WO2017182180A1 - Device and method for changing a pressure in a fuel tank - Google Patents

Abstract

A device for changing a pressure in a fuel tank (7), comprising: an expansion tank (2) which is designed to bring about a change in pressure in the fuel tank (7) by a change in the volume in the expansion tank (2); a connecting line (3) which connects the expansion tank (2) to a fuel pump (6); and a hydraulic cylinder (20) which can be inserted and withdrawn and by means of which the change in volume in the expansion tank (2) can be brought about.

Description

 Description title

 Device and method for changing a pressure in one

Fuel tank

State of the art

The present invention relates to an apparatus and a method for changing a pressure in a fuel tank and in particular for

Checking a fuel tank for a leak. Furthermore, the present invention relates to an apparatus and a method for determining a level of a fuel tank. For environmental reasons it is necessary to have a leak in one

 Fuel tank is detected as soon as possible. It is known that an external air pump, which is operated by means of an electric motor, promotes air in the fuel tank, there to achieve a pressure increase. If the pressure does not rise to the expected extent, there is a leak in the fuel tank. This system has proven itself in principle, but it is necessary, an external air pump with drive to increase the pressure in

Provide fuel tank. Furthermore, it is especially at

Fuel tanks of vehicles necessary to provide a tank level indicator. These are usually used by floats in the

Fuel tank realized. An alternative solution is from DE 10 2009

027 738 A1, in which a monitoring of a fuel level by means of a tank capacitor suggests that has two spaced apart and extending over the maximum level height of the fuel tank condenser electrodes. Thus, the prior art uses two separate systems to determine a leak and a level in a fuel tank.

Disclosure of the invention

The inventive device for changing a pressure in a fuel tank with the features of claim 1, in contrast, the Advantage on that no separate device, such. As a driven by an electric motor air pump or the like, is necessary to change a pressure in the fuel tank. The device according to the invention is very simple and also uses partly already existing in the fuel tank devices, which can be used in particular for leak detection with. This is inventively achieved in that the device comprises an expansion tank, which is set by a change in volume of the container volume, a pressure change in

To effect fuel tank. It should be noted that under one

Expansion tank is understood a container which can both increase its volume as well as downsize. Furthermore, the device comprises a connecting line, which connects the expansion tank with a fuel pump. The fuel pump is present on or in the fuel tank anyway and according to the invention for changing the volume of

Expansion tank used. Furthermore, the device comprises an extendable and retractable hydraulic cylinder, by means of which the

Volume change of the expansion tank is effected. This allows a very robust and maintenance-free operation. Thus, by means of an existing fuel pump, a pressure in a fuel tank can be changed and used for a variety of functions.

The dependent claims show preferred developments of the invention.

Preferably, the expansion tank is formed such that the volume of the expansion tank by the introduced fuel to a

increases predetermined differential volume, wherein the difference volume is greater than the volume of the introduced fuel. In other words, the device comprises a hydraulic translator, which with a low

Fuel quantity has a large displacement.

More preferably, the expansion tank comprises a housing which can change a housing volume and surrounds the hydraulic cylinder. The housing comprises a first and a second housing part, which are sealed by means of a flexible element, for example a diaphragm or a bellows, or an O-ring. Preferably, the expansion tank is arranged in the fuel tank. As a result, a space-saving construction is achieved. Alternatively, the

Expansion tank arranged outside the fuel tank. As a result, a large filling volume of the fuel tank can be maintained.

The device further preferably comprises a shut-off valve, which is arranged in the connecting line from the fuel pump to the expansion tank. Alternatively, the invention comprises a throttle device, which in the connecting line between the fuel pump and the

Expansion tank is arranged. The shut-off valve or the

Throttle device allow during operation in a fuel delivery a rapid pressure build-up in the fuel system, since the connection to the expansion tank can be shut off by means of the check valve or limited by the throttle device in the pressure build-up.

More preferably, the device comprises a return element, which resets the expansion tank in an initial position. The

Return element is particularly preferably a spring, which is preferably arranged in the expansion tank.

