KR20110066475A - Method and system for injecting fuel of vehicle - Google Patents

Abstract

PURPOSE: A method and system for injecting fuel of vehicle are provided to perform the optimum operation of an engine by preventing the adhering of gas fuel to a gas injector. CONSTITUTION: A method for injecting fuel of vehicle e comprises next steps. The temperature of fuel is provided from a fuel temperature sensor which is installed at the tip of the gas injector(10). The temperature of fuel, offered from a fuel temperature transmitting step, is compared with a preset critical value. If the temperature of fuel is lower than a preset critical value, the current amount provided to a gas injector for a peak time is controlled.

Description

Injection control system and method for automobiles {METHOD AND SYSTEM FOR INJECTING FUEL OF VEHICLE}

The present invention is to drive the gas injector in an optimal state, and more specifically, to prevent the gaseous fuel deposits that occur during the fuel injection when the gas fuel temperature is less than the predetermined threshold in advance to drive the engine in an optimal state It relates to an injection control system and method of a vehicle.

In general, a gas injector for fuel injection of a vehicle is controlled from a microcontroller, which controls fuel injection time by supplying a peak signal and a hold signal to the gas injector according to a program.

Conventional control device for gas injector control is used for the sequential operation of the engine cylinder.

The peak and hold circuit provides a peak signal and a hold signal. The peak signal is a control signal for applying an initial peak current to the gas injector, and the hold signal is a control signal for maintaining operation of the gas injector after the initial peak current.

Therefore, the Engine Control Unit (ECU) can hold these peak times and hold

The peak and hold signals are output to generate time.

The peak time is uniform in proportion to the hold time for sequential control of each gas injector

There is a time difference, and the hold time is the same time interval depending on the module of the gas injector.

That is, the peak signal and the hold signal are output with the time difference by the peak time.

This generates a pulse width modulated (PWM) signal during the hold time.

Therefore, the pulse width of the pulse width modulation (PWM) signal is determined according to the specifications of the gas injector

It is to be designed based on the gas injector module. During the hold time, a pulse width modulation (PWM) signal is output and supplied to the injector driver. The injector driver performs a predetermined power amplification for driving the gas injector, so that the current is supplied to the gas injector by the pulse width of the pulse width modulation PWM.

However, in a bi-fuel car driving an engine with gasoline fuel and gas fuel, the lubrication component (HC) is included when filling the gas fuel at the gas filling station, so that the viscosity of the lubrication component becomes stronger when the gas fuel temperature is below the threshold, so that the gas injector of the gas fuel There was a problem that the lubricating component of the gaseous fuel solidified at the inlet of the gas injector and thus the gas injector failed.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and an object of the present invention is to control the amount of gas supplied to the gas injector during the peak time when the fuel temperature is lower than a predetermined threshold during gas fuel injection. It is an object of the present invention to provide an injection control system and method for an automobile that prevents the lubrication component from adhering to the gas injector so as to drive an optimum engine.

Injection control system for a vehicle according to the first aspect of the present invention for achieving the above object,

A plurality of gas injectors for supplying gas fuel in a fuel tank to a cylinder;

An injector driver configured to provide a predetermined amount of current to the plurality of gas injectors for a predetermined peak and hold time to drive the gas injector;

And an engine control device that sets the amount of current during the peak time to be higher than the current value of the preset peak time when the fuel temperature supplied from the fuel temperature sensor installed in front of the gas injector is below a threshold.

An engine control apparatus for an automobile according to a second aspect of the present invention,

A fuel temperature comparison module comparing a fuel temperature supplied from a fuel temperature sensor installed at a front end of the gas injector with a preset threshold;

And a peak time control module configured to control an amount of current supplied to the gas injector during a preset peak time when the fuel temperature is lower than the threshold in the fuel temperature comparison module.

The peak time control module may be provided so that the amount of current supplied to the gas injector during the peak time is supplied to the gas injector at a current value higher than the amount of current at a predetermined peak time.

The peak time control module may be configured to drive a gas injector with a current amount of the preset peak time when the fuel temperature is not equal to or less than the threshold in the fuel temperature comparison module.

Injection control method for a vehicle according to a third aspect of the present invention,

A fuel temperature receiving step of receiving a fuel temperature supplied from a fuel temperature sensor installed at a front end of the gas injector;

A comparison step of comparing the fuel temperature provided in the fuel temperature receiving step with a preset threshold;

And a peak time control step of controlling an amount of current supplied to the gas injector during the peak time when the fuel temperature is less than or equal to a preset threshold in the comparing step.

In the peak time control step, the amount of current supplied to the gas injector during the peak time is set to be higher than the current amount of the predetermined peak time to be supplied to the gas injector.

The peak time control step is characterized in that the fuel temperature comparison module is provided to drive a gas injector with a current amount of the predetermined peak time when the fuel temperature is not below the threshold.

Therefore, according to the injection control system and method of the vehicle of the present invention, when the fuel temperature supplied from the fuel temperature sensor installed in front of the gas injector is below the threshold, the amount of current during the peak time is higher than the current value of the preset peak time. By setting and providing the gas injector with the amount of current during the set peak time, the lubricating component of the gaseous fuel is prevented from adhering to the gas injector, thereby obtaining the effect of driving the optimum engine.

