WO2004067312A2

WO2004067312A2 - Device for protecting the clutch of an automatic gearbox

Info

Publication number: WO2004067312A2
Application number: PCT/DE2004/000109
Authority: WO
Inventors: Reinhard Berger; Robert Fischer; Mario Jung; Johannes Moosheimer; Christian Rieger; Inho Song
Original assignee: Luk Lamellen Und Kupplungsbau Beteiligungs Kg
Priority date: 2003-01-27
Filing date: 2004-01-24
Publication date: 2004-08-12
Also published as: WO2004067312A3; DE112004000072B4; DE112004000072D2; EP1590194A2

Abstract

The invention relates to a device for protecting the clutch of an automatic gearbox from overload when starting and/or stopping a vehicle on a hill. Said device is embodied in such a way as to monitor the load on the clutch, to actuate the clutch, and to activate a vehicle brake according to the load.

Description

Device for protecting a clutch of an automated transmission

The present invention relates to a device for protecting a clutch of an automated transmission against overload when starting a vehicle on the mountain and / or holding the vehicle on the mountain. The invention also relates to a device for protecting a clutch of an automated transmission against overload when the vehicle is moving counter to the direction of movement that is appropriate for the gear stage of the transmission.

The above-mentioned automated transmission can be a transmission that is based on a manual transmission and can have different degrees of automation. It can also be a gearbox with several input shafts, for example. For example, it is possible for the automated transmission to be an automated manual transmission, an uninterrupted manual transmission, a parallel manual transmission or an electrical manual transmission.

In the automated transmission, at least one friction clutch is used, which is exposed to an increased load when starting the vehicle equipped with the transmission on the mountain. In a corresponding manner, there is also an increased load on the friction clutch if the vehicle is held on an inclined plane by means of the clutch and the output torque originating from the drive motor, so that a slope downforce component acts on the vehicle. If the driver of such a vehicle delays a starting process with the clutch partially closed or the vehicle deliberately holds the inclined plane for a long time with the clutch slipping, the thermal load on the friction clutch naturally increases.

In order to avoid this situation of a possible excessive load on the friction clutch, it has already become known to activate a vehicle brake as a so-called hill holder in order to prevent the vehicle from rolling backwards on the mountain and to keep the clutch open, at least until the driver is off Brake pedal changes to the accelerator pedal or accelerator pedal of the vehicle.

If the driver now makes this change from the brake pedal to the accelerator pedal, this leads to an uncomfortable backward starting process after the brake is released and, moreover, the friction clutch serving as the starting element is also subjected to a sudden load.

The present invention is based on the object of creating a device for protecting a clutch of such an automated transmission against overload, which enables the vehicle to be held on the mountain and, moreover, enables a comfortable starting process and avoids excessive loading of the clutch.

When maneuvering a vehicle, it may also happen that the driver rer lets the vehicle roll against the direction of travel appropriate to the gear ratio selected and tries to brake this rolling movement by actuating the accelerator pedal and then engaging the clutch.

The invention is therefore also intended to provide a device which recognizes this situation and avoids an excessive load on the clutch.

The invention now provides a device for protecting a clutch of an automated transmission against overload when starting a vehicle on the mountain and / or holding the vehicle on the mountain, the device for monitoring the load on the clutch and for actuating the clutch and for load-dependent activation of a vehicle brake is trained. With the device according to the invention, the load on the clutch can therefore be detected and the clutch can also be operated in a load-dependent manner. In addition, the clutch is also capable of activating a brake of the vehicle depending on the load.

If the driver wants to keep the vehicle on the mountain using the accelerator pedal, this is initially done with the aid of the clutch. The driver will therefore adjust the accelerator pedal so that the clutch is just transmitting the engine torque and this in turn is sufficient to hold the vehicle on the mountain by means of the clutch. This corresponds, for example, to the situation that the vehicle is at an ascending exit or intersection and that a starting process is imminent. When the vehicle is about to start, the driver presses the accelerator pedal harder so that the vehicle starts. The device is therefore also designed such that it can monitor the actuation of the accelerator pedal of the vehicle and evaluate the accelerator pedal actuation for actuating the clutch and the vehicle brake.