Furthermore, the device preferably comprises a fuel pump.

More preferably, the device is configured to determine a leak in the fuel tank. For this purpose, the device preferably comprises a pressure sensor for determining a pressure in the fuel tank and a control unit. The control unit is configured to compare a first pressure value with a second pressure value, wherein the first pressure value is determined when the fuel pump is not operating and the second pressure value is determined after a predetermined period of time during which the fuel pump has been operated. The control unit is further configured to determine a difference value between the second and the first pressure value and, if the difference value deviates from a predetermined threshold value, to determine a leakage.

More preferably, the control unit is configured to compare a first pressure value with a second pressure value and the second pressure value with a compare third pressure value. Here, a comparison of the first pressure value with the second pressure value for a gross leak detection is usable and a comparison of the second pressure value with the third pressure value for a

Fine leak detection can be used. Here are preferred as well

Difference values between the pressure values determined. At the second comparison to

Fine leak detection can in particular also be concluded from an absolute value of the difference value between the second and the third pressure value to an actual size of the leak. Preferably, the expansion tank is arranged by a

 Volume increase to cause a pressure increase in the fuel tank when there is no leak in the fuel tank. The control unit calculates a difference value between the second and the first pressure value, wherein a leak is detected when falling below a predetermined threshold value. Namely, if a leak in the fuel tank is present, no or only a slight increase in pressure in the fuel tank will be due to an increase in volume of the expansion tank, as the gases contained in the fuel tank and / or fuel leak through the leak. More preferably, the device comprises a pressure sensor for determining pressure values in the fuel tank and a control unit. The control unit is set up to compare a first pressure value with a second pressure value, wherein the first pressure value is determined when the fuel pump is not operated and the second pressure value is determined after a predetermined time has elapsed

Period of time during which the fuel pump was operated, is determined.

The control unit is further configured to determine a difference value between the second pressure value and the first pressure value and to compare the difference value with a stored reference value. Each reference value is assigned a level of the fuel tank, so that the level of the fuel tank can be determined in dependence on the difference value. Thereby, by means of the device in addition to the determination of a leak in

Fuel tank also a level can be determined.

Particularly preferably, the control unit is designed such that first a check for a leak is performed and then a level is determined. In this embodiment can thus with a single Device two functions are carried out in the fuel tank area. As a result, large cost savings, especially for vehicles, can be realized.

The housing preferably has a connecting line to the atmosphere. As a result, a safe operation of the expansion tank can be achieved and a large depending on a size of the surrounding housing

Volume change can be achieved in the fuel tank.

Further preferably, the expansion tank comprises a stop which limits a volume change of the tank volume. Particularly preferably, the stop has a first and a second position, wherein in the first

Position a minimum volume of the expansion tank is present and in a second position, a maximum volume of the expansion tank is present.

Furthermore, the present invention relates to a method for checking a fuel tank for a leak. The method comprises the steps of determining a first pressure value in the fuel tank, operating a fuel pump to change a volume of an expansion tank in the fuel tank, thereby changing a pressure in the fuel tank when there is no leak in the fuel tank, and determining a second pressure value in the fuel tank Fuel tank after a predetermined period of time in which the fuel pump has been operated. Subsequently, the first and the second pressure value are compared, in particular by means of a determination of a difference value, wherein in a case in which the first pressure value is equal to or substantially equal to the second pressure value, the difference value is zero or tends towards zero, which points to Leak in the fuel tank indicates. When a difference value between the first and second pressure values is a

predetermined threshold is exceeded or falls short, can be closed to a sealed fuel tank. Here, depending on whether the expansion tank increases or decreases a volume during operation of the fuel pump, an overpressure or a negative pressure in the fuel tank occur. Fuel is particularly preferably pumped by means of the fuel pump in the expansion tank to increase a volume of the expansion tank. If there is no leak in the fuel tank, a pressure in the fuel tank increases, whereby the pressure increase can then be detected.

