by means of an input made by the driver by means of a switching device 60, such as a shift lever, the intervention being detected by means of a sensor 61. In the type of automatic operation, Reduction stage changes are performed by means of a corresponding command of the actuators 46, 48 and 50 according to characteristic curves, which are stored in a memory associated with the controller 44. A plurality of driving programs is provided. , which are fixed by at least one characteristic curve and between which the driver can make a selection, such as for example a sports driving program, in which the engine of e train 2 operates with an optimized power, an economical operating program, in which the drive motor operates with optimized consumption or a winter operating program, whereby the vehicle 1 operates with optimized driving safety; furthermore, in the embodiment described, characteristic curves can be adapted, according to an adaptive mode, for example to the behavior of the conductor and / or to other secondary conditions such as the coefficient of friction of the roadway, the outside temperature, etc. Figure 1 schematically shows switching elements 65, 66, which serve to activate / deactivate described driving programs.

A control device 18 controls the driving motor 2 under the influence of the delivery of the mixture or the composition, in which case in the figure there is shown as a representative device a throttle 22 comprising a member 30 and whose opening angle is detected by means of an angular sensor 20 and whose signal is sent to the control device 18. In other embodiments of the engine control system of In the case where it is an internal combustion engine, the control device 18 receives a corresponding signal, on the basis of which the composition of the mixture and / or the volume sent can be determined.

Preferably, the signal of an existing lambda probe can also be used.

Furthermore, in the present embodiment, the control device 18 receives a signal from a load lever 14 actuated by the driver and the position of which is detected by means of a sensor 16, a signal relating to the speed of rotation. of the motor and which is produced by a rotational speed sensor 28, which is associated with the driven shaft of the motor, a signal of a sensor 26 of the pressure of the suction duct and a signal of a sensor 24 the temperature of the water pump. The control devices 18 and 44 may be formed in constructionally and / or functionally separated partial areas, and are preferably interconnected, for example by means of a CAN bus 54 or the like. another electrical link to perform a data exchange between these devices. But it can also be advantageous to combine the parts of the control devices, since in particular the combination of functions is not always possible clearly and cooperation is needed. In particular during certain phases of the downshift, the control device 44 can control the rotational speed and / or the torque of the drive motor 2.

Both the actuator 46 of the clutch and the actuators 48 and 50 of the gearbox produce signals, from which one can at least obtain a position of the actuators, which is delivered to the control device 44. The determination of In this case, the position is within the actuator, and an incremental sensor is used which determines the position of the actuator with respect to a reference point. In another exemplary embodiment, however, it may also be appropriate to arrange the transmitter outside the actuator and / or to perform an absolute position determination, for example using a potentiometer. In particular, determining the position of the actuator is of great importance as regards the actuator of the clutch. As a result, the activation point of the clutch 4 can be associated with a determined engagement path and consequently a position of the actuation. Advantageously, the activation point of the clutch 4 during start-up and during operation is determined again and again, in particular as a function of parameters such as, for example, clutch wear, temperature of the clutch, etc. Determining the positions of the actuators of the gearbox is important with respect to determining the gear ratio introduced.

In addition, signals are sent to the controller 44 by sensors 72 and 73 of the rotational speed of the non-drive wheels 75 and 76. To determine a vehicle speed, it may be appropriate to use the average speed value. provided by the rotational speed sensors 72, 73 or 70, 71 so as to compensate for differences in speeds of rotation, for example when crossing curves. By means of the rotational speed signals the vehicle speed can be determined and furthermore a slip identification can be carried out. In the Figure, the output links of the controller are shown as solid lines, and input links are represented by dashed lines. The connection of the sensors 70, 71 and 73 with the control device 42 is simply indicated.

Part 36 of the control device can influence the driving torque / braking torque by means of the drive motor 2, the clutch 4 and / or the wheel brake rollers 38. This part of the control device control receives signals from the wheel rotation sensors 71, 72 and 34 for actuating a brake pedal 32.

Figure 2 shows a disposition 100 of the switching positions at the selector lever 60, N corresponding to neutral position 101 and R corresponding to a reverse position 102. The positions N, R and the forward position (V ) 103 located in the center between +104 -105 are positions, in which the selection lever 60 is retained by a force link or in a complementary form connection, so that it can not be removed from these positions that by overcoming a detectable resistance. The positions + 104, -105 and D / M 1 are positions, in which the selection lever 60 is not retained, the selection lever 60 is held prestressed in the forward position 103 under the control. action of the spring device spring, and automatically returns from the positions 104, 105 and 106, to the starting position 03.

