EP1269005B1 - Method and device for conducting a leakage test of a tank system of a vehicle - Google Patents

Description

State of the art

The invention relates to a method and a device for leak testing of a tank system according to the preambles of the independent claims 1 and 4.

Methods and devices for leak testing of tank systems have long been known in different embodiments. In most cases, an overpressure or underpressure is introduced into the shut-off tank system and, due to the resulting pressure gradient, is closed to a dense or leaking tank system. Such methods are disclosed, for example, in DE 196 36 431 A1.

From EP-A-0 952 332 a method and a device for the determination of leaks in the fuel supply system of a motor vehicle is known, in which the leak diagnosis is carried out by an analysis of a signal of a differential pressure sensor. Through this analysis, influencing factors such as the tank level and the fuel outgassing can be taken into account.

WO99 / 37905 discloses a leak detection method based on a volume of a sealed room containing a volatile liquid fuel. In this method, the temperature of the fuel vapor in the air space of the tank is detected by means of a temperature sensor and this measure taken into account in determining whether there is a leak in the tank. Initial and final parameters are measured at different times (start and end times) and these quantities are processed on the basis of a gas law and from this conclusions are drawn for the presence of a leak.

At the SAE Toptech Conference, Indianapolis 1999, a process called "Natural Vacuum Leakage Detection (NVLD)" was introduced, in which the tank is shut off by a shut-off device for a predetermined period after the vehicle has been parked. A dense tank creates a negative pressure. In this method, a vacuum switch is provided, which changes its switching state above a certain threshold. This switching state is detected. If no switching operation is detected within a specified period of time, is closed to the presence of a leak. The idea of this method is to take advantage of the normally set when parking the vehicle and shutting off the tank negative pressure to check the tightness of the tank system. It is assumed that the negative pressure is created by cooling the tank.

The problem here is that operating conditions exist in which does not occur in the shutdown the expected cooling of the tank, but even a warming occurs. An example of this is driving in cold winter conditions and then parking the vehicle in a warm garage.

Furthermore, such a method does not take into account different types of fuel which, especially at summer ambient temperatures, have a vapor pressure which is above ambient pressure, due to the fact that volatile components of the fuel boil in the tank. By this boiling process, no negative pressure can build up even when cooling the tank, but on the contrary even creates an overpressure.

While you can still eliminate the above-mentioned temperature dependence of the pressure prevailing in the tank by detecting the ambient temperature and thus avoid misdiagnosis, it is practically impossible without further sensor, the boiling behavior of the fuel used in any To capture and take into account in the diagnosis.

The invention is therefore based on the problem of eliminating the disadvantages mentioned above and to provide a method and apparatus for leak testing of a tank system, on the one hand regardless of the ambient temperature, on the other hand, regardless of the type of fuel in the tank reliable detection of a leak technically easy to implement manner allows.

Advantages of the invention

This problem is solved by a method for leak testing a tank system of a vehicle having the features of claim 1 and by an apparatus having the features of claim 4.

The advantage of the method according to the invention for leak testing a tank system of a vehicle is that it is possible to reliably detect a leak by detecting the pressure profile in the shut-off tank by means of a pressure sensor, regardless of whether a pressure builds up in the tank. The advantage of detecting the pressure by means of a pressure sensor is, in particular, also that both overpressures and negative pressures can be detected by the pressure sensor, so that both due to a self-adjusting or non-adjusting negative pressure as well as due to a self-adjusting or non-adjusting Overpressure on leaks can be closed. The overpressure threshold value and the negative pressure threshold value are determined as a function of parameters characterizing the environmental influences, such as, for example, the ambient temperature or the tank level. This makes it possible to significantly increase the accuracy of the leak test.

In principle, it would be possible to detect, for example, the temporal gradient of the pressure curve with a pressure sensor and, due to this gradient, to conclude that there is a leak in the tank.

A particularly advantageous embodiment, which dispenses with such a gradient measurement, envisages closing on a dense tank system when the pressure arising in the tank system, after a predetermined waiting time has elapsed, either passes through a predefinable vacuum threshold value or a predefinable overpressure threshold value. In both cases, it can be concluded that there is a dense tank system, since an overpressure or underpressure would occur in the presence of a leak.

Particularly advantageous is that the method is not limited to the detection of a negative pressure, as is the case with the above-mentioned NVLD method. Rather, even in the case of environmental influences in which an overpressure arises in the tank, by means of the method according to the invention by the use the pressure sensor can be reliably closed to a leak.

The processing of the pressure sensor signal in a controller or circuit unit allows comparison with variable thresholds stored in the controller.

Advantageously, it is provided that it closes on a leaking system only when within a predetermined period of time with repeated execution of the method described above, neither the vacuum threshold nor the overpressure threshold is passed.

In a device according to the invention for leak testing a tank system of a vehicle, a controllable shut-off means for sealing the tank system is provided, also a pressure sensor for detecting the pressure prevailing in the tank system pressure and a control device both for controlling the shut-off and for processing the pressure sensor signals.

The advantage of this device is its simple structure, it can for example be provided very easily in existing tank systems subsequently, since a control device is present in virtually all modern vehicles. It must therefore be provided only a pressure sensor in the tank system and a shut-off.

In vehicles with tank ventilation systems, the function of the shut-off device can advantageously be taken over by the tank ventilation valve.

In order to realize the aforementioned increase in accuracy by detecting environmental influences, sensors for detecting the environmental influences, in particular sensors for detecting the ambient temperature and a sensor for detecting the tank level can be provided, the signals of which can be processed in the control unit.

drawing

Further advantages and features of the invention are the subject of the following description and the drawings of an embodiment.