Hereinafter, the injection control system and method for a vehicle according to an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing an injection control system of a vehicle according to a preferred embodiment of the present invention, Figure 2 is a view showing the configuration of the engine control apparatus shown in Figure 1, Figure 3 is a view of the vehicle shown in FIG. It is a figure for demonstrating the injection control process.

As shown in FIG. 1, the injection control system for a vehicle according to the present invention includes a preset current value for a current amount during the peak time when a fuel temperature supplied from a fuel temperature sensor installed at a front end of the gas injector is below a threshold. It is provided to set higher, and the system includes a plurality of gas injectors 10, injector drivers 30, and an engine control device 50.

The engine control apparatus 10 is provided to set the amount of current during the peak time higher than a preset current value when the fuel temperature supplied from a fuel temperature sensor (not shown) installed in front of a plurality of gas injectors is below a threshold. do.

In addition, the plurality of gas injectors 10 are provided to supply gas fuel in a fuel tank to a cylinder, and the injector driver 30 is provided during a predetermined peak and hold time supplied from the engine control device 50. It is provided to control the amount of current flowing in the injection to drive the injection of the multiple gas injector.

Preferably, the engine control device 50, as shown in Figure 2, the fuel temperature comparison comparing the fuel temperature supplied from the fuel temperature sensor (not shown) installed in front of the gas injector with a predetermined threshold value The module 51 and the fuel temperature comparison module 51 include a peak time control module 53 for controlling the amount of current supplied to the gas injector during a preset peak time when the fuel temperature is lower than the threshold.

Here, the peak time control module 53 is provided to supply the amount of current supplied to the gas injector during the peak time to the gas injector 10 at a current value higher than the amount of current at a preset peak time.

That is, according to the present invention, when the fuel temperature supplied from the fuel temperature sensor installed in front of the gas injector is below the threshold, the amount of current during the peak time is set higher than the preset current value and the amount of current during the set peak time is set as the gas injector ( 10) to provide.

An operation process of the injection control method of the vehicle will be described with reference to FIG. 3.

First, the engine control apparatus 50 receives the fuel temperature supplied from the fuel temperature sensor adjacent to the front end of the gas injector through step 101 and then compares the received fuel temperature with a preset threshold (step 103).

At this time, when the fuel temperature is less than the threshold value, through step 105, the amount of current supplied during the peak time is set higher than the preset current amount, and then proceeds to step 107.

In step 107 of the engine control device 50, the peak time current amount set in step 105 is provided to the gas injector 10 through the injector driver 30 to inject gas fuel into the cylinder.

On the other hand, when the fuel temperature is not below the threshold in step 103, the gas injector 10 is driven with a current amount of a predetermined peak time (step 109).

As such, those skilled in the art to which the present invention pertains may understand that the present invention may be embodied in other specific forms without changing to the technical concept or essential features of the present invention. Therefore, the above-described embodiments are to be understood in all respects as illustrative and not restrictive. The scope of the invention is indicated by the following claims rather than the above description, and it should be construed that all changes or modifications derived from the meaning and scope of the claims and their equivalents are included in the scope of the invention. .

1 is a view showing the configuration of an injection control system for a vehicle according to an embodiment of the present invention.

FIG. 2 is a diagram illustrating a configuration of the engine control apparatus shown in FIG. 1.

3 is a view showing an injection control process of a vehicle according to another embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

10: multiple gas injectors

30: injector driver

50: engine control unit

51: fuel temperature comparison module

53: peak time control module

Claims (7)

A plurality of gas injectors for supplying gas fuel in a fuel tank to a cylinder; An injector driver for controlling the amount of current flowing in the injection during a predetermined peak and hold time to drive the injection of the multiple gas injectors; And an engine control device for setting the amount of current during the peak time higher than a preset current value when the fuel temperature supplied from the fuel temperature sensor installed in front of the gas injector is below a threshold. . A fuel temperature comparison module comparing a fuel temperature supplied from a fuel temperature sensor installed at a front end of the gas injector with a preset threshold; And And a peak time control module configured to control the amount of current supplied to the gas injector during a preset peak time when the fuel temperature is lower than the threshold in the fuel temperature comparison module. The engine control apparatus of claim 2, wherein the peak time control module is configured to supply the gas injector with a current value higher than a preset current amount during the peak time. The engine control apparatus of claim 3, wherein the peak time control module is configured to drive a gas injector with a current amount of the predetermined peak time when the fuel temperature is not equal to or less than the threshold in the fuel temperature comparison module. . A fuel temperature receiving step of receiving a fuel temperature supplied from a fuel temperature sensor installed at a front end of the gas injector; A comparison step of comparing the fuel temperature provided in the fuel temperature receiving step with a preset threshold; And a peak time control step of controlling an amount of current supplied to a gas injector during the peak time when the fuel temperature is less than or equal to a preset threshold in the comparing step. 6. The injection control method of claim 5, wherein the peak time control step is provided such that the amount of current supplied to the gas injector during the peak time is supplied to the gas injector at a current value higher than a preset current amount. The injection control method of claim 6, wherein the peak time control step drives the gas injector at a current amount of the preset peak time when the fuel temperature is not lower than or equal to a preset threshold in the comparing step.

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