Positions + 104 and -105 cause the switchover to the first higher speed switching stage or a downshift to the first lower speed switching step, in the case where the gearbox 4 is a gearbox with staggered commutation, or a reduction or an increase in the gear ratio in the case where, with regard to the gearbox 4, it is a question of a continuous or progressive gearbox, in the case of a simultaneous switching in the type of manual operation; the position D / M 106 causes switching between the type of manual operation and the type of automatic operation, without changing the gear ratio.

Next to the selection lever 60 providing a possibility of switching between the type of manual operation and the type of automatic operation, there is provided at least one switching element for selecting at least one other selection mode of the multiplication. , differs from the first automatic gear selector mode.

In an exemplary embodiment, the first reduction gear selection mode is a standard gear selection mode for a normal driving operation, and the other automatic gear ratio selection mode is a mode designed in particular for driving a vehicle on a vehicle. slippery roadway, such as a winter mode of operation. In another exemplary embodiment, there is provided, as another automatic mode for selecting the gear ratio, a mode relating to a conduct which is particularly environment-friendly, and in another exemplary embodiment, a mode for a particular embodiment is provided. sporty driving. The exemplary embodiments may be present individually or in combination. The gear selection modes can be selected by means of switching elements 107, 108, 109.

A standard gear selection mode is one in which the control device 18, 36, 44, 46 controls the engine 2, the clutch and the gearbox 6 so that under normal driving and in the case of normal driving, the function of the possible link is guaranteed.

A gear selection mode designed especially for driving the vehicle on a slippery road, can be a mode, in which one starts with a start torque reduced compared to the standard mode. Such a mode can be designated as a winter driving mode.

It is possible to obtain a reduction of the starting torque, for example by starting with a lower gear ratio than the normally used starting gear. In another exemplary embodiment, the torque can be limited by means of the clutch 4 by reducing the torque by means of a controlled disengagement. Another exemplary embodiment makes it possible to reduce the starting torque applied by the internal combustion engine by the fact that - in the case where, with regard to the internal combustion engine, it is a gasoline engine - the engine torque is reduced by means of throttle adjustment. In another exemplary embodiment, driving torque is reduced by the braking of the wheels 12 by means of the wheel brake cylinders 38. All the previously mentioned embodiments may also be used in combination.

A mode for a particularly economical and environmentally friendly driving is characterized for example by the fact that control of the components have an influence, is carried out in such a way that obtains a particularly efficient operation in relation to the fuel consumption. The exemplary embodiment includes avoiding unnecessarily increased acceleration of the drive motor as well as soft engagement and disengagement.

A mode for sporty driving allows power-oriented operation. The gear ratio is selected by the controller 18, 44 so that the drive motor operates in or near its optimum power range. In the case of a staggered gearbox, for example a switch to the next higher speed is performed only in the case of higher rotational speeds, the clutch being opened and closed in a corresponding fast mode, when gearshift operations.

Figures 3 and 3a show block diagrams 200, 250 which represent the switching between a type of automatic operation with the first mode of selection of the gear ratio - blocks, 253 - and a type of manual operation, blocks 205, 255.

Once the ignition is activated - which is designated the start 201 in Figure 3 - and the selection lever is moved from the position to the forward position, see block 202, in the type of automatic operation , an initialization is performed with the first mode of selection of the gear ratio, see block 203, and a characteristic is produced, on the basis of which the type of operation now set can be set, and for example a variable B is set to the value a. When the DIM switch is actuated, depending on the type of operation present, the type of automatic operation or the type of manual operation is selected, block 204. If, for example, B = a, a switching occurs. 2045 in the manual operation mode - block 205 - and the value of variable B is set to m. A new operation of the D / M switch, block 204, causes a return 2043 to the automatic operation type, and B again takes the value a.

The representation 250 in Fig. 3a involves the initialization, see block 251, in the automatic operation type 253 with the first gear selector switching mode, and respective switching 2543, 2545 between the operation types 253 and 255 at the same time. means of actuating the D / M switch.

As shown in block diagram 300 in Fig. 4, apart from the first automatic gear selector mode, see block 303, other automatic gear selection modes, blocks 303a, 303b, are present. The initialization during starting - block 301 and the switching from N to the forward position, see block 302, in the automatic operating mode with the first gear selection mode, block 303, corresponds to what is shown. in Figures 3 and 3a. Similarly switching between the manual operating mode see block - and the type of automatic operation is performed with the first mode of selection of demultiplication, see block 303, by means of a movement of the D / M switch and a blockage of the type of operation present 304.