If the above-described situation of holding the vehicle on the mountain by means of the clutch and the engine torque persists for some time, this leads to a significant increase in the clutch temperature. The device is therefore also designed to monitor the temperature of the clutch and can evaluate the clutch temperature for actuating the clutch and the vehicle brake. The temperature rises due to the energy input into the clutch. In general, the device is designed so that it can determine the load on the clutch directly, for example by measuring the temperature, or indirectly.

As an example of an indirect determination of the load on the clutch, it should be mentioned that the device can also be designed such that it monitors the duration of the slip phase of the clutch, since with increasing slip phase the energy input into the clutch increases and thus the load on the clutch increases , The device can also be designed such that it detects an increase in temperature on the clutch or determines a temperature gradient and evaluates one or more of these parameters for actuating the clutch and the vehicle brake.

The device according to the invention is designed so that it the clutch and the Vehicle can apply the brake in a coordinated manner to prevent the clutch from being overloaded due to brake intervention.

The above-described starting situation on the mountain or the holding of the vehicle on the mountain by means of the engine torque transmitted via the friction clutch takes place at vehicle speeds which are lower than a creep run or creep speed of the vehicle, in which the vehicle clutch moves from an initially prevailing slip state to the creep run can be closed.

The device according to the invention is therefore also designed to evaluate the vehicle speed and the clutch torque and to determine whether the clutch is in a slip state, i.e. There is a speed difference between the engine output shaft and the transmission input shaft.

The device, which can be implemented, for example, in the clutch control device, can therefore, for example depending on the determined clutch temperature, further close the clutch to avoid excessive loading of the clutch, so that this clutch closing can take place sooner when the clutch is hot than when it is still hot cold clutch.

This tightening of the clutch means that the vehicle is now slowly moving. The device provided according to the invention thus incrementally increases the clutch torque, for example, if the clutch torque is greater than a clutch limit torque and is greater than or equal to zero and the speed the motor output shaft is greater than the speed of the transmission input shaft. In addition, the vehicle speed can also be included in the evaluation, so that a further criterion is checked whether the vehicle speed is greater than a vehicle limit speed, which is, for example, a vehicle creep speed, so that the clutch torque is increased by the device when the vehicle speed is greater as a vehicle speed limit.

In addition to the conditions already mentioned, the device can also incrementally increase the clutch torque, for example, if it is not satisfied that the time during which the clutch was already in the slip state is greater than a predetermined clutch slip limit time. If the clutch had been in the slip state for a certain period of time and a further incremental increase in the clutch torque by the device would take place, and the clutch would then still be in the slip state, this would lead to a further increase in the thermal Lead the load on the clutch.

Since the driver of the vehicle reacts to the situation described above, that the vehicle begins to roll slowly, by withdrawing the actuation of the accelerator pedal or accelerator pedal of the vehicle, the device can also be used to evaluate the switching status of a switch, such as the idle switch, with regard to the actuation of the clutch and the vehicle brake and increases the clutch torque when the switch indicates an accelerator pedal actuated. So when the situation arises that the driver releases the accelerator pedal completely, it is This is an indication that the driver does not want the vehicle to start moving, so that a further incremental increase in the clutch torque by the device for maintaining the hill start situation no longer makes sense, so that the device opens the clutch and activates the vehicle brake in order to to keep the vehicle on the mountain.

The vehicle speed can also be checked before the brake is activated, so that the brake is not activated if the vehicle is still moving faster than a vehicle limit speed.

However, the incremental increase in clutch torque by the device, for example, enables the driver to maintain the situation of holding the vehicle on the mountain or starting the vehicle on the mountain for a certain time without brake intervention being necessary and without damaging the , Friction clutch due to thermal overload or exceeding the permissible clutch slip limit time. The height of an increment can depend on different influencing variables, such as, for example, the temperature, the strength of the driver's actuation of the accelerator pedal or a gradient of the accelerator pedal actuation.

Since in the above-described situation of starting the vehicle on the mountain, which is not desired or not desired by the driver, a reaction is also possible that the driver does not release the accelerator pedal completely, but only partially and thus still wishes to transmit engine torque, but WE less than with the accelerator pedal depressed, maintaining the strategy of incrementally increasing the clutch torque would result in the drive motor being pushed over the clutch and eventually stalled. In order to avoid this situation, the device according to the invention is also designed to monitor the engine speed and can actuate the clutch and the vehicle brake by evaluating the engine speed and incrementally increase the clutch torque, for example, if the engine speed is already lower than an engine limit speed below which the engine would die. Before the situation arises that the engine stalls, the device according to the invention can open the clutch and activate the brake as a hill holder.

