KR100852600B1 - Apparatus and method for driving engine of car haging gasoline and lpg - Google Patents

Abstract

The present invention relates to an engine driving apparatus and method for a gasoline and elpgi combined vehicle, and more particularly, to an engine driving apparatus and method for a gasoline and elpgi combined vehicle which can control gasoline and elpgi fuel through one engine control unit. will be. The gasoline L oil generating the gasoline fuel injection signal and the sub L oil receiving the gasoline fuel injection signal and converting the LPI fuel injection signal are respectively provided, and in this case, communication for transmitting the gasoline fuel injection signal to the sub L oil. I need a line. In addition, the gasoline IU further included an additional device and program for diagnosing an electrical error of the communication line. According to the present invention, by integrating the existing gasoline I oil and sub I oil into one engine control unit, the communication line for transmitting the gasoline fuel injection signal of the gasoline I oil to the sub I oil and the electrical error of the communication line for detecting By eliminating additional devices, the number of parts can be reduced, simplifying the cost and manufacturing process.

Automobile, Gasoline Injector, Gas Injector, Gasoline ISO, Sub ISO

Description

TECHNICAL APPARATUS AND METHOD OF ENGINE DRIVE FOR CARBOT AND ELPIGE CAR {APPARATUS AND METHOD FOR DRIVING ENGINE OF CAR HAGING GASOLINE AND LPG}

1 is a diagram illustrating a configuration of an engine driving apparatus of a general gasoline and LPG combined vehicle.

Figure 2 is a diagram showing the configuration of the engine driving apparatus of the gasoline and LPG combined vehicle according to the present invention.

3 is a flowchart illustrating a process of driving an engine of a gasoline and LPG combined vehicle according to the present invention.

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

11: engine control unit 11a: actuator driver

11b: injector driver 11c: control unit

13: gasoline fuel pump 15: gasoline fuel tank

17 gasoline injector 19 cylinder

21: LLPIG Fuel Pump 23: LLPIG Fuel Tank

25: gas injector

The present invention relates to an apparatus and a method for driving an engine of a gasoline and elpgi combined vehicle, and more particularly, to an apparatus and a method for allowing an engine to be driven with gasoline and an Elpgi fuel through one engine control unit.

Liquefied Petroleum Gas (Liquefied Petroleum Gas) fuel is used in some passenger cars and vans due to its high octane value, excellent heat resistance, and low fuel cost.

The LPI fuel supplied to the engine of the vehicle is a liquid phase, and when it is vaporized, it has a high flammability because of good mixing with air, so that knocking is less likely to occur than gasoline and diesel. Vapor-Lock or percolation As a substitute for gasoline or diesel fuel, the application range is gradually increasing.

Therefore, the combined LPG and gasoline vehicle uses a vaporizer and mixer and an LPG fuel tank, a solenoid valve that controls the supply of the LPG fuel, and an LPG ICL controlling the solenoid valve. It must be provided.

However, in recent years, the vehicle uses an LPI (Liquefied Petroleum Injection) method which directly injects the combustion chamber through a gas injector through an injector control of a gasoline engine control unit, thereby eliminating the need for a separate mixer and evaporator. And power performance can be improved.

On the other hand, the general gasoline and Elpgi combined vehicle receives signals from the outside when the Elpji mode is selected by the driver or in accordance with the Elpji fuel cutoff signal provided when the fuel is switched according to the presence or absence of fuel as shown in FIG. A gasoline fuel injection signal is generated in the gasoline ICC 1, and the generated gasoline fuel injection signal is supplied to the sub ISO 3 via a communication line. The sub-ECU 3 receiving the gasoline fuel injection signal converts the gasoline fuel injection signal into an LLP fuel injection signal according to a gas pressure signal supplied from the outside, and then converts the converted LLP fuel injection signal to the gas injector 5. Supply.
On the other hand, when the gasoline mode is selected, the gasoline fuel injection signal generated in the gasoline ICC 1 is supplied to the gasoline injector 7.

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That is, the gasoline L-oil 1 for generating the gasoline fuel injection signal and the sub-C. Oil 3 for receiving the gasoline fuel injection signal and converting the LPI fuel injection signal into the gasoline fuel injection signal are provided. There is a need for a communication line for transmission to the sub-EC 3. In addition, the gasoline ISO 1 further included a program for diagnosing an electrical error of the communication line.

