JP4313359B2 - Leakage cutoff valve control method and system - Google Patents

Description

  The present invention relates to a leakage cutoff valve control method and system, and more particularly, to a method and system for controlling a leakage cutoff valve installed in an injector using a voltage difference between batteries.

As is well known, an LPI engine is an engine that uses liquefied petroleum gas as fuel.
LPG fuel has the property that its saturated vapor pressure increases linearly as the temperature of LPG increases.
Accordingly, even after the engine start is turned off, the temperature and pressure of the LPG fuel rise due to the heat of the engine, and eventually, if a leak occurs in the injector, it flows into the engine through this.
Thereafter, when the engine is started, the fuel remaining in the injector, the fuel leaking from the injector, and the fuel normally transmitted from the fuel tank are mixed, and the amount of fuel flowing into the engine increases.

In this case, as the amount of fuel increases, the concentration (air fuel consumption) of the mixed gas in which the intake air sucked into the engine and the fuel are mixed also increases.
As a result, there is a problem that an abnormality occurs in starting the engine, the amount of NMHC (unburned hydrocarbon) increases, and the pollutant increases.
In order to solve the above problem, there is a method of preventing leakage of fuel to the engine by installing a leakage cutoff valve in the injector in the prior art.

According to this method, the leakage shut-off valve is opened after a certain time has elapsed after the ignition key is turned on.
In this case, the start time of the engine differs depending on the driver's will, which may cause a problem in startability, and there is a problem that the NMHC emission increases due to the fuel remaining between the injector and the leakage cutoff valve. .
In conclusion, it is the most ideal method that the leakage shut-off valve is opened immediately before the start of fuel injection in synchronism with the start of engine rotation, but for this purpose, the engine, the structure of the ECU, and There is a problem that the self-diagnosis device becomes complicated.
WO2002 / 052148 publication

  An object of the present invention is to provide a leakage shut-off valve control method and system which prevents the leakage of LPG fuel, has a stable startability, and has a simple structure.

To achieve the above object, a method of controlling the leakage shutoff valve installed in the injector according to an embodiment of the present invention includes the steps of determining whether the ignition key is turned, when the ignition key is turned, A step of measuring a voltage of the battery; a step of opening the leakage shut-off valve when the measured voltage difference of the battery is equal to or greater than a set value; and a measured voltage difference of the battery is equal to or less than the set value. A step of not opening the leakage shut-off valve, opening the leak shut-off valve and operating a timer at the same time, and determining whether the engine start is turned on after the leak shut-off valve is opened; Maintaining the leakage shut-off valve open when the engine start is turned on Determining whether the engine start is turned off while maintaining the leak shut-off valve open, and closing the leak shut-off valve when the engine start is turned off. And further comprising maintaining the leakage shut-off valve open if the engine start is not turned off, and if it is determined that the engine start is not turned on, Measuring the time when the leakage shut-off valve is opened by a timer, determining if the measured time has passed a set time, and passing the measured time after the set time A step of closing the leakage shut-off valve when it is determined that the leakage blocking valve has been determined .

In order to achieve the above object, a system for controlling a leakage shutoff valve installed in an injector according to an embodiment of the present invention is capable of shutting off an injector supplying fuel and fuel flowing in through the injector. A leakage shutoff valve coupled to the injector; and a control unit for controlling the leak shutoff valve, wherein the control unit determines whether an ignition key is turned on, and when the ignition key is turned on. Measuring the battery voltage; opening the leakage shut-off valve when the measured battery voltage difference is greater than or equal to a set value; and measuring the battery voltage difference less than or equal to the set value In some cases, the leakage blocking valve is closed and the leakage blocking valve is closed. A step of operating a timer at the same time as opening the valve, a step of determining whether the engine start is turned on after the leak cut-off valve is opened, and the leak cut-off valve when the engine start is turned on. Maintaining the valve open, determining whether the engine start has been turned off while maintaining the leak shutoff valve open, and opening the leak shutoff valve When the engine start is turned off in the maintained state, the leakage shut-off valve is closed, and the leak shut-off valve is kept open. If the start is not turned off, the step of maintaining the leakage shut-off valve open is further performed to determine that the engine has not been turned on. And measuring the time when the leakage shut-off valve is opened by the activated timer, determining whether the measured time has passed a set time, and the measured time. When it is determined that a predetermined time has passed, the step of closing the leakage shut-off valve is performed.

