DE19838749A1 - Leakage rate detection method for internal combustion engine fuel injection valve, e.g. for vehicle diesel engine, evaluates hydrocarbon concentration in fuel stream fed through test body on application of given pressure characteristic - Google Patents

Abstract

The method involves inserting the fuel injection valve (22) between a fuel supply device (10) and a test body (12), so that the fuel injection valve is filled with fuel and subjected to a given pressure characteristic, with measurement of the hydrocarbon concentration of the fuel stream fed through the test body, e.g. using -a flame ionization detector. An Independent claim is also included for a fuel injection valve leakage rate detection device.

Description

The invention relates to a method for determining a leak rate of a fuel Injection valve of an internal combustion engine, in particular a gasoline injection valve an Otto engine, in particular a motor vehicle, the fuel Injection valve having a nozzle, according to the preamble of claim 1. The The invention also relates to a method for manufacturing an internal combustion engine at least one fuel injection valve according to the preamble of claim 13. The invention also relates to a device for determining a leak rate of a Fuel injection valve of an internal combustion engine, in particular a gasoline Injection valve of a gasoline engine, in particular of a motor vehicle, the Fuel injection valve having a nozzle according to the preamble of claim 15.

In the case of fuel injection valves with a nozzle for an internal combustion engine, for example for gasoline engines, the problem arises that, due to the manufacturing process, the nozzle side Leaks can occur. The one through these leaks Fuel reaching the combustion chamber of an internal combustion engine leads to additional, unwanted pollutant emissions from the internal combustion engine.

The present invention is therefore based on the object of a method and a To provide device of the type mentioned above, which is an accurate and allow easy determination of a leak rate of a fuel injection valve.

This object is achieved according to the invention by a method of the above. Kind of with the in Claim 1 and 13 each specified process steps and by a device the above Art solved with the features characterized in claim 15. Beneficial Refinements of the invention are given in the dependent claims.

For this purpose, according to the invention, the following steps are provided in a method for determining a leak rate of a fuel injection valve of an internal combustion engine of the type mentioned above:

• a) Insertion of the fuel injection valve to be tested between a Fuel supply and a test body, the test body on the injection side with respect to. the fuel injection valve is arranged,
• b) filling the fuel injection valve with fuel,
• c) applying the fuel located in the fuel injection valve with a predetermined pressure or a predetermined pressure curve,
• d) conveying a fluid flow through the test body,
• e) measuring a hydrocarbon concentration in the fluid stream.

This has the advantage that a method for simple, reliable and fast Checking a function of a fuel injection valve with low Detection limit and high detection accuracy is available.

For an accurate measurement result, it is advisable to fill in step (b) bubble free.

The fluid flow is expediently fed into an HC analyzer in step (d) (Hydrocarbon analyzer), especially a flame ionization detector, promoted.

In a particularly preferred embodiment of the invention, steps (d) and (e) for one to ten minutes, especially two minutes, and / or until one is reached constant measured value.

For realistic test conditions, the predetermined pressure in step (c) is 3 bar or the predetermined pressure in step (c) corresponds to that in an automobile occurring operating pressure. Alternatively, the predetermined pressure curve corresponds to step (c) a vehicle operating pressure curve occurring in a motor vehicle.

To test the function, the following steps are expediently carried out before step (d).

• 1. Activation of the fuel injection valve,
• 2. Flushing out fuel residues or test fluid residues in the injection valve, and
• 3. Clean the fuel injection valve to remove any external fuel contamination.

It is particularly useful to repeat step (c1) several times in order to achieve a sure to get functional check. Furthermore, the cleaning takes place in step (c2) for example by blowing off.

In a particularly preferred embodiment of the method according to the invention, the hydrocarbon concentration is a measured value in ppm, in particular for propane (C ₃ H ₈ ). The fuel injection valve is expediently "usable" with a measured value of up to 200 ppm, "bad" with a measured value of greater than 200 ppm and up to about 500 ppm and / or as "unusable" with a measured value of greater than 500 ppm "classified.

To achieve a meaningful measurement, the HC analyzer with zero and end point gas, especially propane, especially in one Measuring range of the expected concentration, in the present case usually 1000 ppm, calibrated.

A method for producing an internal combustion engine with at least one fuel Injection valve of the above Art is finally characterized in that the Fuel injection valve with a method for determining a leak rate according to FIG at least one of the preceding claims is checked, with only such Fuel injection valves are selected for installation in the internal combustion engine, which takes a reading of the hydrocarbon concentration below a predetermined Have threshold.

This has the advantage that with the appropriate selection of the fuel injection valve low leakage a low-leakage internal combustion engine with a correspondingly low Pollutant emissions is achieved.

The threshold is expediently adapted to the application, for example 200 ppm to 500 ppm propane concentration (C ₃ H ₈ ).

In a device of the above. Art is characterized according to the invention by a Fuel reservoir and a test body, the fuel injection valve to be tested can be attached between the fuel reservoir and the test body in such a way that a Fuel line path is formed from the fuel reservoir in the test body, wherein the Test body is arranged on the nozzle side, an HC analyzer, which in fluid-conducting Connection with the test body is, and a sampling pump, which a promotes continuous sampling flow from the test body into the HC analyzer.