Fig. 1

ein Tanksystem eines Fahrzeugs, bei dem das erfindungsgemäße Verfahren zum Einsatz kommen kann und

Fig. 2

schematisch ein Ablaufdiagramm des erfindungsgemäßen Verfahrens.

In the drawing show:

Fig. 1

a tank system of a vehicle, in which the inventive method can be used and

Fig. 2

schematically a flowchart of the method according to the invention.

Description of the embodiments

An embodiment of a tank system of a vehicle, shown schematically in Fig. 1, comprises a tank 1 and an adsorption filter 2. The tank 1 is over a tank connection line 5 is connected to the adsorption filter 2. The adsorption filter 2 is connected to a further line 6 with an internal combustion engine 3. In line 6, a shut-off means in the form of a tank vent valve 7 is arranged, which can be controlled by a circuit unit 4. In the tank 1, a pressure sensor 8 is further arranged, the output signals are also supplied to the circuit unit 4. The circuit unit 4 also sends and receives signals to / from the internal combustion engine in a manner known per se. An error lamp 10 is used to display diagnostic results.

By evaporation arise in the tank 1 hydrocarbons, which accumulate in the adsorption filter 2. For regeneration of the adsorption filter 2, the tank venting valve 7 is opened, so that due to the pressure prevailing in the suction pipe 6 air of the atmosphere is sucked through a connected to the atmosphere line 9 via a filter 9a through the adsorption filter 2, whereby the accumulated in the adsorption filter 2 Hydrocarbons enter the intake manifold 40 and the internal combustion engine 3 are supplied. In this case, a 9b arranged in the line, can be controlled by the circuit unit 4 valve 9b is connected in the open position. Furthermore, a sensor 8a for detecting the tank level and a sensor 8b for detecting the ambient temperature may be provided, the signals of which are supplied to the circuit unit 4.

A method for leak testing of such a tank system will be explained in connection with the flowchart shown in the figure below.

First, in a step 10, it is checked whether the vehicle is turned off, i. the engine 3 is turned off and the vehicle is stationary (step 10). If this is the case, the tank venting valve 7 is closed in step 20, with which the tank can be sealed against the environment. It is understood that in this case, the line 9 is sealed by the controllable valve 9b.

Then, in step 30, the pressure in the tank system is detected by means of the pressure sensor 8. The pressure is compared with a predetermined negative pressure threshold. If this vacuum threshold is undershot, i. If a negative pressure builds up in the tank 1 which is greater than this negative pressure threshold value, a message "tank tight" (step 41) is output and / or stored. If this is not the case, it is checked in step 50 whether the pressure exceeds a predetermined overpressure threshold, i. whether an overpressure builds up in the tank 1. If this is the case, in turn, in a step 51, a message "tank tight" is output and optionally stored.

If this is not the case, it is checked whether the waiting time has exceeded a predetermined time threshold (steps 60 and 62). Is not this the Case, the pressure is still detected and compared in the manner described above with the vacuum or overpressure threshold. On the other hand, if the waiting time exceeds a predetermined time threshold value, a leak could be present and an error entry "leak" in a memory, for example of the control device 4, is made in step 70 (step 70). Then, in step 80, it is checked whether at least one new measurement has taken place within a predetermined period of time, which is preferably in the weekly range. If this is not the case, a new measurement is made at a later time, if this is the case and this measurement has led to a defect entry "leak", in a step 90, a leak message is output and finally stored in the memory and / or the fault lamp 10 is activated.

These method steps are carried out, for example, in the form of programs, circuits or the like by the electronic control unit 4, which not only controls the tank venting valve 7 and the shut-off valve 9b as a function of the operating state of the internal combustion engine, but also evaluates the measurement results and optionally activates a fault lamp 10.

The negative pressure threshold and the overpressure threshold may be dependent on the course of parameters, such as the ambient temperature, which is detected by the temperature sensor 86 on the vehicle, or the Tank level, which is detected by a tank level sensor (not shown) can be selected. This makes it possible to achieve an increase in the accuracy of the above-described leak test.

Claims (5)

1. Method for conducting a leakage test of a tank system of a vehicle, in which, after the vehicle is switched off, a tank (1) is blocked by means of a blocking means (7), the pressure rising in the tank system is then detected by a pressure sensor, and in which it is concluded that the tank system is leakproof if, after a specified waiting time has elapsed, the pressure produced in the tank system either passes a specifiable negative pressure threshold value or a specifiable positive pressure threshold value, characterized in that the ambient temperature is measured and in that the negative pressure threshold value and the positive pressure threshold value are varied as a function of the ambient temperature.
2. Method according to Claim 1, characterized in that it is concluded that a system is not leakproof if, within a specified period of time with repeated carrying out of the method according to Claim 1, neither the negative pressure threshold value nor the positive pressure threshold value is passed.
3. Method according to Claim 1 or 2, characterized in that the tank system is closed in a leakproof manner by means of an activatable tank-venting valve (7).
4. Device for conducting a leakage test of a tank system, comprising an activatable blocking means (7) for closing the tank system in a leakproof manner, a pressure sensor (8) for detecting the pressure prevailing in the tank system, and a control device (4) for activating the blocking means (7) and for processing the pressure sensor signals according to the method as in Claim 1, characterized in that a sensor (8a) for detecting the ambient temperature and a sensor (8b) for detecting the filling state of the tank are provided, the signals of which can be processed in the control device (4).
5. Device according to Claim 4, characterized in that the activatable blocking means is a tank-venting valve (7).

Images