DE102006005858A1 - Controlling method for circuits of twin-clutch transmission of motor vehicle, involves determining target course of derivative time, where target course is situated approximately on free transmission drive shaft - Google Patents

Abstract

The method involves determining the target course of derivative time. The target course is situated approximately on the free transmission drive shaft. The target time required is defined for applying of free clutch. The target overlap time required is defined for the locking of enclosed clutch and then the derivative time is calculated as the sum of determined target time before the target overlap time and the target opening time.

Description

The The invention relates to a method for controlling the circuits of a Double clutch transmission of a motor vehicle, vzw. an automatic Dual clutch transmission, wherein the dual clutch transmission a first input shaft with a plurality of gear stages, vzw. of the odd gear stages, and a second input shaft having a plurality of gears, vzw. has the even gears, wherein the first input shaft, a first clutch and the second input shaft a second clutch is assigned, wherein the corresponding desired switching points, especially for a perceivable by the driver gear change via corresponding in one control unit stored characteristic curves in dependence the engine speed are determined, and wherein a Circuit under consideration a retention period is initiated and the retention period previously set is and / or determined.

in the The prior art is used in the control of the circuits of an automatic Getriebes tried with appropriate circuits the previously specified Target switching points also comply. These target switching points are for the respective gear stage changes generally determined by in a control unit stored characteristics. This becomes a dependency between the desired switching points and the engine speed or the engine torque specified. So the vehicle is always at a certain setpoint switching point, the for the Driver is particularly noticeable by an engine speed change, at to switch to a specific gear change. Since the circuit in essential from a sequential juxtaposition of different Actuator phases and / or working phases, such as the steps: "a) the engage new gear, b) apply the free clutch (for a dual-clutch gearbox), c) the overlap the two clutches (in a dual-clutch transmission) realize and d) release the previously closed clutch ", exists, the respective circuit vzw. always with a certain Lead time initiated, so that the target switching point, ie the time, for what the driver of the "new Intervention is noticeable also is taken accordingly. Different expressed There is generally a desire to have a circuit at a precise one to perform the engine speed point specified in the shift maps. This can also be partially checked by the driver For example, in a so-called full load acceleration.

For the well-known dual-clutch transmission may now advance the previously known conventional switching processes based on the 1a to 1c will first be explained in more detail:
The dual-clutch transmission has two input shafts, namely a first input shaft and a second input shaft, wherein on the first input shaft vzw. the gears for the odd gears and on the second input shaft vzw. the gears are arranged for the straight gears. Each input shaft is associated with a corresponding separate clutch. Thus, the first input shaft is associated with a first clutch and the second input shaft with a second clutch. Also for the terms used below, linguistic explanations or definitions may already be given at this point. Thus, the dual-clutch transmission vzw in normal driving. a so-called "free input shaft" and thus also a so-called "free clutch", which is generally the input shaft, which is not connected at the respective time just with the motor shaft via the corresponding input shaft of this associated coupling. The torque on the drive wheels is therefore initially transmitted to the dual clutch transmission via the motor shaft and a closed clutch on one of the two input shafts and from here in effect via the transmission output shaft to the drive wheels of the vehicle. In a normal driving condition, therefore, only one of the two input shafts transmits the torque while the other input shaft is allowed to "coast." With a gear change, a corresponding gear stage is now engaged on the free input shaft and then the torque is applied to the previously free running input shaft by means of an overlap control For this purpose, the free clutch is first applied accordingly, then closed and the other originally closed clutch is opened, in other words, the torque transfer from one to the other input shaft Vzw is realized via a corresponding overlap of the two clutches, the speed can also be handed over separately, so that the driver of the vehicle, for example, notices a gear change only when the speed transfer from the going to the closing clutch is realized various circuit options, especially taking into account the different possible "driving modes", in particular a D-ECO and / or Sport mode.