The further additional automatic gear selector modes, block 303a, 303b, may be selected by actuating a corresponding mode select switch, see block 305. As shown in block diagram 303, another Automatic reduction gear selection mode, block 303a or 303b, can be selected manually only from the automatic operation type with the first gear selection mode, see block 303. To select another automatic selection mode of the gear selector. 303a or 303b, from the type of manual operation, block 306, it is first necessary to switch, by means of a D / M switch operation, on the type of automatic operation with a first mode of selection of the gear ratio, see block 303. This is very uncomfortable for a driver, especially when it comes, with regard to the Another way of automatically selecting the gear ratio, of a winter mode of operation described above, may also mean a reduction of the operational safety, since the winter mode of operation connected possibly too late or even not connected at all.

advantageous embodiment of the invention shown in the block diagram 400 of Figure 5. In accordance with what has just been described with reference to Figure 4, another automatic selection mode of the gear ratio, see block 403a or 403b, can be selected from the type of automatic operation with a first mode of selecting the gear ratio (block 403) as from the type of manual operation, block 406, by means of the actuation of the switch mode selection, see block 405. In addition it is not necessary, in the case of a selection of another mode of automatic selection of the gear ratio, block 403a or 403b, from the type of manual operation, block 406, to switch first in the type of automatic operation having the first mode of selection of the gear ratio, block 403. If with regard to the other automatic selection mode This is a winter mode of operation as described above, if necessary, mode can be connected quickly. If the other automatic gear-down selection mode is an economy mode of operation or a sporty driving mode as previously described, the selection for the driver may be more convenient. A new operation of the mode selection switch corresponds to the selection of the standard selection mode of the gear ratio and returns to the automatic operation type with the first mode of selection of the gear ratio, see block 403.

An advantageous embodiment variant of the exemplary embodiment is shown in FIG. 6. The block diagram 500 represents other modes of selection of the reduction of the type of automatic operation 503a, 503b, 503c, which can be selected both at from the type of automatic operation with a first gear selection mode, see block 503, that from the manual operation type, see block 506, using a mode selection switch, by the In addition, the selection of another mode of selection of reduction of the types of automatic operation, blocks 503a, 503b, 503c, can also be carried out by means of the control device, see blocks 508, 507. Selecting another selection mode of the automatic operation type, block 503a, 503b or 503c, is performed when certain parameters reach criteria that can be predetermined.

The selection of the type of automatic operation with another mode of automatic selection of the gear ratio, block 503a, 503b 503c, by the control device, see blocks 508, 507, when predetermined predetermined criteria of parameters are reached, is represented in FIG. as an example in Figure 7.

A winter mode of operation, as described, is selected by the control device when identifying a slippery roadway in winter or a wet roadway (blocks 508, 507). This identification can be based on the evaluation of speeds of rotation and / or couples. In the present case, the comparison of the speed of rotation na of the drive wheels to that of the non-driving wheels indicates a wheel slip in the case of a determined difference on = <B> 51 </ B> between the speeds of rotation. rotation.

The response threshold S1 can be shifted - for example by means of an already executed intervention of the traction control system or in the case of a low outside temperature, so that when the differential rotation speed increases, the mode of operation in winter is advantageously already selected earlier, namely when exceeding the new lower threshold 52.

If only the rotational speeds of the drive wheels are available, their gradient may indicate a smooth roadway in the case of exceeding a certain value. Likewise a rapid decrease in the driving torque can signal wheel slip. In addition, the present invention refers to an earlier German patent application DE 19926022 or a later application, the content of which is expressly part of the disclosed content of the present application.

An equally advantageous embodiment of the invention is represented by the block diagram 600 of FIG. 8. The selection, see block 602, of the selection mode of the gear ratio, block 603, 603a, 603b or 603c, in FIG. automatic mode of operation is performed according to the signal of at least one mode selection switch. Actuation of the D / M switch, see block 604, switches between the manual operation type and block 605, and the automatic operation type, block 603, <I> 603a, </ I> 603b or 603c. The switching between the manual operation mode and the automatic operation mode is carried out respectively between the manual operation type and the automatic operation type with the selected mode of the reduction ratio.

block diagram 700 in FIG. 9 again shows advantageous variant embodiments of the invention in the case of the example of the winter mode of operation. The initialization 701 leads to the automatic operation type after the first gear reduction selection mode, a standard mode 702. By means of the operation of the D / M switch <B> 106, </ B> is switched to 7023 on the type of manual operation, while pressing the winter operating key <B> 107 </ B> switches to the winter operation mode 7024. Repeated operation of the D / M switch 10632 returns , as in case of a repeated operation 7042 of the operating key in winter <B> 107, </ B> to the automatic operation type with the standard selection mode 702 of the gear ratio.