The method according to the invention is particularly preferably carried out at each start or at each stop of an internal combustion engine. Furthermore, the present invention relates to a method for determining a

Level of a fuel tank. The method comprises the steps of determining a first pressure value in the fuel tank, operating a fuel pump to change a volume of one with the

Fuel tank in operatively connected expansion tank, whereby a pressure in the fuel tank changes when no leak in the fuel tank is present and determining a second pressure value in the fuel tank after a predetermined period of time, during which

Fuel pump was operated. In a next step, a difference value between the second and first pressure value can then be determined and the difference value compared with a stored reference value.

Each reference value is assigned a certain fill level of the fuel tank. Thus, the level can be determined and a

Output device are output. Thereby, a level of a fuel tank can be easily determined by using an expansion tank, so that a float or the like for

 Determination of the level can be dispensed with.

The method for determining a filling level in the fuel tank is particularly preferably carried out after carrying out the method for checking a fuel tank for a leak. This is therefore possible because of

Execution of the two methods according to the invention in each case the same facilities can be used and the control unit performs different verification routines.

The devices and methods of the invention are particularly preferably used in fuel tanks of vehicles. Brief description of the drawings

Hereinafter, preferred embodiments of the invention will be described in detail with reference to the accompanying drawings. Identical or functionally identical parts are each denoted by the same reference numerals. In the drawing is:

Figure 1 is a schematic representation of an apparatus for

 Checking a fuel tank for a leak and determining a level of the fuel tank

Figure 2 is a schematic representation of an expansion tank of

 FIG. 1,

Figure 3 is a schematic representation of an apparatus for

 Checking a fuel tank for a leak and for determining a filling level of the fuel tank according to a second embodiment of the invention,

Figure 4 is a schematic representation of an apparatus for

 Checking a fuel tank for a leak and for determining a level of the fuel tank according to a third embodiment of the invention and

Figure 5 is a schematic representation of an apparatus for

 Checking a fuel tank for a leak and for determining a filling level of the fuel tank according to a fourth embodiment of the invention.

Preferred embodiments of the invention

Hereinafter, with reference to Figures 1 and 2, a device 1 for pressure change and in particular for checking a

Fuel tank 7 to a leak and for determining a level of the fuel tank 7 described in detail. As can be seen from FIG. 1, the device 1 comprises an expansion tank 2, which is arranged in the fuel tank 7. in the

Fuel tank 7, liquid fuel 70 and a gas-filled area 71 is provided. The expansion tank 2 can be seen in detail from FIG.

As can be seen from FIG. 2, the expansion tank 2 comprises an extendable and retractable hydraulic cylinder 20, which in the

Expansion cylinder 2 is arranged and opposite the expansion tank 2 is completed. The expansion tank 2 comprises a housing with a first housing part 21 and a second housing part 22, which are connected to one another via a flexible element 28. This allows the

Expansion tank 2 make a volume change.

The flexible element 28 is for example a bellows or a flexible

Membrane.

The expansion tank 2 further comprises a return element 23 which returns the expansion tank 2 to an initial position. Furthermore, a stop arrangement 24 is provided, which is arranged in this embodiment in the interior of the expansion tank 2. The stop assembly 24 comprises a C-shaped piston, which abuts at two extreme positions on a retracted stop 25 and on an extended stop 26.

The device 1 further comprises, in addition to the expansion tank 2 a

Connecting line 3, which is a connection between the

Expansion tank 2 and a fuel line 8 produces. The fuel line 8 is a line into which a fuel pump 6 fuel from the

Fuel tank 7 promotes to an internal combustion engine, not shown.

The reference numeral 72 denotes a tank lid, via which the

Fuel tank 7 can be filled.

From the expansion tank 2 is also a vent line 12 from to allow a change in volume of the expansion tank 2. The gas-filled region 71 is connected via a line 74 with an activated carbon filter 5. On the activated carbon filter 5, a pressure sensor 4 for determining a pressure in the fuel tank 7 is further provided. From the activated carbon filter 5 is another line 75 to a suction pipe, wherein in the line 75 a

Tank vent valve 14 is provided for releasing and closing the conduit 75. A third line 76 continuing from the activated carbon filter 5 can be opened and closed by means of a changeover valve 13.

