KR101947358B1 - Method and apparatus for diagnosing fuel leakage of vehicle - Google Patents

Abstract

The present invention discloses a method and an apparatus for diagnosing fuel leakage of a vehicle. According to the present invention, when a natural negative pressure (atmospheric pressure) is formed in accordance with a change in outdoor air temperature after stopping the engine and the fuel pressure in the fuel tank which decreases after the engine starts reaches a predetermined pressure, And when the fuel pressure switch connection time does not exceed the determination reference value, derives the ambient temperature change amount during engine stop from the outside air temperature after engine stop and the outside air temperature after engine startup, Fuel ratio of the engine is higher than a predetermined threshold value, and when the engine start-up water oxygen sensor is activated, the purge valve is controlled to open at a predetermined value for a predetermined time, and if the derived fuel pressure switch connection signal is received, When the derived fuel pressure switch connection time exceeds the preset threshold value As it determined on a large scale leak, since the fuel pressure of the fuel tank is automatically natural negative pressure is formed in accordance with the ambient temperature it is possible to shorten the fuel pressure leakage diagnosis time of the whole tank to a minimum.

Description

TECHNICAL FIELD [0001] The present invention relates to a method and apparatus for diagnosing fuel leakage in a vehicle,

The present invention relates to a method and an apparatus for diagnosing a fuel leak of a vehicle, and more particularly, to a method and apparatus for diagnosing fuel leakage of a vehicle, The present invention relates to a method and an apparatus for determining leakage occurrence and leakage size of a fuel tank on the basis of a fuel pressure switch connection time and a connection state connected when a predetermined pressure reaches a predetermined value.

In recent years, exhaust gas regulations for automobiles have been strictly applied globally in the North American market. Regulations have been imposed on vehicles operating in North America such that the function of monitoring the fuel system leaks is essential to the engine control system (OBD-II).

This is to minimize the air pollution by preventing the evaporated fuel from being discharged into the atmosphere by lighting the warning lamp when leakage of the evaporative gas occurs in the fuel system leakage in the field.

In the conventional leak diagnosis of the fuel tank during engine stop, the negative pressure in the fuel tank is formed through the control of the canister purge valve, and then the leakage diagnosis in the fuel tank is executed based on the change of the fuel pressure in the fuel tank through the control of the purge valve.

That is, the conventional fuel leak diagnosis has a problem that the leak diagnosis time is long due to the process of forming the negative pressure in the fuel tank and the process of measuring the amount of change of the fuel pressure which is raised after forming the negative pressure.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above problems, and it is an object of the present invention to provide a fuel cell system, ), The connection time of the fuel pressure switch connected when the fuel pressure of the fuel tank decreasing after the engine startup reaches a predetermined pressure, the amount of change in the ambient temperature during engine stop, and the purge valve opening control after engine startup The present invention provides a method and an apparatus for diagnosing a fuel leak of a vehicle that determines whether or not at least one of a fuel leak and a leakage size of a fuel tank is determined based on whether or not a fuel pressure switch connection signal is received, The leakage diagnosis time of the fuel tank can be minimized.

According to a first aspect of the present invention, there is provided a fuel leak diagnosis method for a vehicle,

The fuel pressure of the fuel tank is naturally reduced and the fuel pressure of the fuel tank, which decreases after the engine is started, satisfies the predetermined fuel leak diagnosis condition after the engine stops, Receiving an access signal;

Counting after stopping the engine and terminating the counting when the fuel pressure switch connection signal is received after engine startup to derive the fuel pressure switch connection time; And

And a leakage occurrence determining step of determining the occurrence of leakage of the fuel tank based on the connection time of the fuel pressure switch.

Preferably, in the leakage occurrence determination step,

And when the fuel pressure switch connection time exceeds a predetermined value, it is determined that there is no fuel leakage.

Preferably,

Receiving outdoor air temperature after stopping the engine and receiving outdoor air temperature after engine startup to derive ambient air temperature change during engine stop;

When the fuel pressure switch connection time, the outside air temperature change amount during engine stop, and the activation of the oxygen sensor satisfy the predetermined fuel leak size determination condition, the purge valve is controlled to be opened by a predetermined reference value for a predetermined time period And a leakage size determination step of determining a fuel leakage size based on whether or not the fuel pressure switch is connected.

