Internal-combustion engines – Engine speed regulator – Idle speed control
Reexamination Certificate
2000-10-16
2003-02-18
Hirsch, Paul J. (Department: 3747)
Internal-combustion engines
Engine speed regulator
Idle speed control
C123S339190, C180S069300, C440S087000
Reexamination Certificate
active
06520147
ABSTRACT:
PRIORITY INFORMATION
This application is based on and claims priority to Japanese Patent Application No. 11-293055, filed Oct. 14, 1999, the entire contents of which is hereby expressly incorporated by reference.
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention generally relates to idle speed controls for internal combustion engines used in marine applications. More specifically, the present invention relates to such systems in which throttle bypass levels are adjusted based on throttle valve positioning or engine speed.
2. Related Art
Outboard motors are powered by engines contained within an engine compartment of the outboard motor. The outboard motors are conventionally attached to watercraft to power the watercraft in a forward or reverse direction. As is known, the engine of the outboard motor is subject to increased loading when compared to that of an automobile, for instance. This increased loading generally results from the nature of the outboard motor and the environment of use of the outboard motor.
The engines that power the outboard motors may contain an intake system featuring a bypass passage. The bypass passage typically is linked to the intake system upstream and downstream of a throttle control valve. As is known, the throttle control valve controls the amount of air flowing through the induction system into the engine for combustion. When the throttle control valve is closed, the air flow rate is minimized and when the throttle control valve is opened, the flow rate through the induction system can be somewhat controlled. The use of a bypass passage allows air to bypass the throttle control valve for supply to the engine even when the throttle control valve is closed. In some instances, an ISC, or idle speed control valve, is positioned along the bypass passage. The ISC valve can be used to fine tune the idling engine speed when the throttle control valve is in a closed position.
Conventional ISC valves are designed to open when the throttle valve suddenly closes following a period of high speed operation. It is thought that by opening the ISC valves when the throttle valve closes, misfiring and stalling can be obviated or greatly reduced. Generally speaking, the ISC valves are closed when the throttle valve is opened and when the engine speed is low. The ISC valves are opened when the throttle valve is closed and when the engine speed is high. In some applications, the ISC valves can be suddenly opened during high speed operation of the engine and then gradually closed after the engine speed decreases below a preset level.
The positioning of the idle speed control valve often is controlled by inexpensive step motors. The inexpensive step motors typically have a slow response characteristic. In other words, the command to move is followed by a slight delay before the movement occurs. In addition, these motors cause the valves to move relatively slowly and incrementally.
With reference now to
FIG. 6
, a conventional ISC valve control strategy implemented in such a system is illustrated in broken lines. As illustrated in this arrangement, the ISC valve traditionally remains closed while the throttle valve is opening. The ISC valve remains in the closed position until the throttle angle is rapidly decreased (i.e., the throttle valve closes under the biasing force of a spring, such as when the opening provided by an operator controlled actuator is removed). Once the throttle angle is rapidly decreased, the ISC valve slowly opens under the control of the stepper motor. Because of the slow opening rate of the idle speed control valve, the air flow through the induction system does not properly match the desired change of the engine speed resulting from the rapid change in throttle position. Accordingly, the engine can stall or misfire due to an inadequate supply of intake air. One way of correcting this is to provide an idle speed control valve in which the ISC valve opens more rapidly for each input signal to the stepper motor. A drawback from this approach is that a large ISC valve is required and the larger ISC valves increase cost and weight.
Accordingly, an arrangement is desired in which the idle speed control valve is positioned to provide an adequate air supply upon rapid closure of an associated throttle valve.
SUMMARY OF THE INVENTION
Accordingly, an idle speed control system is desired in which an idle speed control valve is opened as a throttle valve is opened and in which the idle speed control valve is closed when the throttle valve is rapidly closed.
One aspect of the present invention involves a small watercraft comprising an engine disposed within an engine compartment. The engine comprises a cylinder body. At least one cylinder bore is formed in the cylinder body. A piston is mounted for reciprocation within the cylinder bore. A cylinder head is disposed over a first end of the cylinder bore. A crankcase member is disposed over a second end of the cylinder bore. An output shaft is disposed at least partially within a crankcase chamber at least partially defined by the crankcase member. The output shaft powers an output device and a speed sensor is adapted to sense an output speed of the engine. A combustion chamber is defined at least partially within the cylinder bore between the cylinder head and the piston. An intake conduit communicates with the combustion chamber. A throttle valve is disposed within the intake conduit. A throttle valve sensor is capable of sensing a position of the throttle valve. A bypass passage communicates with the intake conduit at a location between the throttle valve and the combustion chamber. An idle speed control valve is disposed along the bypass passage. A controller electrically communicates with the idle speed control valve, the speed sensor and the throttle valve sensor. The controller is adapted to open the idle speed control valve as a function of at least one of a first input signal from the speed sensor indicative of an increase in engine speed and a second input signal from the throttle valve sensor indicative of an the throttle valve is opened.
Another aspect of the present invention involves a method of controlling movement of an idle speed control valve. The method comprises detecting a throttle angle, sensing an engine speed, determining a desired idle speed control valve positioning based upon the sensed engine speed, detecting an idle speed control valve positioning, moving the idle speed control valve if the desired idle speed control valve positioning differs from the detected idle speed control valve positioning.
A further aspect of the present invention involves a method of controlling an idle speed control valve in an engine for a watercraft. The method comprises sensing a throttle angle, determining a desired idle speed control valve positioning based upon the sensed throttle angle, detecting an idle speed control valve positioning, moving the idle speed control valve if the desired idle speed control valve positioning differs from the detected idle speed control valve positioning.
REFERENCES:
patent: 5261368 (1993-11-01), Umemoto
patent: 5630394 (1997-05-01), Grizzle et al.
patent: 5701867 (1997-12-01), Mizutani et al.
patent: 5934247 (1999-08-01), Hashimoto et al.
patent: 6119653 (2000-09-01), Morikami
Castro Arnold
Knobbe Martens Olson & Bear LLP
Sanshin Kogyo Kabushiki Kaisha
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