According to the leakage cutoff valve control method and system of the present invention, fuel leakage can be efficiently prevented by the leakage cutoff valve, thereby reducing the NMHC emission amount.
In addition, since the presence or absence of the start is determined based on the voltage of the battery, the leak shut-off valve is opened before fuel injection, the engine can have a stable startability, and the structure of the leak shut-off valve control system is simple There is an effect that.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a view showing a leak shutoff valve system according to an embodiment of the present invention.
As shown in FIG. 1, the leakage cutoff valve system according to the embodiment of the present invention includes an injector 101, a leakage cutoff valve 103, and a control unit 105.
The injector 101 supplies fuel to the intake manifold 107, and the leakage cutoff valve 103 is connected to the injector 101 so as to shut off the fuel flowing in through the injector 101.
The control unit 105 is realized by one or more microprocessors that operate according to a set program, and such a set program is included in each step included in the leakage shutoff valve control method of the embodiment of the present invention described later. It may include a series of instructions for performing

In addition, the control unit 105 controls the timer 113 by measuring the voltage of the battery 109 and the position of the ignition key 111.
When the ignition key 111 is turned on, the timer 113 measures the time from the moment when the ignition key 111 is turned on.
FIG. 2 is a view showing a leakage cutoff valve according to an embodiment of the present invention.
As shown in FIG. 2, the leakage cutoff valve 103 is connected to the lower side of the injector 101 and is formed so as to shut off the fuel supplied to the intake manifold 107.

The fuel is supplied to the injector 101 (see the solid line arrow in FIG. 2), and flows into and shuts off the intake manifold 107 (see the dotted line arrow in FIG. 2) by the leakage cut-off valve 103.
When the control unit 105 operates the coil 201 of the leakage cutoff valve 103, the leakage cutoff valve 103 raises the plunger 203 to supply fuel.
When the current to the coil 201 is interrupted, the plunger 203 is lowered by the return spring 205 and the fuel supply is interrupted.
Since the content of the leakage cutoff valve 103 is obvious to those skilled in the art, a detailed description thereof is omitted here.

FIG. 3 is a diagram illustrating a leakage cutoff valve control method according to an embodiment of the present invention.
Hereinafter, a leakage cutoff valve control method according to an embodiment of the present invention will be described with reference to FIG.
The control unit 105 of the leakage cutoff valve control system according to the embodiment of the present invention determines whether the ignition key 111 is turned on (S301).
At this time, the leakage cutoff valve 103 is closed to prevent fuel leakage.
Thereafter, when the ignition key 111 is turned on, the control unit 105 measures the voltage of the battery (S303).

If the control unit 105 determines that the ignition key 111 has not been turned on, the control unit 105 does not open the leakage cutoff valve 103 (S304).
After measuring the battery voltage, the control unit 105 determines whether the difference between the measured battery voltage and the voltage measured immediately before is greater than or equal to a set value (S305).
When the control unit 105 determines that the voltage difference between the batteries is equal to or greater than the set value, the control unit 105 opens the leakage cutoff valve 103 (S307).
When the engine start of the vehicle is turned on, the voltage of the battery instantaneously drops. Therefore, when the measured voltage difference is equal to or larger than the set value, the control unit 105 determines that the engine start is turned on. Then, the leakage cutoff valve 103 is opened (S307).

If the control unit 105 determines in step (S305) that the battery voltage difference is less than or equal to the set value, the control unit 105 returns to step (S301).
The control unit 105 activates the timer 113 simultaneously with opening the leakage cutoff valve 103 (S307). The timer 113 measures the time for which the leakage cutoff valve 103 is opened after the ignition key 111 is turned on.
Thereafter, the control unit 105 monitors the presence or absence of starting (S309). That is, even if the control unit 105 determines that the engine start is turned on in step (S307), if the engine start is not actually turned on, the fuel leakage cannot be prevented unless the valve is closed. Therefore, the control unit 105 monitors the presence or absence of actual start (S309).