It is therefore achieved with the device according to the invention that the driver can basically keep the vehicle ready for immediate start by means of the accelerator pedal and clutch, at least for a certain time during which there is no fear of damage to the clutch. The increase in the clutch torque leads to a reduction in the slip state in the friction clutch and thus to a reduction in the thermal load on the clutch. As soon as a start-up operation that is not desired by the driver would take place as a result of this increase in the clutch torque, the driver reacts, as has already been described above, by opening the accelerator pedal completely, whereupon the device activates the vehicle brake and opens the clutch. If the driver releases the accelerator pedal only partially, which the device determines by evaluating the accelerator pedal position, the device is also able to open the clutch and controlled brake intervention, so that the engine does not start and the vehicle pulls through controlled braking intervention is prevented from rolling back on the mountain.

The device described above thus makes it possible, on the one hand, to maintain the situation, that the driver can keep the vehicle ready for immediate start on the mountain for a certain period of time, but that there is no damage to the friction clutch and, on the other hand, that the vehicle is not inadvertently rolls back and the actuation of the vehicle brake also does not take place in such a way that the brake actuation would lead to an uncomfortable jerk, which the driver could ascertain.

When maneuvering a vehicle on the mountain, the driver may roll the vehicle back with the forward gear engaged. Wheel speed sensors that are usually used do not provide any information about the direction of travel, which is why the control system cannot recognize whether the direction of vehicle movement correlates with the gear selected.

In the case of a thrust downshift, the clutch can be closed when the control detects a vehicle movement, ie the vehicle movement direction correlates with the gear engaged, so that the engine is accelerated to the speed of the transmission input shaft. The invention now provides a device for protecting a clutch of an automated transmission against overload during a movement of the vehicle against the direction of movement appropriate to the gear position of the transmission, the device for determining a movement of the vehicle and for monitoring the load on the clutch and for Opening or closing the torque transmission from the drive motor to the drive train is formed.

The device according to the invention is therefore able to monitor the load on the clutch and to control the clutch in such a way that the transmission of the engine torque to the drive train of the vehicle can be changed depending on the load. If the direction of movement of the vehicle does not match the direction of movement of the gear engaged, closing the clutch leads to a lowering of the engine speed and thus to a deceleration of the vehicle. The engine speed is reduced until the engine has reached a limit speed below which it would die (stall protection), whereupon the clutch is opened again until the engine speed has increased again, whereupon the clutch is closed again can. In this way, cyclical braking processes of the vehicle movement can be carried out against the direction of travel that is appropriate for the selected gear, which the driver of the vehicle can perceive as signaling juddering processes.

If the device detects a significant increase in the temperature of the clutch, which could lead to permanent damage, then the device is able to close the clutch, whereupon the engine dies and the vehicle rolls further against the one inserted Gear step appropriate movement direction is ended and the vehicle stops. According to an alternative to this, it is also possible for the device to open the clutch, for example after several jerking operations have been determined by the driver. net and the driver maneuvers the vehicle via a brake intervention. A similar situation can also be brought about in that the device actuates the automated transmission in order to bring the transmission into a neutral position, whereupon the driver can maneuver the vehicle again using the vehicle brake.

According to the invention, it is also provided that, in addition to the jerking operations that can be determined by the driver, when the vehicle is crawling, an optical or acoustic warning signal is output contrary to the direction of movement of the vehicle that is appropriate for the selected gear stage in order to signal to the driver that a movement of the vehicle against the direction of travel actually intended by the driver. It is also possible for the device to actuate the vehicle brake after it has determined that the vehicle is moving in the opposite direction of travel to the gear ratio selected and, for example, that a predetermined number of jerking operations which can be determined by the driver has taken place and the clutch has been used to avoid excessive thermal stress is opened.