The 1a to 1c now show the sequential sequence after the initiation of a circuit in a dual-clutch transmission. So shows 1a in that here the lead time is dimensioned such that within the lead time the respective gear stage is engaged on the free transmission input shaft, then the free clutch is applied and thereafter the overlap, ie the corresponding control of the two clutches takes place, wherein finally the outgoing clutch is complete solved becomes. The areas marked with vertical lines should clarify the existing possible "uncertainties". So is, for example, in the 1a 1 shows an upshift HS, wherein the time for the operation of the "gear engagement" is not exactly defined, which can be recognized by the "vertical bars". The length of time for this depends, inter alia, on the specific gear to be engaged, the driving time and duration of the hydraulic actuators used here, and possibly also the length of the control lines and the hydraulic system used here. Similarly, the shows 1b for an upshift HS in another drive mode, the sequential sequential sequence of each step as in 1a , Only the time duration for the application of the free clutch and the time duration for the overlapping circuit including the opening time of the outgoing clutch is shown here substantially shorter. Finally, the shows 1c for the starting process also for an upshift HS the corresponding individual steps shown that can define or set the lead time.

From the above explanations and the illustrations of 1a to 1c It is clear that the lead time, which is crucial for the timing of the initiation of a circuit, can not be precisely determined, in particular because, for example, the time for inserting the new gear on the free input shaft can not be determined exactly and also different. Consequently, the desired shift point can not always be "hit" exactly, ie the vehicle shifts, for example, at an upshift from the fourth to the fifth gear once at 5700 revolutions / minute and another time at 5500 revolutions / minute Driver uncomfortable, so that - in the end = the ride comfort is not optimal.

Of the Invention is therefore the object of the aforementioned Process in such a way and further develop that the ride comfort elevated is, in particular the vehicle as possible exactly in the correspondingly specified target switching points in the corresponding gear changes and switches for the driver accordingly is perceptible, so that the ride comfort is increased.

The previously indicated task is now initially solved by that before determining the retention time, first the target gear on the free Transmission input shaft is inserted, then that for the application the free clutch necessary target time is determined that the for the Torque transfer determined between the clutches required overlap time determined that will be for the release the required closing time is determined for the closed clutch, and that then the lead time as the sum of the previously determined target time (Set-up time), the setpoint overlap time and the target opening time is calculated. Furthermore, the task indicated above is now solved by that first the desired insertion time for the application of the nominal gear on the free transmission input shaft it is determined that the for the application of the free clutch necessary target time is determined that for the torque transfer determined between the clutches required overlap time determined and that is for the release the required closing time is determined for the closed clutch, and that then hereafter the retention time as the sum of previously determined Target Einlegungszeit; the target time, the target overlap time and the Target opening time is calculated.

Finally is solved the above object by the fact that the first Target insertion time for the application of the nominal gear on the free transmission input shaft it is determined that the for the application of the free clutch necessary target time is determined that for the torque transfer determined between the clutches required overlap time determined and that is for the release the required closing time is determined for the closed clutch, that then hereafter the retention time as the sum of previously determined Target insertion time, the target time, the target overlap time, the target opening time and an additional one Safety time is calculated.

in the The result will now be three sidelined approaches to solve the previously identified Task proposed, which are explained in more detail below allowed to. However, the basic principle of the invention goes on the one hand, uncertainty factors to eliminate and the retention time as possible only from the individual Components to certain, which in turn are themselves determined as surely as possible. Thus, in the end, the lead time can be determined as accurately as possible, so taking the circuit into consideration then calculated in advance according to the invention Retention time can also be initiated, so that the target switching point also can be made exactly and the disadvantages described above are avoided.

There are now a variety of ways to design the inventive method in an advantageous manner and further. For this purpose, reference may first be made at this point to claim 1 or to claims 4 and 5 and the claims subordinate to these claims. In detail, the preferred embodiments of the invention will now be described with reference to the following drawings and the accompanying description. In the drawing shows

1a to 1c , the principle previously known principle for initiating a corresponding circuit, in a dual-clutch transmission, in particular the application of a fixed derivative time, taking into account the running in a circuit process steps in a schematic representation,

2 a schematic representation of a first embodiment for carrying out the method according to the invention,

3 in a schematic representation of a second embodiment for carrying out the method according to the invention, and

4 a schematic representation of a third embodiment for carrying out the method according to the invention 2 to 4 illustrated circuit processes explained in more detail.

at the method for controlling the circuits of the dual-clutch transmission are the ones for this necessary control and / or control systems in place, in particular has the not shown Dual-clutch transmission on a control unit that is on electronic and / or electrical base is realized and vzw. having a microprocessor. About. corresponding existing sensors, especially speed sensors are then this controller the current wheel speeds, the current speed of the respective Input shaft and the motor shaft reported. The control unit also knows the data the current accelerator pedal position and / or brake pedal position and vzw. over appropriate Tilt angle sensors the corresponding current tilt angle the road (mountain and / or descent).

