KR20160013246A - Device for testing a fuel injector or a fuel injection nozzle - Google Patents

Abstract

The present invention relates to an apparatus for testing a fuel injector (10) or a fuel injection nozzle (10) of an internal combustion engine, comprising a pump (12) for generating an injection pressure, The fuel injector 10 to be tested or the fuel injection nozzle 10 to be tested can be supplied to the test vehicle 10 to be tested or to the fuel injection nozzle 10 to be tested, Project into the chamber 11 or into the test chamber 11 and inject the test medium into the test chamber 11 and the test chamber 11 receives the test strip 14, In the form of a spray pattern which can be evaluated, the test medium to be injected by the fuel injector 10 to be tested or the fuel injection nozzle 10 to be tested.

Description

FIELD OF THE INVENTION [0001] The present invention relates to an apparatus for testing a fuel injector or a fuel injection nozzle,

The present invention relates to an apparatus for testing a fuel injector or a fuel injection nozzle of an internal combustion engine according to the preamble of claim 1. The invention also relates to a test strip for the device.

DE-PS 1 116 945 discloses an apparatus for testing an injection nozzle of an internal combustion engine which can supply the fuel provided in the tank to the injection nozzle to be tested and which produces the injection pressure. The injection nozzle to be tested protrudes into the test chamber, in which case the injection nozzle to be tested injects fuel into the test chamber during testing. From the outside, a technician observes the generation of jet jets in the test chamber to visually test the function of the jet nozzle.

The general function of the injection nozzle can be tested by such a device disclosed in the prior art for testing the injection nozzle of an internal combustion engine. In contrast, testing for whether the fuel is discharged through all the nozzle holes of the fuel injection nozzle or the fuel injector is not possible with the device disclosed in the prior art. The unlimited field of view for all the nozzle holes of the fuel injection nozzle to be tested or the fuel injector to be tested is not guaranteed. It is also impossible to detect the dispense angle deviation of individual nozzle holes with the device disclosed in the prior art. Also, pure visual monitoring or evaluation of the spray behavior by the technician is error-prone and non-reproducible.

It is an object of the present invention to provide a novel apparatus for testing a fuel injector or a fuel injection nozzle and a test strip for the apparatus.

The problem is solved by an apparatus according to claim 1.

According to the invention, the test chamber receives a test strip, which receives, in an evaluable spray pattern form, a test medium to be injected by the fuel injector to be tested or the fuel injection nozzle to be tested. Whether or not all of the nozzle holes of the fuel injector or the fuel injection nozzle are operated by the injection pattern and whether or not the injection angle of the nozzle hole can be accepted can be determined simply and reliably. The entire test process is error-free and reproducible.

According to a preferred refinement of the invention, the test strip is received by the holder, and the fuel injector to be tested or the fuel injection nozzle to be tested is at least partially extended into the holder such that the holder is connected to the fuel injector to be tested, Enclose it partially from the outside. This makes a particularly desirable test procedure possible. The test strip is confined within the test chamber and is received by the holder. Since the fuel injector to be tested or the fuel injection nozzle to be tested protrudes within the holder, the holder partially surrounds the fuel injector to be tested or the fuel injection nozzle to be tested externally so that the fuel injector or fuel injection nozzle is limited to the test strip do.

According to another preferred refinement of the invention the holder is a cylindrical sleeve and the sleeve receives the test strip radially inwardly and in this case preferably the holder is coaxial with the fuel injector to be tested or the fuel injection nozzle to be tested . This enables a particularly desirable test of the fuel injection nozzle or fuel injector to be tested. The alignment of the radially inwardly received test strip with the cylindrical sleeve aligned coaxially with the central axis of the fuel injection nozzle or fuel injector is preferred.

The test strip is defined in claim 8. The test strip is made of an absorbent material and preferably has a reference pattern.

The absorbency of the material of the test strip ensures that it accepts the injection pattern to be evaluated reliably. At this time, when the test strip has the reference pattern, evaluation of the injection pattern can be considerably simplified.

Preferred embodiments of the present invention will become apparent from the dependent claims and the ensuing description. Embodiments of the present invention are described in more detail with reference to the drawings, though not exclusively.

1 is a schematic view showing an apparatus according to the invention for testing a fuel injector or a fuel injection nozzle of an internal combustion engine; And
Fig. 2 is a detailed view showing a cross section of Fig. 1. Fig.

The present invention relates to an apparatus for testing a fuel injector or a fuel injection nozzle of an internal combustion engine. For the sake of clarity, only the fuel injection nozzle is mentioned.

Figures 1 and 2 show different schematic diagrams of an apparatus according to the invention for testing a fuel injection nozzle in relation to the fuel injection nozzle 10 to be tested, in which case the fuel injection nozzle 10 to be tested is shown in Figure 2 And protrudes into the test chamber 11 as shown.

The apparatus includes a pump 12 which generates an injection pressure for the fuel injection nozzle 10 to be tested and controls the fuel provided in the tank 13 to be injected into the fuel injection nozzle 10 to be tested at a predetermined injection pressure, . During testing of the fuel injection nozzle 10 to be tested, the nozzle injects fuel into the test chamber 11.

For purposes of the present invention a test chamber 11 accommodates a test strip 14 which in the illustrated preferred embodiment is supported by a holder 15 which is located inside the test chamber 11 .

In the illustrated embodiment, the holder 15 is a cylindrical sleeve, which receives the test strip 14 radially inwardly into the radially inner cylindrical wall.

