EP2140162A1 - Method for operating a transmission - Google Patents

Abstract

The invention relates to a method for operating a transmission, especially an automatic transmission, comprising a dry starting clutch. Said starting clutch is especially configured as a friction clutch and a characteristic value is determined during operation in defined operating points, said value being indicative of the state of wear of the starting clutch. The method according to the invention is characterized by comparing a newly determined characteristic value with a characteristic value previously determined in a previous operating point. If the newly determined characteristic value deviates from the previously determined characteristic value to such an extent that it suggests a reduced wear of the starting clutch, it is assumed that the starting clutch has been replaced and a wear indicator of the starting clutch is reset in a defined manner.

Description

 Method for operating a transmission

The invention relates to a method for operating a transmission according to the preamble of claim 1.

Vehicles need transmissions to convert torques and speeds. Task of a transmission is to implement the traction of a drive unit. For the purposes of the present invention, the term transmission is to be understood as meaning all transmissions with a starting clutch designed in particular as a friction clutch, provided that a characteristic variable of the starting clutch can be determined during operation at defined operating points, which provides information about a state of wear of the starting clutch. These include, in particular, automatic transmissions with an automated gear change or an automatic gear change.

From DE 196 39 296 C1 a method is known with which a wear state of a starting clutch of a transmission can be determined. In the sense of a wear counter, the loss energy consumed by clutch slip is constantly summed up, the sum value being compared with a predetermined value, which regularly leads to a total wear of the clutch. Then, when the wear counter or sum value exceeds this predetermined value, an exchange of the starting clutch or friction linings of the starting clutch is initiated by means of an inspection.

Then, if based on the value of a wear counter, the starting clutch is replaced or friction linings are renewed, the wear counter must be reset below. This is done via a diagnostic tool, which is connected to a transmission control device of the transmission. The resetting of the wear counter thus represents an additional step, with the risk that the resetting of the wear counter for the starting clutch after replacement of the same or after replacement of their friction linings is forgotten.

On this basis, the present invention is based on the problem to provide a novel method for operating a transmission.

This problem is solved by a method according to claim 1. According to the invention, a newly determined parameter, which provides information about a wear state of the starting clutch, is compared with a parameter previously determined at a previous operating point, wherein when the newly determined parameter deviates from the previously determined characteristic in such a way that a reduced state of wear of the starting clutch results, closed on an exchanged start clutch and a wear counter of the starting clutch is defined reset.

For the purposes of the present invention, the resetting of a wear counter for the starting clutch of a transmission after renewal of the same or after renewal of friction linings of the same is automated in that when a newly determined characteristic of the starting clutch, the information about the state of wear of the same, from the previously determined, corresponding characteristic variable such that there is a decreasing state of wear of the starting clutch, closed on an exchanged start-up clutch or replaced friction linings and the wear counter of the starting clutch is defined reset.

This makes it possible to dispense with the separate reset of the wear counter via a diagnostic tool, so that there is no longer any danger that the reset of the wear counter is forgotten. Preferably, when the newly determined characteristic variable deviates from the previously determined parameter in the direction of a decreasing wear state by more than a first limit value, it is concluded that the starting clutch has been replaced by a new starting clutch, in which case the wear counter is reset in this way is that its value corresponds to that of a new starting clutch. On the other hand, if the newly determined parameter deviates from the previously determined parameter in the direction of a decreasing state of wear by less than the first limit value by more than a second limit value, it is concluded that the starting clutch has been replaced by a second-hand starting clutch then the wear counter is reset such that its value corresponds to a used starting clutch.

Preferred embodiments of the invention will become apparent from the dependent claims and the description below. Embodiments of the invention will be described, without being limited thereto, with reference to the drawings. Showing:

1 is a schematic signal flow diagram to illustrate the method according to the invention for operating a transmission.

The present invention relates to a method for operating a transmission with a starting clutch. Such a transmission is, in particular, an automatic transmission with automatic or even automatic gear changes, and such a starting clutch is, in particular, a dry starting clutch designed as a friction clutch.