With Help of the gearbox control unit are for the Driver also different driving modes selectable, especially the usual D-mode as well as an ECO or a sport mode selectable in which the dual-clutch transmission should be operated. For the individual different driving modes are corresponding switching characteristics stored in so-called switching maps within the control unit. For the individual driving modes and within these driving modes accordingly possible gear changes Therefore, the target switching points are stored, ie vzw. for the respective ones possible gear changes corresponding desired switching points also stored as a function of the respective engine speed.

As already explained at the beginning will now be over inventive method the respective retention time for determined a specific gear change. Basically, the more accurate the Preservation time can be determined, the more accurate the target switching point also be taken at the respective circuit.

That's how it shows 2 a first embodiment of the method according to the invention. It is good to acknowledge that here the lead time for the shift sequence is calculated independently of the time for engaging the new gear. Thus, the set gear on the free transmission input shaft is already engaged before the determination of the lead time. This eliminates a significant uncertainty factor for the calculation of the derivative time. Due to the current vehicle data is for the control unit with a certain probability calculable, which gear in the near future must be inserted in the dual-clutch transmission. This target gear (ie the next expected target gear ratio) is then already correspondingly inserted on the free input shaft, which is indeed possible with the dual-clutch transmission, without the actual gear ratio change is completed. After that, the time required for the application of the free clutch is then determined. This can also be realized again via the control unit. The same applies to the desired overlap time of the two clutches when the circuit is to be performed. This setpoint overlap time is likewise determined with the aid of the control unit. Finally, the time required to release the free clutch is determined. From these three aforementioned components, ie from the target time, the target overlap time and the target opening time, the derivative time is then determined as a sum, which should be clarified by the corresponding schematic representation. It can clearly be seen that the period for the application of the desired gear is not used to calculate the lead time. This allows the calculation of a very exact lead time.

It is now conceivable how the 2 shows that between the insertion of the desired gear and the application of the free clutch a certain period of time elapses. It would also be conceivable that the free clutch is applied directly after the application of the desired gear. This is dependent on the respective currently performed circuit or the current driving state of the motor vehicle. In particular, in a wet clutch the oil pressure chamber of the clutch is filled when the clutch is applied. It is crucial that now according to the inventive method, the initiation of the circuit is substantially dependent on the inventively calculated derivative time. Since this is calculated as accurately as possible, the target switching point S is also met with very high accuracy, ie for the driver, the vehicle always switches at a constant speed at the respective gear stage change. The desired switching point S thus corresponds to the actual switching point.

3 shows a second embodiment of the inventive method. In contrast to 2 Now, the target insertion time for the application of the desired gear on the free input shaft is also taken into account for calculating the lead time. This means that for the specific gear ratio changes, even in different driving modes, in each case setpointing times for the insertion of the individual gear stages on the respective free transmission input shaft are either stored in the control unit or can be calculated by a function. Furthermore, the other necessary for the calculation of the derivative time components are determined, namely the target time for the application of the free clutch, the target overlap time for the torque transfer between the clutches and the target opening time for releasing the previously closed clutch. From all these four components, ie from the desired insertion time, the target time, the target overlap time and the target opening time, the lead time is then calculated as the sum. Consequently, now with this calculated lead time can again take place exactly at the target switching point S perceptible for the driver engagement.

Finally, the shows 4 a third embodiment for carrying out the method according to the invention. As a result, the derivative time is calculated first, similar to the example for 3 , however, another additional safety time Δt is included, as well as from 4 shown clearly. This means that the initiation of the circuit begins as a function of this calculated derivative time but at the end of the sequential sequence of the individual steps then an additional "waiting time", namely the aforementioned safety time Δt is realized.

at the aforementioned calculation methods for calculating the retention time according to the invention, which is shown above, will now be in the implementation of the actual Circuit hit the exact switching points, as the lead time previously calculated "virtually" is. Optimal it is so that the switching points always exactly at the be taken according to previously set speeds, so that the corresponding gear stage changes are always noticeable to the driver also take place at these same predetermined speeds or realized. For this purpose, the circuits for the respective Gear changes under consideration the respective corresponding calculated above described above Preservation times initiated so that the perceivable for the driver engine speed change is realized substantially in the specified setpoint switching point S.