 actuation 7043a of the winter operation key <B> 107 </ B> in manual operation mode 703 activates the winter operation mode 704. A 7043 actuation of the D / M switch 106 in the winter operation mode 704 causes a switching to the manual operation mode 703 and simultaneously ensures that, upon renewed operation 7034b of the D / M switch <B> 106, </ B> there is a return to the winter operation mode 704. According to another idea of the invention, it is proposed, connection with the gearbox of the present vehicle, to provide an electric motor, whose rotor is connected for example to a mass of inertia which can rotate freely and which can be isolated advantageously using at least one clutch by the drive unit as well as the internal combustion engine and the driven shaft relative to the mass of inertia, or form this mass of inertia, of so that systems Hybrid training is possible using these provisions. According to this embodiment, the gearbox allows extended use of the electric motor, for example as a starting unit for the internal combustion engine, current generator, partial drive system and complete drive system as well as as a unit for converting kinetic energy into electrical energy or rotational kinetic energy, by using the rotor as a mass of inertia, during a deceleration process of the vehicle when the internal combustion is decoupled (recovery).

The claims appended to this application are wording proposals without prejudice to obtaining continuing patent protection. The applicant reserves the right to claim further features or combinations of features which heretofore have only been disclosed in the description and / or drawings.

References used in the subclaims relate to further development of the subject matter of the main claim by the features of the respective subclaims; they should not be considered as a waiver of independent protection of the subject characteristics or combinations of relevant subclaim characteristics.

Since the subject-matter of these subclaims may constitute, in the light of the state of the art on the priority date attached to this application, own and independent inventions, the Applicant reserves the right to make subject of other independent claims or divisional applications. These objects may also contain independent claims that represent a configuration independent of the objects of the preceding subclaims.

The exemplary embodiments should not be considered as a limitation of the invention. In contrast to many changes and modifications are possible in the context of the invention as presently exposed, in particular variants, elements and combinations and / or materials which are for example inventive by combination or transformation of characteristics or elements or steps of processes described in the general description and the embodiments as well as the claims and contained in the drawings, and which lead by combinable characteristics to a new object or to new process steps or process sequences, insofar as they also relate to manufacturing processes, control and work and where they allow the skilled person to provide a solution to the problem underlying the invention.

Claims (1)

<U> CLAIM </ U> 1CATIONS 1. Motor vehicle comprising a drive motor and a gearbox equipped with a device 50) for modifying the gear ratio, a control device (18,36,42,44 ) and a switching device, and wherein the gearbox is operable in a type of manual operation, wherein a change in the gear ratio is triggered by manual operation of the switching device, and in a type of automatic operation, wherein a modification of the gear ratio is triggered automatically by the control device in a first automatic gear reduction selection mode, characterized in that the gearbox can be switched to at least one other automatic selection mode of the reduction of the gear type. automatic operation. 2. Motor vehicle (1) according to claim 1, characterized in that during the selection of the other automatic selection mode of the gearing, a switch is executed from the manual operating mode or from the automatic operating mode. (403), in the other automatic selection mode of the reduction of the type of automatic operation. 3. Motor vehicle according to either of claims 1 and 2, characterized in that the selection or switching in the other automatic selection mode of the gear ratio, the type of automatic operation is executed manually () or automatically (507). 4. Motor vehicle according to claim 3, characterized in that for manual selection of the other automatic selection mode of the reduction of the type of automatic operation, can be actuated a switching element (107,108,1 5. Motor vehicle according to claim 3, characterized in that automatic switching to the other automatic selection mode of the automatic operation type reduction is performed by means of the control device (506), when at least one parameter satisfies a Criterion that can be predetermined 6. Motor vehicle according to claim 5, characterized in that the predetermined criterion is formed at least from a parameter of the vehicle and / or a parameter of the environment. automobile according to claims 5 and 6 taken together, characterized in that the criterion that can be predetermined can be changed at least one other parameter 8. Motor vehicle according to claim 1, characterized in that the other automatic mode of selection of the reduction (603a, b, c) of the type of automatic operation when switching from the manual operation type (605) to the automatic operation type has priority as long as it is activated. 9. Motor vehicle according to claim 8, characterized in that the other automatic selection mode of the reduction of the type of automatic operation can be disabled manually or automatically. 10. A motor vehicle according to claims 8 and 9 taken as a whole, characterized in that a switch to the manual operation mode (605) from the type of automatic operation in the other mode of automatic selection of the gear ratio ( 603a, b, c) does not represent any deactivation in the sense of a priority order. Motor vehicle comprising a drive motor and a gearbox equipped with a device for modifying the gear ratio, a control device and a switching device, characterized in that the gearbox can operate in a type of gearbox. manual operation, in which a modification of the gear ratio is triggered by a manual actuation of the switching device, and in a type of automatic operation, in which a modification of the gear ratio is triggered automatically by the control device in a first mode of selection automatic demul tition.