ES2270548T3 - PROCEDURE FOR THE DETERMINATION OF LEAKS IN THE FUEL FEEDING SYSTEM. - Google Patents

Abstract

THE INVENTION REFERS TO A PROCEDURE AND A DEVICE FOR THE DETERMINATION OF LEAKS IN THE FUEL SUPPLY SYSTEM OF A CAR, SPECIALLY CHARACTERIZED IN SUCH A WAY, WHICH HAS PLACED A DIAGNOSIS OF LEAKS WITH THE STOPPED ENGINE.

Description

Procedure for the determination of leaks in the fuel supply system of a car.

The invention relates to a method for the determination of leaks in the feeding system of fuel of a car according to the preamble of claim one.

Document DE19502776C1 describes a procedure to check tank purge systems for leaking Legislation currently prescribes recognition automatically leaking 1 mm in diameter and in the future they will have to be able to diagnose even minor leaks (0.5 mm).

A known procedure mode for the leak recognition consists of under pressure (overpressure or depression) the fuel feed system and observe How pressure relationships change. In case there are large lack of tightness you can verify a rapid adaptation of the system pressure at atmospheric pressure. From analysis of the temporal variation of the differential pressure is possible, therefore, to draw conclusions from the dimensions of the leakage. At the same time the influences that impact on the pressure in the feeding system of fuel. These can be fuel evaporations, movements in the tank, oscillations of the walls of the tank, fuel extraction processes, variations of temperature, etc., so that the diagnostic results reflect actual leakage relationships only at very cost high.

Document DE4132055A1 describes a procedure for the recognition of leaks relatively more small, also forming here a depression. For this invention it is essential that the procedure be interrupted and the system as not suitable for operation, if values of the farm dimensions, which are measurable for the first time during the procedure, they show that the procedure cannot Issue any reliable information.

Document EP0589176A2 discloses a procedure for checking tightness, which takes place after disconnecting an internal combustion engine with purge valve of the closed tank, with which an influence of the engine is excluded Internal combustion For the generation of depression is planned an independent pump, which demands high costs.

Of the details for the improvement of the quality of leak diagnosis, deal with, for example, the document DE19502776C1 and DE4108856C2.

It is the objective of the invention to create a procedure for determining leaks in the system auto fuel feed, which emits results from accurate diagnosis with comparatively simple means, which falsify by the smallest possible influence factors.

To solve this objective, the diagnosis of leakage with the method according to the invention is performed after disconnect the engine from the vehicle. Then they no longer occur oscillations, the fluid stabilizes in the tank and also does not no fuel extraction takes place. Therefore, with the leak diagnosis very basic error sources are eliminated and It is also possible to recognize very fine leaks. Other essential advantage is that a clearly longer measurement time is useful long versus known procedures.

Leakage diagnosis is possible with a mode of procedure in the manner indicated in claim 1. The details of the procedure result from claims 2 and 3.

As it is known, the feeding system of car fuel is made up of at least one tank, an adsorption vessel with activated carbon filter, a valve tank purge (regeneration valve in a conduit to engine), a fuel pump as well as pipes fuel and purge. In the normal case there is also a valve to close a connection between absorption vessel and environment. If this valve and the tank purge valve are closed, the power supply system can be considered fuel is tightly closed, assuming there are no leaks

The leak diagnosis procedure is controlled by a diagnostic unit (control unit electronic, which can also perform other functions), feeding the diagnostic unit characteristic values of the engine, in particular, the engine speed. Too can be transmitted to the diagnostic unit additionally characteristic values of the vehicle (driving speed). These Characteristic values are evaluated by the diagnostic unit to recognize engine shutdown conditions as well as engine stop conditions. Just before disconnecting the engine typically characteristic values are produced completely determined. The engine works, for example, with number of idle revolutions and running speed is equal to zero or less than a predetermined threshold value. The purge valve deposit is directed and opened by the diagnostic unit at recognize these engine shutdown conditions. also can be efficient under certain conditions provide for a valve independent closure in purge conduction (conduction in which is the tank purge valve) and open it in engine shutdown conditions. Finally it is also possible steer this shut-off valve fundamentally so synchronized In addition, by recognizing the disconnection conditions of the engine, the valve closes in the conduction between container absorption and environment. With these measures it is ensured that a depression from the engine suction section in the fuel feed system. If you then When the engine is switched off, the tank drain valve is closed. From otherwise, when traction is absorbed again, it is returned to direct the tank purge valve in the usual manner and the valve opens to the environment. The engine shutdown condition (for example, engine speed equal to zero) is also recognized by the diagnostic unit. Therefore, it guarantees that when the engine is switched off there is a depression in the fuel feed system.

Depression is recorded by a sensor differential pressure known to itself and transmitted to the unit Diagnostic It results from the difference in pressure in the reservoir and atmospheric pressure. When there are leaks in the system of fuel supply, through these air is introduced in the fuel supply system that is under depression. From the analysis of the differential pressure cycle Temporary conclusions are possible on the dimensions of the leak. In this regard, factors such as known factors must be taken into account. of influence such as the filling level of the tank and the gas evolution from the fuel, although there are no other essential negative influences (fuel extraction, oscillations, ...) and there is sufficient measurement time. Can be expect rapid deformations of the deposit after formation of depression, before the diagnosis of leakage. Therefore, a diagnostic result can be achieved very accurate It is also particularly advantageous that it is not no independent pump is necessary for the generation of the initial differential pressure of the diagnosis.

The diagnostic result recorded by the diagnostic unit is stored in an electronic memory and it You can check from there. If leaks were diagnosed dimensions larger than those allowed, signals are emitted from warning to the driver of the vehicle when starting once more to run the engine This should be a sign for him Find a workshop.

After storing the result of diagnosis, the closed valve can be opened again until then to the environment and the diagnostic device can be connected Completely inactive.

The device necessary for the realization of The method according to the invention is characterized in that its components mentioned above can also be fed and drive with electric voltage in case of motor disconnection. By Therefore, leak diagnosis can take place with the advantages mentioned after disconnecting the motor. It is not necessary to detailed description of the device based on an example of realization, since its components correspond essentially to the of the state of the art. However, these components are appropriate here to get the diagnostic results with engine stop, no independent pump being necessary for the generation of depression.

Claims (3)

1. Procedure for determining leaks in the fuel supply system of a car comprising at least one fuel tank, an adsorption vessel, a tank purge valve, a fuel pump and fuel lines as well as purge and deaeration, in which the course of a differential pressure is recorded, which results from the pressure difference in the fuel supply system and the atmospheric pressure, and in which the leakage dimensions are deduced from the dimensions of the differential pressure variation, characterized by the following procedural steps:

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         recognition of engine shutdown conditions by evaluation of engine operating parameters,

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         opening of the tank purge valve or a valve independent closure to be disposed in the purge line and closing a valve in a conduit between container absorption and environment according to engine disconnection conditions recognized,

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         recognition of engine stop conditions by evaluation of engine operating parameters,

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         closure of the tank purge valve or the valve closure arranged independently in the purge line after recognized engine stop condition,

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         evaluation of differential pressure variations and conclusion from them on the dimensions of leaks with stop of the engine,

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         Storage of diagnostic results.

2. Method according to claim 1, characterized in that a warning signal is emitted based on the stored diagnostic result at the subsequent start of engine operation, if a leak that exceeds a threshold value has been recognized. 3. Method according to claim 1 or 2, characterized in that the valve in the conduit opens between the absorption tank and the environment after storing the diagnostic result.