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 integrate gasoline Lee C and sub C oil into one engine control unit to remove unnecessary communication lines and to detect electrical errors in the communication lines. The present invention provides a method and apparatus for driving an engine of a gasoline and elpgi combined vehicle that can reduce the number of parts, thereby reducing the cost and simplifying the manufacturing process.

Technical problem according to the first aspect of the present invention for achieving the above object,

In the engine driving device of a gasoline and Elpgi combined vehicle for driving the engine with gasoline or Elpji fuel,

Generating gasoline fuel pump signals and gasoline fuel injection signals for supplying gasoline fuel in the gasoline fuel tank to the gasoline injector based on signals supplied from the respective sensors, respectively, and when the Elpji fuel cutoff signal is received, An engine control unit for converting an LPG fuel pump signal for supplying fuel to the gas injector and the gasoline fuel injection signal to an LPG fuel injection signal based on a gas temperature signal and a gas pressure signal, and then generating a converted LPG fuel injection signal, respectively Characterized in that it comprises a,

Here, the engine control unit,

Generates a gasoline fuel injection signal for injecting gasoline fuel provided to the gasoline injector into the cylinder based on the signals supplied from the respective sensors, and receives an Elpji fuel cutoff signal generated by the driver or when switching fuel with or without fuel An injector driver that converts the gasoline fuel injection signal into an Elpji fuel injection signal based on the gas temperature signal and the gas pressure signal and generates a converted Elpgi fuel injection signal;

An actuator driver for generating an LPG fuel pump signal for supplying LPG fuel in an LP fuel tank to the gas injector when a gasoline fuel pump signal for pumping gasoline fuel in the gasoline fuel tank and the LPG fuel cutoff signal are received; And

And a controller configured to control the injector driver to output the LLP fuel injection signal when the LLP fuel cutoff signal is received, and to control the actuator driver to output the LLP fuel pump signal.

According to a second aspect of the present invention, there is provided a method of driving an engine of a gasoline and LPG combined vehicle,

In the method of driving the engine by outputting the LLP fuel injection signal generated through the injector driver under the control of the control unit receiving the LLP fuel cutoff signal, and outputs the LLP fuel pump signal through the actuator driver,

a) receiving a signal supplied from the respective sensors including a gas temperature signal and a gas pressure signal after receiving power supplied from the outside and the LLP fuel cutoff signal;

b) generating a gasoline fuel pump signal through the actuator driver, and supplying the generated gasoline fuel pump signal to a gasoline fuel pump to supply gasoline fuel in a gasoline fuel tank to the gasoline injector;

c) after the execution of step b) generates a gasoline fuel injection signal through the injector drive, and then checks whether the current mode is the Elpji mode based on the Elpji fuel cutoff signal received through the step a), Supplying the generated gasoline fuel injection signal to the gasoline injector and injecting the gasoline fuel supplied through the step b) into a cylinder; And

d) when the current mode is the Elpji mode through the step c) through the actuator driver to generate an Elpgi fuel pump signal, and to supply the generated Elpgi fuel pump signal to the Elpji fuel pump to supply the Elpji fuel in the Elpji fuel tank Supplying an injector, and injecting the LPG fuel into the cylinder according to the LPG fuel injection signal converted from the gasoline fuel injection signal generated by the injector driver;

Characterized in that it comprises a.

According to a preferred embodiment of the present invention, the number of parts is eliminated by integrating the existing gasoline C and C sub oils into one engine control unit, eliminating unnecessary communication lines and removing additional devices for detecting electrical errors in the communication lines. To reduce costs and simplify the manufacturing process.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention. However, the present invention will be described as an example of a combined gasoline and LPG vehicle.

Figure 2 is a diagram showing the configuration of the engine driving apparatus of the gasoline and LPG combined vehicle according to the present invention. Referring to FIG. 2, an engine driving apparatus for a gasoline and elpgi combined vehicle according to the present invention includes an engine driver 11 including an actuator driver 11a, an injector driver 11b, and a controller 11c, and a gasoline fuel pump ( 13, a gasoline fuel tank 15, a gasoline injector 17, a cylinder 19, an LLP fuel pump 21, an LLP fuel tank 23, and a gas injector 25.

