The present invention relates to a method of controlling a friction clutch in a transmission of a motor vehicle provided with an internal combustion engine.
More specifically, the subject of the invention is a control method comprising the steps of:
Controlled friction clutches are being used more and more in motor-vehicle transmissions, for example, in so-called “dual clutch” transmissions. In use, the movable portion of a clutch of this type is brought, by means of suitable conventional actuators, to an operative position (relative to the stationary portion) in which the clutch transmits the desired nominal torque.
The curve or characteristic of torque transmitted/position of a clutch of this type inevitably varies over time owing to degradation and ageing phenomena and because of wear of the friction linings.
Consequently, with the passage of time, the torque transmission that corresponds to a predetermined position (of the movable portion) of a clutch of this type is gradually reduced.
An object of the present invention is to propose a control method which overcomes this disadvantage.
This and other objects are achieved, according to the invention, by a method of the type specified above, characterized in that, upon the occurrence of predetermined operative conditions, the value of the torque transmitted by the clutch is estimated, by means of an algorithm, as a function of the detected instantaneous values of the torque delivered and of the angular velocity of the shaft of the engine, and the corresponding instantaneous position, or estimate position, of the clutch is detected, and the previously stored curve or characteristic is then modified in accordance with predetermined procedures in dependence on the difference between the estimated value of the torque transmitted and that value of the torque transmitted which corresponds to the estimate position according to the previously stored curve or characteristic.
Typically, the torque transmitted by the friction clutch is estimated during a normal operating cycle of the associated actuator, in particular during the pick-up and gear-changing stages.
In one embodiment, the stored transmissibility curve or characteristic comprises a plurality of contiguous linear sections corresponding to respective adjacent ranges or bands of values of the position of the clutch.
During the implementation of the method, the torque transmitted values that are associated with the ends of the range or band in which the estimate position is included are modified in accordance with predetermined procedures.
In particular, the torque values that are associated with the ends are modified in dependence on the difference between the estimated value of the torque transmitted and that value which is associated with the same position of the clutch according to the previously stored characteristic or curve.
Further characteristics and advantages of the invention will become clear from the following detailed description which is given purely by way of non-limiting example with reference to the appended drawings, in which:
In
The actuator EA is driven by an electronic control system, generally indicated ECS. This system comprises an electronic processing and control unit ECU which receives signals or data from a plurality of sensors and detectors. In particular, the following are connected to the electronic unit ECU:
Further sensors or detectors, not shown in
In operation, the clutch transfers to the shaft PS of the transmission TR a variable fraction of the torque TE developed by the engine E, according to the degree of closure of the clutch FC. The torque transmitted to the shaft PS of the transmission TR by means of the clutch FC is indicated T in
The torque T transmitted is thus a function of the position x (of the movable portion) of the clutch FC.
A memory M (
In general, for a typical friction clutch for automotive use, the curve or characteristic of transmissibility (torque transmitted as a function of position) has a non-linear shape.
In the method according to the invention, the transmissibility curve or characteristic of a clutch of this type is approximated by means of a plurality of contiguous linear sections corresponding to respective adjacent ranges or bands of clutch position values, as shown in
In this drawing, the clutch position X is given on the abscissa and the torque T transmitted by the clutch is given on the ordinate.
The position X may correspond precisely to the actual position x of the movable portion of the clutch or may be a “standardized” position obtained, for example, by dividing the values of the position x by the value xM (maximum of the position x), possibly multiplied by a scaling factor, for example, of 1000.
With reference to
In conditions of maximum wear, the transmissibility curve or characteristic of the same clutch has a linearized trace of the type shown by the curve B of
In a generic intermediate condition between minimum (zero) wear and maximum wear, the transmissibility curve or characteristic of the clutch has an intermediate trace between the curves A and B, for example, the trace of the linearized curve indicated C in
The linearization of the transmissibility characteristics shown in
In
The values 0, X1, X2 and X3 will also be referred to below as “ends” of the above-mentioned ranges of bands of clutch position values.
Initially, an intermediate transmissibility curve or characteristic between those corresponding to the “new” clutch condition and the “maximum wear” condition, for example, the transmissibility curve of the type indicated C in
Subsequently, when the motor-vehicle is in use, the unit ECU arranges from time to time for the transmissibility curve or characteristic to be checked and possibly updated in the manner which will now be described.