Preferably, the leak-

Wherein the connection time of the fuel pressure switch does not exceed the predetermined value and the amount of change in the ambient temperature is greater than a predetermined threshold range and the oxygen sensor is activated.

Preferably, the leakage size determination step includes:

When the leakage size determination condition is satisfied, the purge valve is controlled to open by a preset reference value for a predetermined time,

The fuel pressure of the fuel tank may decrease after the control of opening the purge valve by the reference value, so that the fuel leakage may be judged as a small fuel leak when the fuel pressure switch connection signal is received.

Preferably, the leakage size determination step includes:

When the fuel pressure switch connection signal after the purge valve opening control is not received, determines whether the predetermined time has elapsed,

If the predetermined time has elapsed as a result of the determination, it may be determined that the fuel leakage is large.

Preferably, in the leakage size determination step

And to determine that leakage diagnosis is not possible if the leakage size determination condition is not satisfied.

Technical Solution According to another aspect of the present invention,

A timer for starting counting after stopping the engine and terminating the counting upon receipt of the fuel pressure switch connection signal connected when the fuel pressure of the fuel tank which is lowered according to the outside air temperature reaches a predetermined pressure,

An outside air temperature sensor for receiving and storing the outside air temperature after the engine is stopped and the outside air temperature after starting the engine to derive and store the outside air temperature change during the engine stop,

And a diagnosis controller for determining whether fuel leakage has occurred based on the fuel pressure switch connection time of the timer.

Preferably, the diagnosis control unit includes:

And a fuel leakage occurrence determination module that determines that there is no fuel leakage when the fuel pressure switch connection time exceeds a predetermined determination reference value.

Preferably, the diagnosis control unit includes:

When the fuel leakage size diagnosis condition including at least one of the fuel pressure switch connection time of the timer, the outside air temperature change amount of the outside air temperature sensor, and the activation of the oxygen sensor is satisfied, A fuel leakage size determination module that determines a fuel leakage size based on whether or not the fuel pressure switch is connected and whether or not the predetermined time has elapsed.

As described above, in the method and apparatus for diagnosing fuel leakage of a vehicle according to an embodiment of the present invention, when the fuel pressure of the fuel tank decreases as the ambient temperature changes after the engine is stopped, If the fuel pressure switch connection time to be connected exceeds a predetermined reference value, it is determined that there is no fuel leakage. If the fuel pressure switch connection time does not exceed the reference value, the engine is stopped from the outside air temperature after the engine is stopped, And when the derived outside air temperature change amount exceeds a predetermined threshold range and the oxygen sensor is activated after the engine is started, the purge valve is controlled to open at a reference value for a predetermined time, and then the derived fuel pressure switch connection If a signal is received, it is determined that a small fuel leak has occurred and the derived fuel pressure When the switch connection time exceeds the predetermined threshold value, the fuel pressure of the fuel tank automatically forms a natural negative pressure according to the ambient temperature according to the determination of a large leakage, so that the fuel pressure leak diagnosis time of the fuel tank as a whole can be minimized I get the effect.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate preferred embodiments of the invention and, together with the description of the invention given below, serve to further understand the technical idea of the invention. And should not be construed as limiting.
1 is a diagram showing a configuration of an apparatus for diagnosing a fuel leak of a vehicle according to an embodiment of the present invention.
2 is a flowchart illustrating a fuel leak diagnosis process of a vehicle according to an embodiment of the present invention.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings. Like reference symbols in the drawings denote like elements.

1 is a view showing an apparatus for diagnosing a fuel leak of a vehicle according to an embodiment of the present invention. The fuel leakage diagnosis apparatus for a vehicle according to the embodiment of the present invention will be described by way of example only with reference to the fuel leak diagnosis apparatus shown in Fig.