The actuator driver 11a of the engine control unit 11 generates a gasoline fuel pump signal for pumping the gasoline fuel in the gasoline fuel tank 15, and when the LPI fuel cutoff signal is received, the engine driver 11a of the engine control unit 11a. It is provided to generate an Elpiji fuel pump signal for pumping the Elpiji fuel, the control unit 11c is provided to output an Elpigi fuel pump signal when the Elpiji fuel cutoff signal is received. In addition, the controller 11c is provided to output a gasoline fuel pump when the LLP fuel cutoff signal is not received.

The injector driver 11b generates a gasoline fuel injection signal for injecting the gasoline fuel of the gasoline injector into the cylinder based on the signals supplied from the respective sensors, and the gasoline fuel injection signal when the LLP fuel cutoff signal is received. Converts the signal into an Elpgi fuel injection signal based on the gas temperature signal and the gas pressure signal, and generates a converted Elpgi fuel injection signal, wherein the control unit 11c receives the Elpji fuel injection signal when the Elpji fuel injection signal is received. It is provided to output. In addition, the controller 11c is provided to output a gasoline fuel injection signal when the LLP fuel cutoff signal is not received.

That is, the gasoline fuel pump signal for supplying the gasoline fuel in the gasoline fuel tank 15 to the gasoline injector 17 based on the signals supplied from the sensors is operated by an actuator driver (operated by the control of the controller 11c). Output in accordance with 11a). The gasoline fuel pump signal is supplied to the gasoline fuel pump 13, and the gasoline fuel injection signal is supplied to the gasoline injector 17.

In addition, the actuator driver 11a generates an LLP fuel pump signal for supplying the LLP fuel in the LLP fuel tank 23 to the gas injector 25 under the control of the controller 11c. Is supplied to the LLP fuel pump 21.

The injector driver 11b generates the gasoline fuel injection signal, and converts the generated gasoline fuel injection signal into an LLP fuel injection signal based on a gas temperature signal and a gas pressure signal, and then generates a converted LLP fuel injection signal. The generated LPG fuel injection signal is supplied to the gas injector 25.

Gasoline injector 17 is selected according to the Elpji fuel cutoff signal which is operated by the driver when the ignition switch (not shown) is turned on or automatically when the fuel is switched on with or without fuel, and the gasoline injector 17 according to the selected mode. The gasoline fuel is injected to drive the engine, or the LPG is injected to the gas injector 25 to drive the engine.

In the embodiment of the present invention, although the engine control unit 11 includes an actuator driver 11a, an injector driver 11b, and a control unit 11c in which engine driving is an essential component, the actual engine control unit 11 is described. The control unit (11c) of the program to perform the ignition timing, the control of the gasoline fuel injection signal and the LPG fuel injection signal generated by the injector driver (11b) according to the received signals, the idle air amount control according to the air pressure signal, etc. In addition, the engine control unit 11 further includes a memory for temporarily operating when the control unit 11c is reset. Since the program included in the controller 11c is a conventional process, detailed description thereof will be omitted.

3 is a flowchart illustrating an operation process of the engine controller 11 illustrated in FIG. 2. That is, the start key signal indicating that the ignition switch (not shown) is on, the signals of each sensor including the gas temperature signal and the gas pressure signal, and the LLP fuel cutoff signal are controlled by the controller 11c of the engine controller 11. ), The control unit 11c controls to generate a gasoline fuel pump signal based on the signals of the respective sensors through the actuator driver 11a (step 103), and the control unit 11c of the generated actuator driver 11a. The gasoline fuel pump signal is supplied to the gasoline fuel pump 13 so that the gasoline fuel in the gasoline fuel tank 15 is supplied to the gasoline injector 17 (step 105). The controller 11c then controls to generate a gasoline fuel injection signal for injecting the gasoline fuel supplied to the gasoline injector 17 into the cylinder 19 via the injector driver 11b (step 107). Under the control of the control unit 11c, the injector driver 11b generates the gasoline fuel injection signal.

On the other hand, the controller 11c checks whether the current LPG mode is based on the received LPG fuel cutoff signal (step 109), and if the current LPG mode is not in the gasoline fuel injection signal generated through the step 107 gasoline injector The injector driver 11b is controlled to supply to 17 (step 111). That is, the gasoline injector 109 injects the gasoline fuel supplied to the gasoline injector 17 through the step 105 to the cylinder 19 according to the gasoline fuel injection signal provided through the injector driver 11b. .

