Control system for automatic transmission

Details Control system for automatic transmission Control system for automatic transmission

2000-08-01

2001-07-24

Wright, Dirk (Department: 3681)

Interrelated power delivery controls, including engine control

Transmission control

Transmission controlled by engine

Reexamination Certificate

active

06264580

ABSTRACT:

TECHNICAL FIELD
The present invention relates to a control system for an automatic transmission, and more particularly to a system for controlling hydraulic pressure for use in so-called clutch-to-clutch shift or direct pressure control in accordance with control of a power source, such as an engine or a motor.
BACKGROUND ART
Since shift of the gear stage in an automatic transmission involves change in the rotations of a plurality of rotative elements, the inertia forces of the rotative elements must be absorbed to make the torque shift to be performed smoothly in order to prevent shift shock. Control for preventing the shift shock has been performed by controlling engaging pressure or releasing pressure for frictional engagement units, such as clutches and brakes, for performing the shift so as to absorb the inertia forces (energy) attributable to sliding of the frictional engagement units.
Change in the rotations of the engine which occurs when shift is performed becomes different between a power-on state in which the accelerator pedal has been depressed and a power-off state contrary to the power-on state. Therefore, when clutch-to-clutch shift is performed in which the states of engagement of two frictional engagement units are simultaneously changed, the engaging pressure for the on-coming frictional engagement unit is made adaptable to the state of revolution of the engine when the shift is performed.
When shift down, which is clutch-to-clutch shift, is performed, the engaging pressure for the on-coming frictional engagement unit is gradually raised (swept up) after rise in the engine revolving speed to the synchronized revolving speed at the gear stage set by the shift down because the engine revolving speed is attempted to be raised in the power-on state. In the power-off state, the engine revolving speed is undesirably lowered if the frictional engagement unit which has realized the gear stage is released. Therefore, the engaging pressure for the on-coming frictional engagement unit is enlarged in an early stage to raise the engine revolving speed to the synchronized revolving speed at the gear stage set by the shift down. That is, the engaging pressure for the frictional engagement unit is controlled to be adaptable to the tendency of the change in the revolving speed of the engine when the shift is performed.
When the clutch-to-clutch shift is performed, learning control is performed such that the hydraulic pressure is corrected in accordance with the state of fuel injection in the engine and the tied-up state when the previous shift has been performed and the shift is performed with the corrected hydraulic pressure when the next shift is performed.
That is, the clutch-to-clutch shift is performed such that the hydraulic pressure for at least one of the frictional engagement unit of the frictional engagement units for performing the shift is successively changed to correspond to the state of progress of the shift to prevent shock attributable to rapid change of the output torque. In this case, change in the revolving speed (the engine revolving speed) input to the automatic transmission is affected by the input torque, the friction coefficient of the frictional member or the change rate of the hydraulic pressure. Thus, there arises a possibility that fuel injection in the engine is undesirably performed excessively or a tied-up state occurs on the contrary.
Therefore, the foregoing problems have been prevented by correcting the controlled value of the hydraulic pressure in accordance with the detected state when the shift has been performed and the next clutch-to-clutch shift is controlled in accordance with the corrected controlled value. Since the foregoing control is able to use the individual difference in the automatic transmission and the factor such as the change of the frictional engagement unit as the time lapses in the control of the shift, control of the shift suitable for each case can be performed. Therefore, shift shock occurring when the clutch-to-clutch shift is performed can be prevented more satisfactorily.
Since it is preferable that rapid change in the rotations is prevented in order to prevent shift shock, a throttle valve of the engine has been electronically controlled to also control the engine revolving speed as well as the control the hydraulic pressure for the automatic transmission, in recent years. An example of the foregoing structure has been disclosed in Japanese Patent Laid-Open No. 5-231525 (JPA-5-231525).
The invention disclosed as described above relates to a hydraulic pressure control when so-called synchronizing shift is performed in which the opening of the throttle is enlarged by detecting the shift down when the shift down has been performed in a state where the throttle valve is closed. Thus, the engine revolving speed is synchronized with the revolving speed at the gear stage after the shift and shift down is performed in the foregoing state. Moreover, hydraulic pressure control means for preventing or restraining rise in the line pressure occurring attributable to the temporary enlargement of the opening of the throttle when the synchronizing shift is performed is provided. Thus, shock occurring because of the rapid torque capacity of the frictional engagement unit when the shift down is performed is prevented.
When the above-mentioned clutch-to-clutch shift or direct control of the pressure is performed, initial hydraulic pressure control has been performed in which the hydraulic pressure which is applied to the on-coming frictional engagement unit is temporarily raised simultaneously or immediately after the shifted output has been performed to reduce a so-called pack clearance so as to cause the frictional engagement unit to immediately be provided with a torque capacity when higher hydraulic pressure is applied.
The initial hydraulic pressure control is a control which is capable of bringing the frictional engagement unit into a standby state in which the frictional engagement unit can immediately and substantially be engaged. That is, if insufficient control is performed such that the initial hydraulic pressure is too low, timing for the frictional engagement unit to substantially be engaged is delayed and thus the shift response deteriorates. If the initial hydraulic pressure is too high, the frictional engagement unit is undesirably provided with an excessively large torque capacity. As a result, there arises a risk that a next control of low-pressure standby cannot satisfactorily be performed.
The above-mentioned synchronizing shift is performed at a down shift in a substantial power-off state when a manual selection by a driver is carried out, for example. If the shift down is performed by so-called clutch-to-clutch shift in which engagement/release states of two frictional engagement units are simultaneously changed, the engaging pressure for the off-going frictional engagement unit is relatively early swept up to raise the engine revolving speed to the synchronized revolving speed at the gear stage after the shift. That is, in accordance with the state of the revolution of the engine when the shift down has been judged, the control of the hydraulic pressure for the frictional engagement unit is judged and performed.
On the other hand, the engine is controlled such that the revolving speed is raised in accordance with a fact that the shift down is the synchronizing shift. Since the control to raise the revolving speed is performed by temporarily opening the throttle valve, also the engine torque is simultaneously enlarged.
In this case, the automatic transmission is controlled in accordance with the contents of control in the power-off state and the engaging pressure for the on-coming frictional engagement unit is raised when the shift is completed. However, since the throttle opening is enlarged after the shift has been started, a power-on state is undesirably realized. As a result, the control of the hydraulic pressure for the automatic transmission and the state of the operation of the engine do not coincide

Affiliated with

Also associated with

Rating

Control system for automatic transmission does not yet have a rating. At this time, there are no reviews or comments for this patent.

If you have personal experience with Control system for automatic transmission, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Control system for automatic transmission will most certainly appreciate the feedback.

Rate now

Comments { 0 }

Profile ID: LFUS-PAI-O-2562084