This has the advantage that a device for simple, reliable and fast Checking a function of a fuel injection valve with low Detection limit and high detection accuracy is available.

In a preferred embodiment, the test body has an opening, which in fluid-conducting connection with an ambient gas, in particular room air, is, wherein the sampling pump carries the ambient gas through as a continuous sampling flow conveys the opening into the test body and out of it into the HC analyzer.

The sampling pump is integrated into the HC analyzer for a compact arrangement.

Appropriately, the conveyed by the sampling pump is continuous Sampling flow 2.5 liters / minute.

In a preferred embodiment is for the production of practical Test conditions upstream of the fuel reservoir a pressure-generating means, in particular a compressed gas (e.g. nitrogen) is provided, which is in the fuel Injection valve a predetermined pressure or a predetermined pressure curve generated. Here, the predetermined pressure is, for example, 3 bar or this corresponds to an operating pressure in a motor vehicle.

Particularly accurate measured values can be achieved by using the HC analyzer Flame ionization detector is.

Further features, advantages and advantageous configurations of the invention result from the dependent claims, as well as from the following description of the Invention based on the accompanying drawing. This shows one in the single figure preferred embodiment of a device according to the invention.

The preferred embodiment of a device according to the invention shown in the single figure comprises a fuel reservoir 10 and a test body 12 which is connected via a hose connection 14 to an HC analyzer 16 , such as a flame ionization detector. At an end of the test body 12 opposite the HC analyzer 16 , an opening 18 is formed through which room air 20 is sucked in by a sampling pump (not shown), conveyed through the test body 12 and via the hose 14 out of the test body into the HC analyzer .

The HC analyzer is used to detect any fuel vapor that may be present in the conveyed room air. For this purpose, a fuel injection valve 22 to be tested is arranged between the fuel reservoir 10 and the test body 12 in the manner shown. As a result, a fluid conduction path for the fuel is formed from the fuel reservoir to the test body, the fuel injection valve 22 being arranged in such a way that one side of the same with a nozzle protrudes into the test body 12.

A pressure generating means, not shown, places the fuel present in the fuel injection valve, for example, under a pressure of 3 bar with respect to an ambient pressure. A nitrogen atmosphere 24 , for example, is used for this purpose. Under the action of pressure, which corresponds, for example, to an operating pressure of a motor vehicle fuel injection system, more or less strong leakages of fuel from the fuel injection valve 22 into the test body 12 appear on the nozzle side of the fuel injection valve. The fuel vapor produced here is conveyed by the flow of room air 20 to the HC analyzer 16 and detected there, the fuel vapor being measured like propane gas.

The measurement is carried out, for example, at room temperature with a sampling, i. H. a room air flow, in particular 2.5 l / min and a measuring time of, for example 120 seconds or more. The course of a measurement is as follows, for example dar:

In order to test fuel injection valves for internal combustion engines, a measurement of a hydrocarbon concentration takes place, which emerges from the fuel injection valve on the nozzle side under a predetermined pressure or pressure profile when the fuel injection valve is closed. For this purpose, the hydrocarbon _{concentration, expressed as propane (C 3} H ₈ ), is taken as the measured value after a two-minute measurement time. If this measured value is not yet stable after two minutes, the measurement is extended to a maximum of ten minutes, or until a stable measured value is available.

For the measurement, the fuel injection valve 22 to be tested is filled with fuel without bubbles. Care must be taken that the fuel injection valve 22 is not wetted with fuel from the outside. In order to simulate a fuel injection pressure, the filled fuel is subjected to a pressure of 3 bar using suitable means, such as a nitrogen atmosphere. Deviating from this pressure, the test pressure can correspond to that of a vehicle operating pressure. Before the test measurement, the fuel injection valve 22 is checked for its function by triggering it several times. After the activation, the fuel injection valve 22 is made clean again and freed from fuel wetting, for example by means of blowing it off. The cleaned fuel injection valve 22 is then installed in the test body 12 .

For the actual measurement, a continuous flow of air is conveyed through the test body 12 past the fuel injection valve 22 into the HC analyzer 16. The flame ionization detector (FID) with an integrated sampling pump is provided for this purpose. The HC analyzer 16 is expediently calibrated in a suitable measuring range with zero and end point gas (propane) before the measurement. The sampling flow during the measuring time is kept constant at 2.5 l / min, for example. The measuring time per fuel injection valve 22 is, for example, 2 minutes.