 In addition, under the control of the control unit 11c, the actuator driver 11a generates an LLP fuel pump signal based on the signals of the respective sensors in the LP mode through the step 109 (step 113). Since the fuel pump signal is supplied to the LLP fuel pump 21, the LLP fuel in the LLP fuel tank 23 is supplied to the gas injector 25 (step 115). The injector driver 11b then controls the gasoline fuel injection signal generated by the step 107 based on the gas temperature signal and the gas pressure signal received from the step 101 under the control of the controller 11. The LPG fuel injection signal is switched (step 117), and the converted LPG fuel injection signal is supplied to the gas injector 25.

The gas injector 25 injects the lpgi fuel supplied to the gas injector 25 through the step 117 to the cylinder 19 in accordance with the lpgi fuel injection signal (119).

In the exemplary embodiment of the present invention, the LPI and the gasoline combined vehicle have been described as examples, but the gasoline fuel pump, the gasoline fuel tank and the gasoline injector are configured to be detachable, and thus the Elpia can be applied to the vehicle.

As described in detail above, the engine driving apparatus and method of the gasoline and LPG combined vehicle according to the present invention, by combining the existing gasoline two oil and sub-II oil into one engine control unit to eliminate unnecessary communication lines and the communication line By eliminating additional devices that detect electrical errors, the number of parts can be reduced, resulting in cost savings and a simplified manufacturing process.

As such, those skilled in the art to which the present invention pertains will understand that the present invention may be embodied in other specific forms without changing to the technical spirit 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. .

Claims (3)

In the engine driving device of a gasoline and Elpgi combined vehicle for driving the engine with gasoline or Elpji fuel, Generating gasoline fuel pump signals and gasoline fuel injection signals for supplying gasoline fuel in the gasoline fuel tank to the gasoline injector based on signals supplied from the respective sensors, respectively, and when the Elpji fuel cutoff signal is received, An engine control unit for converting an LPG fuel pump signal for supplying fuel to the gas injector and the gasoline fuel injection signal to an LPG fuel injection signal based on a gas temperature signal and a gas pressure signal, and then generating a converted LPG fuel injection signal, respectively Engine driving device of the combined gasoline and LPG vehicle comprising a. The method of claim 1, wherein the engine control unit, Generates a gasoline fuel injection signal for injecting gasoline fuel provided to the gasoline injector into the cylinder based on the signals supplied from the respective sensors, and receives an Elpji fuel cutoff signal generated by the driver or when switching fuel with or without fuel An injector driver that converts the gasoline fuel injection signal into an Elpji fuel injection signal based on the gas temperature signal and the gas pressure signal and generates a converted Elpgi fuel injection signal; An actuator driver for generating an LPG fuel pump signal for supplying LPG fuel in an LP fuel tank to the gas injector when a gasoline fuel pump signal for pumping gasoline fuel in the gasoline fuel tank and the LPG fuel cutoff signal are received; And And a controller configured to control the injector driver to output the LLP fuel injection signal when the LLP fuel cutoff signal is received, and to control the actuator driver to output the LLP fuel pump signal. Engine drive unit for an Elpgi combined vehicle. In the method of driving the engine by outputting the LLP fuel injection signal generated through the injector driver under the control of the control unit receiving the LLP fuel cutoff signal, and outputs the LLP fuel pump signal through the actuator driver, a) receiving a signal supplied from the respective sensors including a gas temperature signal and a gas pressure signal after receiving power supplied from the outside and the LLP fuel cutoff signal; b) generating a gasoline fuel pump signal through the actuator driver, and supplying the generated gasoline fuel pump signal to a gasoline fuel pump to supply gasoline fuel in a gasoline fuel tank to the gasoline injector; c) after the execution of step b) generates a gasoline fuel injection signal through the injector drive, and then checks whether the current mode is the Elpji mode based on the Elpji fuel cutoff signal received through the step a), Supplying the generated gasoline fuel injection signal to the gasoline injector and injecting the gasoline fuel supplied through the step b) into a cylinder; And d) when the current mode is the Elpji mode through the step c) through the actuator driver to generate an Elpgi fuel pump signal, and to supply the generated Elpgi fuel pump signal to the Elpji fuel pump to supply the Elpji fuel in the Elpji fuel tank Supplying an injector, and injecting the LLP fuel into a cylinder according to the LLP fuel injection signal converted from the gasoline fuel injection signal generated by the injector driver.

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