During operation, a parameter of the starting clutch is determined in defined operating points, which provides information about a state of wear of the same. This characteristic is preferably a position of the starting clutch in which it is closed. Depending on the state of wear of the starting clutch, this Zu position of the starting clutch changes, whereby this Zu position changes with increasing wear of the starting clutch in a clear direction. The determination of the parameter can then take place when the starting clutch is closed. Thus, the characteristic can be determined, for example, when driving in a gear and no shift takes place or the transmission is switched to neutral and the starting clutch is closed. To secure the determination of the characteristic, however, the starting clutch can also be closed defined via an actuator.

A newly determined parameter is inventively compared with a previously determined in a previous operating point characteristic, in which case, when the newly determined characteristic of the previously determined characteristic deviates such that a decreasing state of wear of the starting clutch results in an exchanged starting clutch or replaced Friction linings of the same is closed. In this case, then a wear counter of the starting clutch is defined reset.

The method according to the invention will be described in detail below with reference to the signal flow diagram of FIG.

In block 1 of the signal flow diagram of FIG. 1 it is checked whether a defined operating point is present in which a parameter of the starting clutch, which provides information about a state of wear of the same, can be reliably determined. So in block 1 z. B. be checked whether a transmission input speed or an engine speed is in a certain range. Alternatively or additionally, it can be checked in block 1 whether the outside temperature and / or the transmission oil temperature are within a certain range. voted area is located. Alternatively or additionally, it can be checked in block 1 whether the load on the starting clutch is within a defined range.

Only when it is determined in block 1 that one or more of these operating point criteria is met, is branched from block 1 to block 2, wherein in block 2, a parameter on the state of wear of the starting clutch is redetermined. Otherwise, starting from block 1 in the sense of a loop back to block 1.

Then, if it is determined in block 1 that there is a defined operating point for the starting clutch, then branching is made to block 2 of the signal flow diagram of FIG. 1, wherein, as already mentioned, in block 2 the characteristic variable of the automatic transmission is determined, the information about the state of wear of the same. This is preferably the ZuPosition of the starting clutch, which is dependent on the state of wear of the same. This Zu-position can be determined without special measures, since the starting clutch normally assumes this to-position when driving in an engaged gear and no circuit is performed. To increase the security in determining the closed position, however, the automatic transmission can also be defined via an actuator in the closed position to be transferred.

In a subsequent block 3 is then checked whether the newly determined characteristic deviates from the previously determined characteristic such that there is a decreasing state of wear of the starting clutch. If it is determined in block 3 that this is not the case, that is, the wear state of the starting clutch increases, then starting from block 3, branching is made to block 4, wherein in block 4 it is checked whether a wear counter for the starting clutch exceeds a predetermined value , If this is the case, starting from block 4, a branch is made to block 5 and a message is generated which is stored in the transmission control device, and on the basis of which an inspection or replacement of a renewal of the starting clutch or friction linings of the same causes.

This message can also be visualized to a driver in a cockpit display in order to trigger a workshop visit and to arrange for maintenance or replacement of the starting clutch. Furthermore, the newly determined parameter is stored in block 5.

If, on the other hand, it is determined in block 4 that the wear counter is below the predetermined value, starting from block 4, branching is made to block 6, wherein in block 6 only the newly determined parameter is stored. Starting from the two blocks 5 and 6 is branched back to block 1.

If, on the other hand, it is determined in block 3 that the characteristic variable newly determined in block 2 deviates from the previously determined characteristic in such a way that a decreasing state of wear of the starting clutch results, then an exchanged starting clutch or replaced friction linings of the starting clutch are closed and it is branched to block 7. Block 7 determines the amount by which the newly determined parameter deviates from the previously determined characteristic.