With this controlled brake intervention, a remedial measure can also be taken to ensure that the vehicle moves against the direction of travel of the vehicle for an excessively long time when an impending change of direction is imminent. It has been shown that drivers of vehicles equipped with manual transmissions have the habit of braking a backward movement, which occurs, for example, when maneuvering the vehicle, by engaging a forward gear and engaging the clutch. If a driver accustomed to this practice If a vehicle operates similarly with an automated transmission, this can take a certain time due to the gear change process from the reverse gear to a forward gear. The device provided according to the invention is now designed such that it recognizes this situation and actively brakes the vehicle by means of a controlled brake intervention. For this purpose, the device according to the invention can detect a change in the selector lever division from R to D and determine that the driver does not apply the vehicle brake and signals are provided by the wheel speed sensors which indicate a movement of the vehicle. Due to the brake intervention exercised in a controlled manner by the device, the vehicle movement against the direction of travel planned by the driver is then quickly ended.

In order to remind the driver of a vehicle with an automated transmission to apply the parking brake, it is also provided according to the invention that the device detects a movement of the vehicle when the drive motor is switched off and engages a gear stage of the transmission and closes the clutch in such a way that rolling of the vehicle is permitted before the clutch is engaged. This ensures that the vehicle is not only held by the engine after the clutch is engaged with the gear engaged, but also via the vehicle parking brake, with the driver being reminded of the application of the parking brake in this situation by the delayed engagement of the clutch.

The invention is explained in more detail below with reference to the drawing. In the single figure, this shows a flow chart to explain the functioning of the pre Direction for protecting a clutch of an automated transmission against overload when starting the vehicle on the hill and / or holding the vehicle on the hill by means of the clutch.

In a first step S1, the device operating according to the invention determines whether the clutch is in a slip state. This state is defined in that a clutch torque M_K is transmitted, the clutch torque being greater than a certain limit clutch torque called M_limit and the engine speed being greater than the transmission speed, i.e. So the speed of the motor output shaft is greater than the speed of the transmission input shaft. If these conditions are not met cumulatively, the clutch is not in clutch slip.

If the check carried out under S1 leads to a cumulative fulfillment of the stated conditions, then a step S2 checks whether the load on the clutch has exceeded a load limit value. The value of the load on the clutch can be measured directly, or determined indirectly from existing measured variables, such as engine torque, speeds, clutch position or the like. A time query can also be implemented, on the basis of which it is determined whether the clutch has been in the slip state for a longer time than a limit slip time t_Grenz that is dependent on the load.

According to a possible embodiment, the device can already incrementally increase the clutch torque, for example, if the slip time is longer is than the limit hatching time.

If the condition checked in step S2 is met, then a reaction of the driver is checked in a next step S3 and the switching state of an idle switch or the position of the accelerator pedal are queried, which can indicate that the driver has released the accelerator pedal.

If this condition is met, the device is designed to open the clutch in a next step S4 and to activate a hill holder function by means of the brake. Before a hill holder function is actually implemented by the device in a step S6, the current vehicle speed v_Fzg can also be compared with a threshold value v_HSchwelle in a step S5. This query serves to prevent the vehicle from braking suddenly, since the hill holder function is only activated when the vehicle speed is below the threshold value.

If, on the other hand, the check in step S3 has led to the result that the driver has not released the accelerator pedal or accelerator pedal completely, but still requests a - albeit lower engine torque - then in a step S7 a check is made as to whether due to the (Incremental) increase in the clutch torque (the clutch is pulled further) the engine speed njnot has already dropped below a speed below which there is a risk of the engine stalling. If this condition is met, the device can open the clutch (step S4) and, by intervening in the vehicle brake, the hill holder function activate (steps S5 and S6).

If, on the other hand, the check in step S7 is negative, the device can further increase the clutch torque (incrementally) (step S9). In a step S8, the current vehicle speed v_Fzg can be compared beforehand with a closing threshold v_ZSchwelle, such that the closing function (step S9) is activated when the vehicle moves even faster than the threshold value indicates. This threshold can also be zero. If the vehicle moves slower than the threshold value, the clutch is opened (step S4) and the hill holder function is activated.

The procedure proposed by the invention has the advantage that the driver can basically keep the vehicle ready for immediate start by means of the accelerator pedal and clutch, at least for a certain period of time. The device monitors the load on the clutch during the start-up situation of a vehicle on the mountain and / or holding the vehicle on the mountain in standby mode and increments the clutch torque to protect the clutch until a reaction of the driver to the slow start-up of the vehicle occurs and opens if necessary, the clutch and, by activating the vehicle's brake, provides protection against uncontrolled rolling back of the vehicle in the described situation on the mountain.