The fuel leakage diagnosis apparatus for a vehicle to which the embodiment of the present invention is applied monitors the fuel pressure of the fuel tank in which the fuel pressure of the fuel tank 30 is reduced due to the temperature change of the outside air after the engine is stopped to form a natural negative pressure, The fuel tank 30, the fuel pressure switch 31, the timer 40, the outside air temperature sensor 40, and the air-fuel ratio sensor 40, A temperature sensor 50, an oxygen sensor 60, and a diagnosis control unit 70. [

Here, the fuel leakage diagnosis condition is set to a condition that the fuel leakage diagnosis related parts such as the communication line, the fuel pressure switch, the outside air temperature sensor, the timer, etc. are normal and the fuel level is not more than the predetermined allowable value (80%).

Here, the fuel leak diagnosis condition is a result value obtained through a number of experiments by the manufacturer, and is stored in advance in the diagnosis control unit 70 as a table value.

At this time, the outside air temperature sensor 50 receives the outside air temperature after the engine is stopped and the outside air temperature after starting the engine to derive the outside air temperature variation during the engine stop.

The timer 40 is provided to start counting after stopping the engine and to end the counting when the fuel pressure of the fuel tank reaches a predetermined pressure, thereby deriving the fuel pressure switch connection time.

The fuel pressure switch 31 is provided to automatically connect and generate a fuel pressure switch connection signal when the fuel pressure in the fuel tank 30, which is reduced when the engine is started, reaches a predetermined pressure. The fuel pressure switch connection signal generated at this time is provided to the diagnosis control unit 70.

On the other hand, the diagnosis control unit 70 is provided to include a leakage occurrence determination module for deriving a fuel leakage based on the connection time of the fuel pressure switch of the timer 40. [

That is, the diagnosis control unit 70 determines whether the connection time of the fuel pressure switch exceeds a predetermined reference value (usually 5 minutes). If the connection time of the fuel pressure switch exceeds the preset reference value, It is determined that there is no leakage.

Thereafter, the diagnosis control unit 70 determines whether the fuel pressure switch connection time of the timer 40, the change amount of the outside air temperature received from the outside air temperature sensor 50, and the leakage size determination condition, which is the activation of the oxygen sensor 70, , The purge valve 10 is controlled to be opened by a reference value (7-10%) for a predetermined time (10 seconds) to determine a small leak of 1 mm or less or a large leak of 2 mm or more based on the received fuel pressure switch connection signal And a leakage size determination module.

The leakage size determination condition is one or more of the ambient temperature change amount of the outside air temperature sensor 50 exceeding a predetermined threshold range (6-8 degrees Celsius) and the oxygen sensor 60 being activated.

In the embodiment of the present invention, the activation condition of the oxygen sensor 70 is described as an example of the leakage size determination condition. However, the leakage size determination can be performed under the stabilization condition of the engine. Large-scale or small-scale leakage may be determined by setting the reference value to 7% or less.

Here, it is assumed that the fuel pressure of the fuel tank is formed as a natural negative pressure when the ambient temperature change amount exceeds a predetermined threshold range. However, in addition to the ambient temperature change amount, the intake air temperature change, the internal temperature of the engine, And the fuel pressure of the fuel tank is formed as a natural negative pressure based on the evaporation gas temperature or the evaporation gas temperature modeling value change.

That is, when the fuel pressure switch connection signal is received, the leakage size determination module determines that the fuel pressure switch signal is a small-scale leakage of 1 mm or less. If the fuel pressure switch signal is not received, It is judged as leakage.

According to the embodiment of the present invention, when a natural negative pressure (atmospheric pressure) is formed in accordance with a change in outdoor air temperature after stopping the engine and the fuel pressure in the fuel tank decreases after starting the engine, And when the fuel pressure switch connection time does not exceed the determination reference value, the change in the outside air temperature during the engine stop is derived from the outside air temperature after the engine is stopped and the outside air temperature after the engine is started, When the detected outside air temperature change amount exceeds a predetermined threshold range and the oxygen sensor is activated after the engine is started, if the derived fuel pressure switch connection signal is received after controlling the purge valve to a reference value for a predetermined predetermined time, And the derived fuel pressure switch connection time is set to a predetermined threshold value If excessive, as determined on a large scale leak, since the fuel pressure of the fuel tank is automatically natural negative pressure formed according to the outside temperature it is possible to shorten the fuel pressure leakage diagnosis time of the whole tank to a minimum.