The measurement can be used in particular for type selection, for the nth routine check or for 100% checking of fuel injection valves. A simultaneous function and leak test is carried out. A measurement result is obtained in ppm propane or propane equivalent. For example, the following classification (adapted to the application) of the checked fuel injection valves takes place with the measurement parameters given above:

≦ 200 ppm C ₃ H ₈ "useful" ≧ 200 ppm and ≦ 500 ppm C ₃ H ₈ "bad" <500 ppm C ₃ H ₈ "unusable"

List of reference symbols

10

Fuel template

12th

Test specimen

14th

Hose connection

16

HC analyzer

18th

opening

20th

Indoor air

22nd

Fuel injector

24

Nitrogen atmosphere

Claims (21)

1. A method for determining a leak rate of a fuel injection valve of an internal combustion engine, in particular a gasoline injection valve of a gasoline engine, in particular a motor vehicle, wherein the fuel injection valve has a nozzle, characterized by the following steps,

• a) Insertion of the fuel injection valve to be tested between a test liquid template and a test body, the test body being arranged on the nozzle side with respect to the fuel injection valve,
• b) Filling the fuel injection valve with a test liquid, in particular fuel,
• c) applying a predetermined pressure or a predetermined pressure curve to the test liquid located in the fuel injection valve,
• d) conveying a fluid flow through the test body,
• e) measuring a test liquid, in particular hydrocarbon concentration in the fluid stream.

2. The method according to claim 1, characterized in that the filling in step (b) takes place without bubbles. 3. The method according to claim 1 or 2, characterized in that the fluid flow in step (d) into an HC analyzer, in particular a flame ionization detector, is promoted. 4. The method according to any one of the preceding claims, characterized in that steps (d) and (e) for one to ten minutes, in particular two minutes, and / or be carried out until a constant measured value is reached. 5. The method according to any one of the preceding claims, characterized in that the predetermined pressure in step (c) is 3 bar or one in a motor vehicle occurring operating pressure. 6. The method according to any one of the preceding claims, characterized in that the predetermined pressure curve in step (c) one in a motor vehicle occurring vehicle operating pressure curve corresponds. 7. The method according to any one of the preceding claims, characterized by the following additional steps before step (d),

• 1. Activating the fuel injection valve and
• 2. Clean the fuel injection valve from external test liquid contamination.

8. The method according to claim 7, characterized in that Step (c1) is repeated several times. 9. The method according to claim 7 or 8, characterized in that the cleaning in step (c2) takes place by blowing off. 10. The method according to any one of the preceding claims, characterized in that the hydrocarbon concentration is a measured value in ppm, in particular for propane (C ₃ H ₈ ). 11. The method according to claim 10, characterized in that the fuel injection valve with a measured value of up to 200 ppm as "usable", at a measured value of greater than 200 ppm up to about 500 ppm as "bad" and / or is classified as "unusable" if the measured value is greater than 500 ppm. 12. The method according to any one of the preceding claims, characterized in that before or during the procedure the HC analyzer with zero and end point gas, in particular propane, in particular in a concentration of 1000 ppm, calibrated will. 13. A method for producing an internal combustion engine with at least one fuel Injection valve, characterized in that the fuel injection valve with a method for determining a leak rate is checked according to at least one of the preceding claims, wherein only such fuel injection valves are selected for installation in the internal combustion engine which is a measured value of the test liquid concentration below a have a predetermined threshold. 14. The method according to claim 13, characterized in that the predetermined threshold is 200 ppm to 500 ppm propane concentration (C ₃ H ₈ ). 15. Device for determining a leak rate of a fuel injection valve ( 22 ), in particular a gasoline injection valve of a gasoline engine, in particular a motor vehicle, wherein the fuel injection valve ( 22 ) has a nozzle, characterized by,
a fuel reservoir ( 10 ) and a test body ( 12 ), the fuel injection valve ( 22 ) to be tested being attachable between the fuel reservoir (10 ) and the test body ( 12 ) in such a way that a fuel line path from the fuel reservoir ( 10 ) into the test body ( 12 ) is formed, wherein the test body ( 12 ) with respect to the fuel injection valve ( 22 ) is arranged on the nozzle side,
an HC analyzer ( 16 ) which is in fluid communication with the test body ( 12 ), and
a sampling pump which conveys a continuous sampling flow ( 20 ) from the test body ( 12 ) into the HC analyzer ( 16 ). 16. The device according to claim 15, characterized in that the test body ( 12 ) has an opening ( 18 ) which is in fluid-conducting connection with an ambient gas ( 20 ), in particular room air, the sampling pump, the ambient gas (20 ) as a continuous sampling flow through the opening ( 18 ) into the test body ( 12 ) and out of this into the HC analyzer ( 16 ). 17. Apparatus according to claim 15 or 16, characterized in that the sampling pump is integrated in the HC analyzer ( 16 ). 18. Device according to one of claims 15 to 17, characterized in that the continuous sampling flow delivered by the sampling pump 2.5 Liters / minute. 19. Device according to one of claims 15 to 18, characterized in that upstream of the fuel reservoir ( 10 ) a pressure-generating means ( 24 ), in particular a pump, is provided, which in the fuel injection valve ( 22 ) a predetermined pressure or a predetermined Pressure curve generated. 20. Apparatus according to claim 19, characterized in that the predetermined pressure is 3 bar or an operating pressure in one Motor vehicle corresponds. 21. Device according to one of claims 15 to 20, characterized in that the HC analyzer ( 16 ) is a flame ionization detector.