From time to time, the unit ECU arranges to estimate, in predetermined operative conditions, the value TC of the torque T instantaneously transmitted by the clutch FC as a function of the detected instantaneous values of the torque TE delivered by the engine E and of the angular velocity ωE of the engine shaft S, at the same time detecting the corresponding value XC of the corresponding instantaneous position of the clutch, hereinafter defined as the “estimate position”.
The value TC of the torque T transmitted by the clutch FC is estimated, for example, on the basis of the following equation:
where JE is the moment of inertia of the shaft S of the engine E and t is the time.
Alternatively, with a more “refined” approach, the value TC of the torque T transmitted by the clutch FC may be estimated on the basis of the following equation:
where f(TFC) is a predetermined function of the temperature TFC of the friction clutch FC.
The estimated value TC and the associated value XC of the friction clutch position identify a point indicated PC in the plane T, X in
The transmissibility curve or characteristic stored in the memory M of the electronic unit ECU at the moment at which the value TC corresponding to the position XC of the friction clutch is estimated is indicated CO in
If the point PC identified by the pair of values TC, XC lies on the curve or characteristic CO or within a neighbouring area of predetermined width, the electronic unit ECU does not proceed with any updating of the transmissibility curve or characteristic stored in the memory M.
If, on the other hand, as in the example of
The graphs of
In a situation of this type, the electronic unit ECU is arranged to modify the transmissibility curve or characteristic stored in the memory M by modifying first of all the section of that curve corresponding to the band Z1, and then the sections of that curve or characteristic which fall within the bands Z2 and Z3.
In the case to which
The following equation can easily be derived from
where:
The first linear section of the previously stored transmissibility curve or characteristic CO is thus replaced by the line joining the origin point 0 and the point T1N, X1.
As shown in
The curve or characteristic CN of
The graphs of
In this case, the corresponding linear section of the stored transmissibility curve or characteristic is modified in a manner such that the transmitted torque values associated with the ends X1 and X2 of that range or band are modified by respective quantities ΔT1, ΔT2 which are predetermined in dependence on the torque difference ΔT between the estimated value TC and that torque value T which corresponds to the estimate position XC according to the previously stored transmissibility curve.
By analogy with the symbols used in
The electronic unit ECU is arranged to calculate the new torque transmitted values T1N and T2N that are associated with the positions X1 and X2 as functions of the values T1O and T2O that are associated with those positions according to the previously stored transmissibility curve or characteristic, on the basis of the following equations which can easily be derived from
In summary, the transmitted torque values associated with the ends of the range in which the estimate position XC lies are modified by respective quantities which depend on the torque difference AT and on the respective distances A, B−A of those ends from the estimate position XC.
Still with reference to the case of
Again with reference to
If the estimate position XC at which the value TC of the torque transmitted by the clutch FC is estimated lies in the upper range or band Z3, the unit ECU arranges, if necessary, to modify the transmissibility curve stored by operating in the same way as described above with reference to the case in which the estimate point PC lies in the second range or band Z2.
In any case, as already mentioned above, the updating of the transmissibility curve or characteristic stored in the memory M is enabled by the unit ECU only when predetermined operative conditions occur, for example, when the following conditions occur simultaneously:
The above-described control method compensates for degradation and ageing of the friction clutch FC used and enables the performance of the control system to be ensured substantially throughout the useful life cycle of the component.
Naturally, the principle of the invention remaining the same, the forms of embodiment and details of construction may be varied widely with respect to those described and illustrated purely by way of non-limiting example, without thereby departing from the scope of the invention as defined in the appended claims.
Number | Date | Country | Kind |
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08425772 | Dec 2008 | EP | regional |
Number | Date | Country |
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10 2007 015 679 | Oct 2008 | DE |
1 411 262 | Apr 2004 | EP |
1411262 | Apr 2004 | EP |
1 418 083 | May 2004 | EP |
1418083 | May 2004 | EP |
1 630 442 | Mar 2006 | EP |
1630442 | Mar 2006 | EP |
1 840 401 | Oct 2007 | EP |
Number | Date | Country | |
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20100138121 A1 | Jun 2010 | US |