The fuel pressure of the fuel tank 30 is decreased due to the change of the ambient temperature after the engine is stopped and a natural negative pressure is formed and the fuel pressure of the fuel tank which decreases after the engine is started is monitored and fuel leakage and fuel leakage A series of steps for deriving the size will be described in more detail with reference to Fig.

FIG. 2 is a flowchart showing a fuel leakage diagnosis process by the fuel leakage diagnostic apparatus of the vehicle shown in FIG. 1, and the fuel leak diagnosis process of the vehicle according to the embodiment of the present invention will be described in detail as follows.

First, when the fuel leak diagnosis condition pre-set in step 101 is satisfied, the diagnostic control unit 70 reduces the fuel pressure of the fuel tank after the engine is stopped to form a natural negative pressure (step 103).

Then, the diagnosis control unit 70 receives and stores the outdoor air temperature supplied from the outdoor air temperature sensor 50 (step 105).

After that, the diagnosis control unit 70 determines whether the engine is started. When the engine is started, the diagnosis control unit 70 receives the ambient temperature and derives the ambient temperature variation and stores it (steps 107, 109, and 111).

On the other hand, the diagnosis control unit 70 starts counting the timer after stopping the engine, and when the fuel pressure that has decreased due to the engine startup reaches a predetermined pressure and the fuel pressure switch connection signal is generated and received from the fuel pressure switch, (Steps 113, 115 and 117).

Here, the timer 40 derives the fuel pressure switch connection time to the point of time when the fuel pressure switch 31 is connected after stopping the engine (step 119). At this time, the derived fuel pressure switch connection time is provided to the diagnosis control unit 70.

On the other hand, the diagnosis control unit 70 determines whether the received fuel pressure switch connection time exceeds a preset reference value (5 minutes). If the fuel pressure switch connection time exceeds the preset reference value, (Steps 121 and 123).

If it is determined in step 121 that the fuel pressure switch connection time does not exceed the preset reference value, the diagnosis control unit 70 determines that the outdoor air temperature change amount stored in step 125 is within the predetermined threshold range 6-8 (Step 127). If it is determined that the oxygen sensor 60 has been activated (step 127), the oxygen sensor 60 determines that the oxygen sensor 60 is activated When activated, the purge valve is controlled to be opened to a reference value (7-10%) for a predetermined time (10 seconds) (step 129).

When the fuel pressure switch connection signal supplied from the fuel pressure switch 31 is received in step 131, the diagnosis control unit 70 determines that the fuel pressure switch connection signal is a small leak of 1 mm or less (step 133) It is determined whether the predetermined time (10 seconds) has elapsed (step 135). If it is determined that the fuel pressure switch connection signal has not been received (step 135)

On the other hand, if it is determined in step 125 that the ambient temperature change amount does not exceed the critical range, the diagnosis control unit 70 determines that the leakage diagnosis size determination condition is not satisfied and determines that the leakage diagnosis determination is impossible. Step 139).

According to the embodiment of the present invention, when a natural negative pressure (atmospheric pressure) is formed in accordance with a change in outdoor air temperature after stopping the engine and the fuel pressure in the fuel tank decreases after starting the engine, And when the fuel pressure switch connection time does not exceed the determination reference value, the change in the outside air temperature during the engine stop is derived from the outside air temperature after the engine is stopped and the outside air temperature after the engine is started, When the detected outside air temperature change amount exceeds a predetermined threshold range and the oxygen sensor is activated after the engine is started, if the derived fuel pressure switch connection signal is received after controlling the purge valve to a reference value for a predetermined predetermined time, And the derived fuel pressure switch connection time is set to a predetermined threshold value If excessive, as determined on a large scale leak, since the fuel pressure of the fuel tank is automatically natural negative pressure formed according to the outside temperature it is possible to shorten the fuel pressure leakage diagnosis time of the whole tank to a minimum.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