Thereafter, the control unit 105 determines whether or not the engine has been started (S311). If it is determined that the engine has been turned on, the control unit 105 maintains the leakage cutoff valve 103 open (S313).
Thereafter, the control unit 105 determines whether the start has been turned off (S315). If it is determined that the start has been turned off, the control unit 105 closes the leakage cutoff valve 103 (S321) and initializes the timer 113.
If the control unit 105 determines that the start is not turned off after determining whether the start is turned off (S315), the control unit 105 maintains the opening of the leakage cutoff valve 103 (S313).
The control unit 105 determines whether or not the engine has been started (S311). If it is determined that the engine has not been turned on, the control unit 105 measures the time of the timer 113 (S317).
After measuring the time of the timer 113, the control unit 105 determines whether the time of the timer 113 is equal to or longer than the set time (S319). The valve 103 is closed (S321).

In step (S321), the control unit 105 initializes the timer 113.
In this case, the control unit 105 closes the leakage shut-off valve 103 because the start-up is not actually turned on and there is only a change in the battery voltage.
Therefore, according to the leakage cutoff valve control method according to the embodiment of the present invention, even if the voltage of the battery 109 drops due to an unexpected reason, an error that the leakage cutoff valve 103 is opened does not occur.
The control unit 105 determines whether or not the time of the timer 113 is equal to or longer than the set time (S319). Return.

  The preferred embodiments related to the present invention have been described above. However, the present invention is not limited to the above-described embodiments, and includes all modifications within the scope of the technical scope to which the present invention belongs.

1 is a view showing a leakage cutoff valve system according to an embodiment of the present invention. 1 is a view showing a leakage cutoff valve according to an embodiment of the present invention. It is a flowchart which shows the leak cutoff valve control method by embodiment of this invention.

Explanation of symbols

101 Injector 103 Leakage shutoff valve 105 Control unit 107 Intake manifold 109 Battery 111 Ignition key 113 Timer 201 Coil 203 Plunger 205 Return spring

Claims (2)

In a method for controlling a leakage shut-off valve installed in an injector,
Determining whether the ignition key is turned on;
Measuring the voltage of the battery when the ignition key is turned on; and
Opening the leakage shut-off valve when the measured battery voltage difference is greater than or equal to a set value;
When the measured battery voltage difference is less than the set value, open the leakage shut-off valve
Including the stage of not
Opening the leak shut-off valve and simultaneously operating a timer;
Determining whether the engine start is turned on after the leakage shut-off valve is opened;
Maintaining the leak shut-off valve open when the engine is turned on; and
Determining whether the engine start has been turned off while maintaining the leakage shut-off valve open;
Closing the leakage shut-off valve when the engine start is turned off;
Maintaining the leak shut-off valve open if the engine start is not turned off; and
Measuring the time that the leak shut-off valve is opened by the activated timer if it is determined that the engine start has not been turned on; and
Determining whether the measured time has passed a set time;
A leakage shut-off valve control method comprising: closing the leak shut-off valve when it is determined that the measured time has passed a set time . An injector for supplying fuel;
A leakage shut-off valve coupled to the injector so as to shut off fuel flowing through the injector;
A control unit for controlling the leakage shut-off valve,
The control unit is
Determining whether the ignition key is turned on;
Measuring the voltage of the battery when the ignition key is turned on; and
Opening the leakage shutoff valve when the measured battery voltage difference is greater than or equal to a set value; and
When the measured battery voltage difference is less than the set value, the leakage shutoff valve is closed.
Carry out the steps to
Opening the leak shut-off valve and simultaneously operating a timer;
Determining whether the engine start is turned on after the leakage shut-off valve is opened;
Maintaining the leakage shut-off valve open when the engine is turned on; and
Determining whether the engine start has been turned off while maintaining the leakage shut-off valve open;
Closing the leak shut-off valve when the engine is turned off while maintaining the leak shut-off valve open;
Maintaining the leak shut-off valve open when the engine start is not turned off while maintaining the leak shut-off valve open;
Carry out further,
Measuring the time that the leak shut-off valve is opened by the activated timer if it is determined that the engine start has not been turned on; and
Determining whether the measured time has passed a set time;
And a step of closing the leak shut-off valve when it is determined that the measured time has passed a set time .

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