Furthermore, the device 1 comprises a control unit 10, which is connected to the pressure sensor 4 and the fuel pump 6. The control unit 10 is further connected to an output device 1 1, for example, a display device in a vehicle. The control unit 10 also controls this

Tank vent valve 14 and the switching valve 13 on. The function of the device according to the invention is as follows. If it is to be checked whether there is a leak, first all accesses and outlets to and from the fuel tank 7 are closed. It should be noted that usually arranged in the lines valves and / or the

Tank cap 72 are in the closed position, so that not necessarily a control of the valves or the like is necessary. Possibly. the position of individual valves and / or the gas cap or the like can be detected by means of sensors and output to the control unit 10.

Before the control unit 10 operates the fuel pump 6, a first pressure value in the fuel tank 7 is determined. Subsequently, the

 Fuel pump 6 is driven so that it promotes fuel in the fuel line 8. Since the check valve 9 is closed, the fuel is conveyed via the connecting line 3 to the expansion tank 2. As can be seen from FIG. 2, the connecting line 3 opens into the hydraulic cylinder 20. As a result, more and more fuel is conveyed into the hydraulic cylinder 20, so that the hydraulic cylinder 20 moves in the direction of the arrow A (see FIG. Since the hydraulic cylinder 20 bears against the inner wall of the second housing part 22, the second housing part 22 is moved relative to the first housing part 21, which is fixedly fixed to the connecting line 3. This increases an internal volume 29 of the expansion tank 2. Here is the

Expansion tank 2 formed such that the inner volume 29 of the Expansion tank 2 increased by the introduced fuel by a predetermined difference volume, which is greater than the volume of the introduced fuel. Due to the expansion of the expansion tank 2, gas in the gaseous region 71 of the fuel tank 7 is compressed, so that a pressure increase takes place in the fuel tank 7. After a predetermined

Time span, z. B. 30 seconds, the pressure sensor 4 measures a second

Pressure value.

The control unit 10 has thus received the first and the second pressure value. The control unit 10 is now set up to carry out a comparison of the first and second pressure values with one another. In this case, a difference value between the second and first pressure value is preferably determined, and when the difference value deviates from a predetermined threshold value, it is determined that a leakage is present. If, for example, a volume increase of the expansion tank 2 a determined

 Pressure difference is below the threshold, a leak in the fuel tank 7 is present, so that a leak of the fuel tank can be detected. For example, if the pressure difference between the first and second pressure values were zero or near zero, it is likely that there is a very large leak.

If there is no leak, there will be a pressure increase depending on the time interval between the two measurements and above

Threshold for a leak, so that it can be detected that the fuel tank 7 has no leak.

In carrying out the method for checking the fuel tank for a leak, the obtained first and second pressure values can also be used to determine a fill level of the fuel tank 7. In this case, the control unit 10 is additionally set up to compare the determined difference value between the second and first pressure value with a stored reference value. Here, a plurality of reference values are stored in a memory of the control unit. Here, each reference value corresponds to a predetermined level. The

Reference values can be determined, for example, in the laboratory and then stored accordingly in the control unit 10. So everyone is Reference value assigned to a level of the fuel tank 7, so that in dependence on the difference value and a level determination of the fuel tank can be made. The level can

For example, at an output device, such as a fuel gauge or the like, are output. It should be noted that the control unit in this case the two methods, d. H. checking for a leak and the

Determining a level, simultaneously or can perform one after the other. When used in a vehicle, the two methods can also be performed while driving the vehicle.

FIG. 3 shows a device 1 according to a second exemplary embodiment of the invention.