In testing the fuel injection nozzle 10, the nozzle injects fuel in the direction of the test strip 14, which receives fuel in the form of an evaluable spray pattern that is injected from the fuel injection nozzle 10 to be tested .

By evaluating the injection pattern, the function and quality of the fuel injection nozzle can be easily and reliably tested.

As described above, the test strip 14 is preferably received within the cylindrical sleeve 15. The holder designed as a cylindrical sleeve 15 in this case is preferably designed such that the center axis 16 of the holder or sleeve 15 coaxially extends with the central axis 17 of the fuel injection nozzle 10 to be tested, Are aligned with respect to the injection nozzle (10). The fuel injection nozzle 10 thus projects preferably to the center of the test strip 14, which is supported radially inwardly inside the sleeve 15, with respect to the radial extent of the sleeve 15. [

Preferably, the test strip 14 has a reference pattern 18. The reference pattern 18 is a pattern of, for example, intersecting lines as shown in FIG. 2, and when the test strip 14 is received in the radially inner wall of the cylindrical sleeve 15, The line extends in the circumferential direction of the cylindrical sleeve 15 and the second line extends in the axial direction of the cylindrical sleeve 15. [

Alignment of the reference pattern 18 of the test strip 14 within the sleeve 15 causes the test strip 14 to contact the stopper 19 of the sleeve 15 as determined and thus ≪ / RTI >

The test strip 14 preferably has a reference pattern 18 is a test strip 14 made of an absorbent material or vegetable, in particular a cellulosic material, so that the test strip 14 is in contact with the fuel injection nozzle 10 Can easily and reliably accept the injected fuel.

The present invention also relates to a test strip 14 for such an apparatus according to the invention in which the test strip 14 is made of an absorbent material or vegetable material and preferably has a reference pattern 18 as described above.

Thus, in order to test the fuel injector or the fuel injection nozzle of the internal combustion engine, a corresponding apparatus accommodates the test strip 14 in the test chamber 11, in which case the test strip 14 is connected to the fuel injection nozzle 10 to be tested, Or the fuel injected in the form of a spray pattern by the fuel injector 10 to be tested.

The spray pattern on the test strip 14 can then be evaluated and in this case a wide range of functional tests of the fuel injection nozzle 10 or the fuel injector 10 can be carried out using the spray pattern.

Therefore, the general function of the fuel injection nozzle or the fuel injector can be tested.

Further, the opening or clogging of the individual nozzle holes of the fuel injection nozzle or fuel injector can be deduced.

Further, irregularities in the injection angle or deviation of the injection angle of the individual nozzle holes of the fuel injection nozzle or the fuel injector can be detected based on the injection pattern. This can be done, for example, by evaluating the relative position of the injection pattern with respect to the reference pattern 18. [

In addition, irregularities in the injection amount of the individual nozzle holes of the fuel injection nozzle or the fuel injector can be detected from the injection pattern.

The evaluation of the injection pattern can be done visually by the engineer or automatically by the image processing system.

Instead of the fuel, another test medium may be injected by the fuel injection nozzle to be tested or the fuel injector to be tested during the test operation.

10: fuel injector / fuel injection nozzle 11: test chamber
12: Pump 13: Fuel tank
14: Test strip 15: Holder / sleeve
16: longitudinal center axis 17: longitudinal center axis
18: Reference pattern 19: Stopper

Claims (10)

An apparatus for testing a fuel injector or fuel injection nozzle of an internal combustion engine, the apparatus comprising a pump (12) for forming an injection pressure, the test medium being provided in the tank (13) And the fuel injection nozzle to be tested or the fuel injection nozzle to be tested protrudes into the test chamber 11 or is placed in the test chamber 11 and the test chamber 11 ≪ / RTI > in a test apparatus,
The test chamber 11 receives a test strip 14 which is injected in the form of a spray pattern which can be evaluated by the fuel injector 10 to be tested or the fuel injection nozzle 10 to be tested. Of the test device. The method according to claim 1,
Characterized in that the test strip (14) is made of an absorbent material, in particular of cellulose. 3. The method according to claim 1 or 2,
Characterized in that the test strip (14) has a reference pattern (18). 4. The method according to any one of claims 1 to 3,
Characterized in that the test strip (14) is received by a holder (15). The method according to claim 3 or 4,
The test strip 14 is arranged to be received by the holder 15 according to a predetermined relative position of the reference pattern 18 with respect to the fuel injector 10 to be tested or the fuel injection nozzle 10 to be tested A testing device characterized by. The method according to claim 4 or 5,
Characterized in that the holder (15) is a cylindrical sleeve and the sleeve receives the test strip (14) radially inward. 7. The method according to any one of claims 4 to 6,
The fuel injector 10 to be tested or the fuel injection nozzle 10 to be tested protrudes at least partly into the holder 15 so that the holder 15 can be inserted into the fuel injector 10 to be tested or the fuel to be tested 10, So as to partially surround the injection nozzle (10) from the outside. 8. The method according to any one of claims 4 to 7,
Characterized in that the holder (15) is arranged coaxially with the fuel injector (10) to be tested or with the fuel injection nozzle (10) to be tested. 9. A test strip for an apparatus according to any one of claims 1 to 8,
Characterized in that the test strip is made of an absorbent material. 10. The method of claim 9,
Characterized in that the test strip has a reference pattern (18).

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