When the fuel pressure of the fuel tank decreases as the outside air temperature changes after stopping the engine and the fuel pressure of the fuel tank decreases after starting the engine and reaches a predetermined pressure, it is determined that there is no fuel leakage if the connected fuel pressure switch connection time exceeds a preset reference value. When the fuel pressure switch connection time does not exceed the determination reference value, derives the ambient temperature change amount during stop of the engine from the ambient temperature after engine stop and the ambient temperature after the engine start, and if the derived ambient temperature change amount exceeds the predetermined threshold range, The fuel pressure switch connection time is determined as a small fuel leak when the derived fuel pressure switch connection signal is received after the purge valve is opened and controlled to a reference value for a predetermined period of time in the case of activation of the downstream oxygen sensor, , It is determined that the air leakage is large, The fuel pressure of the fuel tank automatically forms a negative pressure, so that it is possible to minimize the fuel leak diagnosis time of the fuel tank as a whole and to improve the accuracy and reliability of operation of the fuel leak diagnosis apparatus and method of the vehicle, It is possible to make a very great advance in efficiency and it is an invention that is industrially applicable since it is possible to carry out the application of the vehicle or the operation of the vehicle to be applied,

Claims (10)

Receiving a fuel pressure switch connection signal when a fuel pressure of a fuel tank that satisfies a predetermined fuel leak diagnosis condition and a natural negative pressure is generated after engine stoppage and the fuel pressure decreases after engine startup reaches a predetermined predetermined pressure;
Counting after stopping the engine and ending counting at the time when a fuel pressure switch connection signal is received after engine startup, thereby deriving fuel pressure switch connection time;
Receiving outdoor air temperature after the engine is stopped, receiving outdoor air temperature after engine startup, and deriving an ambient air temperature variation during engine stoppage;
A leakage occurrence determination step of determining whether or not leakage of the fuel tank has occurred based on the fuel pressure switch connection time; And
Wherein the control unit determines whether or not the predetermined fuel leak size determination condition is satisfied based on the fuel pressure switch connection time, the ambient temperature change amount during engine stop, and the activation of the oxygen sensor, And a leakage size determining step of determining the fuel leakage size based on whether or not the purge valve is open and whether or not the fuel pressure switch is connected and whether or not a predetermined time has elapsed for a predetermined period of time, Leakage diagnostic method. 2. The method according to claim 1,
And when the fuel pressure switch connection time exceeds a predetermined value, determining that there is no fuel leakage. delete The leak-size determination method according to claim 1,
Wherein the connection time of the fuel pressure switch does not exceed a preset predetermined value and the amount of change in the outside air temperature is greater than a predetermined threshold range and the oxygen sensor is activated. The method according to claim 1,
Wherein when the fuel pressure of the fuel tank decreases after the control of opening the purge valve at the preset reference value and the fuel pressure switch connection signal is received, it is determined that the fuel leakage is small. The method according to claim 1,
When the fuel pressure switch connection signal after the purge valve opening control is not received, determines whether the preset predetermined time has elapsed,
And when the predetermined time has elapsed as a result of the determination, it is determined that the fuel leak is a large-scale fuel leak. The method according to claim 1,
And when it is determined that the leakage size determination condition is not satisfied, it is determined that leakage diagnosis is not possible. A timer for starting counting after stopping the engine and terminating the counting when the fuel pressure of the fuel tank which is lowered according to the outside air temperature reaches a predetermined pressure and receiving the fuel pressure switch connection signal,
An outside air temperature sensor for receiving outside air temperature after engine stop and outside air temperature after engine starting to derive an outside air temperature change amount during engine stop,
A diagnosis control unit for determining whether fuel leakage has occurred based on the fuel pressure switch connection time;
When the fuel leak amount detection condition including at least one of the fuel pressure switch connection time, the ambient temperature change amount, and the activation of the oxygen sensor is satisfied, the purge valve is opened and controlled to a predetermined reference value for a predetermined predetermined time, And a fuel leakage size determination module that determines a fuel leakage size based on whether or not the pressure switch is connected and whether or not a predetermined time has elapsed. The system according to claim 8,
And determining that there is no fuel leakage when the fuel pressure switch connection time exceeds a preset predetermined value.
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