In the second embodiment, the expansion tank 2 is arranged outside of the fuel tank 7 and via a connection opening in

 Fuel tank 7 connected to the fuel tank 7. Of the

Expansion tank 2 is designed as a bellows and with its one

End face arranged around the connection opening on the fuel tank 7, so that a tight connection between the expansion tank 2 and the fuel tank 7 is reached. The hydraulic cylinder 20 is within the

Fuel tank 7 is arranged and has a piston member 18, which is arranged in the hydraulic cylinder 20. In this case, the piston member 18 is fixedly connected to a bottom of the expansion tank 2. So if the

Fuel pump 6 is operated, fuel is conveyed via the connecting line 3 in a region 19 on the piston member 18, so that the

 Piston member 18 and coupled to the piston member 18 bottom of the expansion tank 2 in the direction of arrow C moves. Thereby, the expansion tank 2, which has a wall portion of a bellows 102, compressed and displaces a gas volume corresponding to the stroke of the expansion tank 2 in the fuel tank 7, so that a

Pressure increase in the gas-filled area 71 results. This pressure increase can in turn, as described in the first embodiment, be used to determine a leak in the fuel tank and / or to determine a level of the fuel tank. After verification or level determination, the switching valve 13 is opened so that a tank ventilation is possible.

FIG. 4 shows a device 1 according to a third exemplary embodiment of the invention. In contrast to the first embodiment is the third

Embodiment in the connecting line 3, a shut-off valve 17th

arranged. Furthermore, the connecting line 3 branches in the direction of flow in the fuel line 8 also after the check valve 9 (see Figure 4). By providing the shut-off valve 17 can be determined in particular when the inventive method should be performed. If

For example, the device 1 is used in a fuel tank 7 of a vehicle, the fuel pump 6 is operated at a start of the internal combustion engine, first fuel must be supplied to the injectors, so that proper operation of the internal combustion engine is ensured. Only after the necessary pressure build-up in the fuel system has been reached can a check of the fuel tank 7 for a leak or a fill level determination be carried out.

FIG. 5 shows a device 1 according to a fourth exemplary embodiment of the invention. In contrast to the third embodiment is the fourth

Embodiment in the connecting line 3, a throttle 16 is present. The throttle 16 is designed such that no complete blocking of the connecting line 3 is possible. Nevertheless, the throttle 16 allows at a start of an internal combustion engine, that a sufficiently rapid pressure build-up in the fuel system is achieved because of the funded by the fuel pump 6

Fuel is first directed mainly into the fuel system and the throttle 16 only a minimum volume to the hydraulic cylinder 20 is performed. Only after the pressure has been sufficiently built up in the fuel system, a sufficient volume flow in the direction of the hydraulic cylinder 20 is made possible, so then the inventive method for

 Leakage determination and for level determination can be performed.

Furthermore, it should be noted that when using a shut-off valve 17 and a pressure accumulator function in the device 1 can be made possible, so that a pressure increase can be maintained over a defined period of time.

As was apparent from the exemplary embodiments described, according to the invention a device can be provided which, by using the fuel pump 6, enables a leakage check and a fill level determination. As a result, no external air pump with separate electric drive is necessary, so that according to the invention a significantly simplified design is achieved. Furthermore, to carry out the method no external medium must be pumped into the fuel tank 2, as for example in

State of the art when using the externally operated air pump is necessary.

For all embodiments, it should also be noted that it is also possible that the expansion tank 2 is integrated directly into the fuel pump 6.

As a result, a particularly compact design is achieved and the fuel pump 6 can perform as a module comprising the pump function for the fuel and the leak check function and / or the fill level determination function. This allows a particularly cost-effective and space-saving realization of the invention. It should also be noted that when used in a vehicle, a diagnosis is possible even without starting the internal combustion engine. In this case, only the fuel pump 6 needs to be briefly actuated to build up pressure. After carrying out the method according to the invention, the fuel flows from the hydraulic cylinder 20 via gap leakage back into the

Fuel tank 7. The return flow is supported by the return element 23. Also, during the reset, the switching valve 13 is opened to allow a pressure reduction in the fuel tank 7.

Thus, according to the invention, a true pressure measurement can be made possible with a very short diagnosis time. In addition, the device according to the invention is also robust against contamination. The expansion tank 2 can also be installed independently of a position in the fuel tank 7.