Subsequently, it is checked in block 8 whether the newly determined parameter deviates from the previously determined parameter in the direction of a decreasing state of wear by more than a first, namely upper, limit value. If this is the case, then it is concluded that the starting clutch is exchanged for a new starting clutch or the friction linings of the same against new friction linings or are, in which case starting from block 8 to 9 block is branched. In block 9, the wear counter of the start-up Clutch reset such that its value corresponds to that of a new starting clutch.

If, on the other hand, it is determined in block 8 that the newly determined characteristic variable deviates from the previously determined characteristic value by less than the first, upper limit value, starting from block 8, branching is made to block 10, wherein it is checked in block 10 whether the newly determined characteristic value deviates from the previously determined parameter by more than a second, namely lower, limit value. If it is determined in block 10 that this is the case, then it is concluded that the starting clutch is exchanged for a used starting clutch or friction linings thereof against used friction linings or are. In this case, then branched to block 1 1, wherein in block 1 1 of the wear counter of the starting clutch is reset such that its value corresponds to a used starting clutch.

If, on the other hand, it is determined in block 10 that the newly determined parameter deviates from the previously determined characteristic both by less than the first, upper limit value and by less than the second, lower limit value, the method branches from block 10 to block 12, where In block 12, no reset of the wear counter of the starting clutch takes place, but merely a storage of the newly determined parameter. This saving of the newly determined parameter is also in blocks 9 and 1 1. Starting from the blocks 9, 1 1 and 12 is branched back to block 1 respectively.

The resetting of the wear counter in block 1 1 to a value of a used starting clutch can be such that the determined in block 7 characteristic with a corresponding characteristic of a new startup clutch, the z. B. is deposited in the transmission control device is compared. The difference between the characteristic of the new clutch and the characteristic determined in block 7 for a used clutch can be used in block 1 1, the degree of wear of the used Detect clutch so as to reset the wear counter accordingly.

It is therefore within the meaning of the present invention, during operation of a motor vehicle and thus a starting clutch thereof in defined operating points to determine a characteristic of the starting clutch, which provides information about a state of wear of the same. Then, when a newly determined parameter deviates from a previously determined characteristic such that a decreasing state of wear of the starting clutch results, it is concluded that an exchanged starting clutch is involved. In this case, then a wear counter of the starting clutch is defined reset. The entire process is automatic or automated, so that no separate step is required and there is no risk that after replacing a starting clutch, the reset of the wear counter of the same is forgotten.

REFERENCE CHARACTERS

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Claims

claims

1. A method for operating a transmission with a starting clutch, wherein during operation in defined operating points, a parameter is determined, which provides information about a state of wear of the starting clutch, characterized in that a newly determined characteristic with a previously determined in a previous operating point characteristic is, in which case, when the newly determined characteristic of the previously determined characteristic deviates such that a reduced state of wear of the starting clutch results, closed on an exchanged starting clutch and a wear counter of the starting clutch is defined reset.

2. The method according to claim 1, characterized in that when the newly determined characteristic deviates from the previously determined parameter in the direction of a decreasing state of wear by more than a first limit value, it is concluded that the starting clutch exchanged for a new starting clutch is, and that then the wear counter is reset such that its value corresponds to that of a new starting clutch.

3. The method according to claim 2, characterized in that when the newly determined characteristic deviates from the previously determined parameter in the direction of a decreasing state of wear by less than the first limit value by more than a second limit value, it is concluded that the starting clutch is exchanged for a used starting clutch, and then that the wear counter is reset such that its value corresponds to a used start-up clutch.

4. The method according to one or more of claims 1 to 3, characterized in that the characteristic is determined exclusively in those operating points in which there is a transmission input speed or an engine speed in a defined range.

5. The method according to one or more of claims 1 to 4, characterized in that the characteristic is determined exclusively in those operating points in which there is a transmission oil temperature and / or an outside temperature in a defined range.

6. The method according to one or more of claims 1 to 5, characterized in that the characteristic is determined exclusively in those operating points in which there is a load of the starting clutch in a defined range.