Internal-combustion engines – Engine speed regulator – Responsive to deceleration mode
Patent
1990-08-28
1992-05-19
Argenbright, Tony M.
Internal-combustion engines
Engine speed regulator
Responsive to deceleration mode
123493, F02D 4112
Patent
active
051138204
DESCRIPTION:
BRIEF SUMMARY
BACKGROUND OF THE INVENTION
The invention relates to a method of avoiding an excessive engine drag torque in motor vehicles by controlling the amount of fuel supplied to the engine after release of the accelerator pedal.
A device is known from German OS 21 39 230 where the fuel supply to the engine is increased when the speed of the driven wheels is too slow with respect to the vehicle speed when the brakes are not applied. This is to avoid too great a slippage of the driven vehicle wheels and instability of the vehicle.
SUMMARY OF THE INVENTION
The invention addresses the task of limiting the braking torque occurring when the accelerator pedal is released to a value which prevents a permanent locking of the driven wheels.
This is accomplished by making the residual amount of fuel time-dependent in addition to being dependent on the engine speed. After release of the accelerator, the fuel supply is gradually decreased until it reaches zero, or until the wheels have begun to lock. In the latter case the fuel supply is then increased until a prescribed acceleration has been reached, after which it may subsequently be decreased again.
As compared to the simple adjustment of the fuel amount which corresponds to approximately the zero-load amount, the proposed method has the advantage that on roads with a sufficiently high friction coefficient, the fuel amount is reduced down to zero, i.e. the advantages of fuel cut-off are retained.
BRIEF DESCRIPTION OF THE DRAWING
The FIGURE is a block diagram of an embodiment of the invention.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
In the FIGURE engine rotational speed sensor 1 is connected to a characteristic line memory 2 for the initial values, including a prescribed residual amount of fuel to be injected in dependency upon the rotational speed, which memory 2 in turn is connected to a multiplier 3. An adjusting device 4 for an element 5 varying the fuel supply may be the control rod of the injecting pump, while element 5 is the injection pump itself. A non-represented accelerator pedal acts on these elements. Sensor 6 is a sensor for the condition "acclerator pedal in zero-load position" or a no-gas switch. The speed signal of sensor 1 is supplied to a differentiator 7.
Downstream of the differentiator 7, two threshold value switches 8 and 9 are connected in parallel. Threshold value 8 responds when the reduction of the engine speed and, hence, the deceleration, is so great that a tendency to lock the wheels is recognized. The threshold value switch 9 responds when a certain acceleration of the driven wheels is exceeded.
A forward/backward counter 10 provides a correction factor which, in multiplier 3, is connected to the output of characteristic line memory 2. The scaling is selected such that the highest count represents a multiplication of one.
The counter 10 has inputs to "set to maximal count" and to count up and down. The count frequency which is supplied at a terminal 13 can, for example, be selected by a prescaler, independent of counting up or down. Moreover, the inputs are to have triggered flanks.
An inverter 11 and an OR-gate 12 are connected between sensor 6 and counter 10. If a sensor 6 signals that the accelerator pedal was released, a signal which depends on the instantaneous rotational speed and represents the residual amount to be injeted is fed to the multiplier 3. Triggered by sensor 6, the correction from counter 10 is at this moment available at the second input of multiplier 3. Immediately after the release of the acclerator pedal and thus the control rod 4 of the injection pump, a position is set which permits selecting the exact residual amount of fuel to be injected. This residual amount to be injected, which depends upon the the rotational speed, is selected such that under practically all operational conditions, the drag torque does not reach an unacceptably high vlaue. When the drag troque is too high, the drive wheels can lock leading to the loss of driving stability.
Since the residual amount to be injected is selected s
REFERENCES:
patent: 4204483 (1980-05-01), Harada et al.
patent: 4245599 (1981-01-01), Des Lauriers
patent: 4311123 (1982-01-01), Glockler et al.
patent: 4457276 (1984-07-01), Ueda et al.
patent: 4700673 (1987-10-01), Denz
patent: 4777918 (1988-10-01), Yasuoka
Argenbright Tony M.
Robert & Bosch GmbH
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