Claims

 claims

1 . Apparatus for varying a pressure in a fuel tank (7), comprising:

 an expansion tank (2), which is established by

 Volume change of the expansion tank (2) to cause a pressure change in the fuel tank (7)

 a connecting line (3) which connects the expansion tank (2) with a fuel pump (6), and

 an extendable and retractable hydraulic cylinder (20), by means of which the change in volume of the expansion tank (2) can be effected.

2. Apparatus according to claim 1, characterized in that the

 Expansion tank is designed such that the volume of the expansion tank by the introduced fuel to a

 increases predetermined difference volume, which is greater than the volume of the introduced fuel.

3. Device according to one of the preceding claims, further comprising a hydraulic cylinder (20) surrounding the housing, wherein the housing comprises a first housing part (21), a second housing part (22) and a housing parts sealing the flexible element (28).

4. Device according to one of the preceding claims, wherein the

 Expansion tank (2) in the fuel tank (7) is arranged, or wherein the expansion tank (2) is arranged outside of the fuel tank.

5. Device according to one of the preceding claims, further comprising a shut-off valve (17) or a throttle (16), wherein the shut-off valve (17) or the throttle (16) in the connecting line (3) is arranged. Device according to one of the preceding claims, further comprising a return element (23), which returns the expansion tank (2) to a starting position.

Apparatus according to any one of the preceding claims, further comprising a fuel pump.

Device according to one of the preceding claims, further comprising:

 a pressure sensor (4) for determining pressure values in

 Fuel tank (7), and

 a control unit (10) which is set up, a first

 Comparing the pressure value with a second pressure value, wherein the first pressure value is determined when the fuel pump is not operated and the second pressure value after a predetermined period of time during which the fuel pump (6) was operated, is determined,

 wherein the control unit (10) is further arranged, a

 Determine difference value between the second and first pressure value and to determine a leakage in a deviation of the difference value of a predetermined threshold value.

Device according to one of the preceding claims, comprising: a pressure sensor (4) for determining pressure values in

 Fuel tank (7), and

 a control unit (10) which is set up, a first

 Comparing the pressure value with a second pressure value, wherein the first pressure value is determined when the fuel pump is not operated and the second pressure value after a predetermined period of time during which the fuel pump (6) was operated, is determined,

 wherein the control unit is further configured to determine a difference value between the second pressure value and the first pressure value and the difference value with a stored

 Reference value, with each reference value

Level of the fuel tank (7) is assigned and the level can be determined in dependence of the difference value.

10. A method of checking a fuel tank for a leak, comprising the steps of:

 Determining a first pressure value in the fuel tank, - Operating a fuel pump (6) for changing a volume of an expansion tank (2), which is in operative connection with the fuel tank,

 Determining a second pressure value in the fuel tank (7) after a predetermined period of time during which the fuel pump has been operated, and

 Comparing the second to the first pressure value, wherein if the first pressure value is equal to the second pressure value or a difference between the second and first pressure values is less than a predetermined threshold value, it is determined that there is a leak.

1 1. A method according to claim 10, characterized in that fuel is pumped into the hydraulic cylinder (20) to a volume of

 Expansion tank (2) to enlarge.

12. The method of claim 10 or 1 1, characterized in that the method is carried out at each start or at each stop of an internal combustion engine. 13. A method for determining a fill level of a fuel tank (7), comprising the steps of:

 Determining a first pressure value in the fuel tank (7), operating a fuel pump (6) to change a volume of an expansion tank (2) operatively connected to the fuel tank,

 Determining a second pressure value in the fuel tank (7) after a predetermined period of time in which the

 Fuel pump was operated,

 Determining a difference value between the second and first pressure values, and

Comparing the difference value with a stored reference value, wherein each reference value is a level of the Fuel tank is assigned and the level of the

 Fuel tank the determined difference value can be assigned.

Method according to one of claims 10 to 12, wherein in a subsequent step, a method according to claim 13 is carried out.