With regard to features of the invention not explained in detail above, reference is expressly made to the claims and the drawing. The patent claims submitted with the application are proposals for formulation without prejudice for the achievement of further patent protection. The applicant reserves the right to claim further combinations of features previously only disclosed in the description and / or drawings.

Back-references used in sub-claims indicate the further development of the subject matter of the main claim through the features of the respective sub-claim; they are not to be understood as a waiver of the achievement of independent, objective protection for the combinations of features of the related subclaims.

Since the subjects of the subclaims can form their own and independent inventions with regard to the prior art on the priority date, the applicant reserves the right to make them subject more independent. To make claims or declarations of division. They can furthermore also contain independent inventions which have a design which is independent of the objects of the preceding subclaims.

The exemplary embodiments are not to be understood as a limitation of the invention. Rather, numerous changes and modifications are possible within the scope of the present disclosure, in particular those variants, elements and combinations and / or materials which, for example, can be combined or modified from individual NEN in connection with the features or elements or method steps described in the general description and embodiments as well as the claims and contained in the drawings can be taken by the person skilled in the art with regard to the solution of the task and by combinable features to a new object or lead to new process steps or process step sequences, also insofar as they relate to manufacturing, testing and working processes.

Claims

claims

1. Device for protecting a clutch of an automated transmission against overload when starting a vehicle on the mountain and / or holding the vehicle on the mountain, characterized in that the device for monitoring the load on the clutch and for actuating the clutch and for load-dependent activation a vehicle brake is formed.

2. Device according to claim 1, characterized in that the device is designed for monitoring the actuation of the accelerator pedal of the vehicle and evaluates the accelerator pedal actuation for actuating the clutch and the vehicle brake.

3. Device according to claim 1 or 2, characterized in that the device for monitoring the temperature and / or the hatching time and / or the

Energy input in the clutch and / or the temperature increase of the clutch is formed and evaluates these parameters for actuating the clutch and the vehicle brake.

4. Device according to one of claims 1 to 3, characterized in that the device evaluates the vehicle speed and the clutch torque and the speed difference between the engine output shaft and transmission input shaft for actuating the clutch and the vehicle brake.

5. Device according to one of claims 1 to 4, characterized in that the device increases the clutch torque when it is satisfied that

- The clutch torque is greater than a clutch limit torque and greater than zero and

- The speed of the motor output shaft is greater than the speed of the transmission input shaft.

6. The device according to claim 5, characterized in that the device increases the clutch torque when it is satisfied that

- The speed of the motor output shaft is greater than the speed of the transmission input shaft and

- The vehicle speed is greater than a vehicle limit speed v_ZSchwelle.

7. Device according to one of claims 5 or 6, characterized in that the device evaluates the switching state of a switch for actuating the clutch and the vehicle brake and increases the clutch torque when the switch indicates an actuated accelerator pedal.

8. Device according to one of claims 5 to 7, characterized in that the Device evaluates the engine speed for actuating the clutch and the vehicle brake and increases the clutch torque if the engine speed is greater than an engine speed limit.

9. Device according to one of claims 5 to 8, characterized in that, the device opens the clutch and activates a vehicle brake if not all of the conditions for increasing the clutch torque are met.

10. The device according to claim 9, characterized in that the device evaluates the vehicle speed (v_Fzg) before the activation of the vehicle brake and activates the vehicle brake when the vehicle speed is less than a threshold value (vJH threshold).

11. The device according to one of claims 1 to 10, characterized in that the device increases the clutch torque when the vehicle speed is greater than a vehicle speed limit, wherein the vehicle speed limit is greater than or equal to zero.

12. Device for protecting a clutch of an automated transmission against overload when the vehicle moves counter to the one inserted

Gear stage of the transmission suitable direction of movement, characterized in that the device is designed to detect a movement of the vehicle and to monitor the load on the clutch and to open or close the torque transmission from the drive motor to the drive train.

13. The apparatus according to claim 12, characterized in that the device is designed to close and / or open the clutch and / or to actuate the automated transmission.

14. The apparatus of claim 12 or 13, characterized in that the device is designed to actuate a vehicle brake.

15. Device according to one of the. Claims 1 to 14, characterized in that the device detects a movement of the vehicle when the drive motor is switched off and engages a gear stage of the transmission and the clutch closes such that the vehicle rolls before the clutch is closed.