The calculated according to the invention described above Retention times can now for the corresponding gear changes also in the different Driving modes, ie calculated in D-mode, ECO and / or Sport mode become.

Of the Control command to initiate the switching process is from the control unit to a given at the specific time, namely at the time of the difference between the time of the desired switching point S and the each for calculated this circuit according to the invention Derivative time corresponds. Thus, the target switching point S is exact met and the disadvantages described above are avoided.

Claims (9)

Method for controlling the circuits of a dual-clutch transmission of a motor vehicle, vzw. an automatic dual-clutch transmission, wherein the dual-clutch transmission, a first input shaft with a plurality of gear stages, vzw. the odd gear ratios, and a second input shaft having a plurality of gear stages, vzw. the straight gear stages, wherein the first input shaft, a first clutch and the second input shaft is associated with a second clutch, wherein the corresponding desired switching points, in particular for a perceptible by the driver gear change via corresponding stored in a control unit characteristics depending on the engine speed determined or are determined, and wherein a circuit is introduced taking into account a lead time and the lead time is previously determined and / or determined, characterized in that before determining the lead time, the first gear on the free transmission input shaft is inserted, then that for the Applying the free clutch necessary target time is determined that the required for the torque transfer between the clutches target overlap time is determined that the time required for the release of the closed clutch target opening time is determined, and then the Derivative time is calculated as the sum of the previously determined target time, the target overlap time and the target opening time. Method according to claim 1, characterized in that that the free clutch time directly after the application of the target gear is created. Method according to claim 1, characterized in that that between the insertion of the target gear and the application of the free Clutch passes a certain period of time. Method for controlling the circuits of a dual-clutch transmission a motor vehicle, vzw. an automatic dual-clutch transmission, wherein the dual-clutch transmission has a first input shaft with a Plurality of gears, vzw. the odd gears, and a second Input shaft with a plurality of gear stages, vzw. the straight one Gear stages, wherein the first input shaft, a first Coupling and the second input shaft associated with a second clutch is, wherein the corresponding desired switching points, in particular for a perceivable by the driver gear change via corresponding in one control unit stored characteristic curves in dependence the engine speed are determined, and wherein a Circuit under consideration a retention period is initiated and the retention period previously set is and / or determined, characterized in that first the Target insertion time for the application of the nominal gear on the free transmission input shaft it is determined that the for the application of the free clutch necessary target time is determined that for the torque transfer determined between the clutches required overlap time determined and that is for the release determines the required opening time of the closed clutch and then hereafter the retention time as the sum of the previously determined target insertion time, the target time, the target overlap time and the target opening time is calculated. Method for controlling the circuits of a dual-clutch transmission a motor vehicle, vzw. an automatic dual-clutch transmission, wherein the dual-clutch transmission has a first input shaft with a Plurality of gears, vzw. the odd gears, and a second Input shaft with a plurality of gear stages, vzw. the straight one Gear stages, wherein the first input shaft, a first Coupling and the second input shaft associated with a second clutch is, wherein the corresponding desired switching points, in particular for a perceivable by the driver gear change via corresponding in one control unit stored characteristic curves in dependence the engine speed are determined, and wherein a Circuit under consideration a retention period is initiated and the retention period previously set is and / or determined, characterized in that first the Target insertion time for the application of the nominal gear on the free transmission input shaft it is determined that the for the application of the free clutch necessary target time is determined that for the torque transfer determined between the clutches required overlap time determined and that is for the release determines the required opening time of the closed clutch and then hereafter the retention time as the sum of the previously determined target insertion time, the target time, the target overlap time, the target opening time and an additional one Safety time is calculated. Method according to one of the preceding claims, characterized characterized in that the circuit for the respective gear change considering the respective respective calculated derivative time initiated in such a way so that is for the Driver noticeable engine speed change substantially in the Target switching point (S) is realized or is. Method according to one of the preceding claims, characterized characterized in that the driving conditions of the motor vehicle, in particular Wheel speeds, input shaft speeds, accelerator pedal position the controller currently be reported. Method according to one of the preceding claims, characterized characterized in that the lead times for the corresponding gear stage change in a certain driving mode and / or in different driving modes, especially in ECO and / or SPORT mode. Method according to one of the preceding claims, characterized characterized in that the control command for initiating the switching operation from the control unit delivered at a certain time, namely at the time which is the difference between the time of the setpoint switching point (S) and each for this circuit corresponds to calculated lead time.