JP6290383B2 - Inspection device for fuel injector or fuel injection nozzle - Google Patents

Description

  The present invention relates to an inspection device for a fuel injector or a fuel injection nozzle of an internal combustion engine as set forth in claim 1. The invention further relates to a test strip for such a device.

  From Patent Document 1, an inspection device for an injection nozzle of an internal combustion engine is known that includes a pump that can supply fuel prepared in a tank to an injection nozzle to be inspected and that generates an injection pressure. The inspection injection nozzle protrudes into the inspection chamber, and the inspection injection nozzle injects fuel into the inspection chamber at the time of inspection. In order to inspect the operational performance of the injection nozzle, the assembler can visually observe the formation of the jet injection in the inspection room from the outside.

  With such an inspection device for an injection nozzle of an internal combustion engine known from the prior art, the general operating performance of the injection nozzle can be inspected. On the other hand, it is not possible with the devices known from the prior art to check whether the fuel exits through all the nozzle holes of the fuel injection nozzle or fuel injector. Therefore, it is not guaranteed that all the nozzle holes of the fuel injection nozzle to be inspected or the fuel injector to be inspected are viewed without limitation. Furthermore, it is impossible for the devices known from the prior art to detect the jet angle deviation of individual nozzle holes. In addition, simply monitoring or investigating the injection behavior by the assembler leads to mistakes and is not reproducible.

German Patent No. 1116945

  In view of the foregoing, it is an object of the present invention to provide a new device for testing a fuel injector or fuel injection nozzle and a test strip for such a device. This problem is solved by the device according to claim 1. In accordance with the present invention, the test chamber receives a test strip, which receives test media splashing from the fuel injector or fuel injection nozzle to be tested in the form of an evaluable spray pattern. Whether the nozzle holes of the fuel injector or fuel injection nozzle are all operational and whether the injection angle of the nozzle hole is acceptable are easily and reliably confirmed based on the spray pattern. obtain. Furthermore, the entire inspection process is less prone to mistakes and is reproducible.

  According to an advantageous development of the invention, the test strip is a holder and is received so that the fuel injector to be inspected or the fuel injection nozzle to be inspected protrudes at least partly into the holder. The fuel injector to be inspected or the fuel injection nozzle to be inspected is partially surrounded outside. This enables a particularly advantageous inspection process. The test strip is a holder and is defined and received in the examination room. Since the fuel injector or fuel injector nozzle to be inspected is defined and protrudes into the holder, the holder partially surrounds the fuel injector or fuel injector nozzle to be inspected externally, and the fuel injector or fuel The spray nozzle is defined to impact the test strip.

  According to an advantageous further development of the invention, the holder is a cylindrical sleeve that receives the test strip radially inward, preferably the holder is a fuel injector to be tested or a fuel injection nozzle to be tested. Is provided coaxially. This enables a particularly preferred inspection of the fuel injection nozzle or fuel injector to be inspected. A cylindrical sleeve that receives the test strip radially inward is preferably arranged coaxially with respect to the central axis of the fuel injection nozzle or fuel injector.

  The test strip is defined in claim 9. The test strip is made of an absorbent material and preferably comprises a reference sample.

  The ability of the test strip material to absorb ensures that the test strip reliably accepts the spray pattern to be evaluated. If the test strip carries a reference sample, the evaluation of the spray pattern can obviously be simplified.

  Preferred developments of the invention result from the dependent claims and the following description. Embodiments of the present invention will be described in more detail with reference to the drawings, but are not limited thereto. The following is shown in the figure.

1 is a schematic view of an apparatus according to the present invention for inspecting a fuel injector or fuel injection nozzle of an internal combustion engine. It is detail drawing of sectional drawing of FIG.

  The present invention relates to an inspection device for a fuel injector or a fuel injection nozzle of an internal combustion engine. In the following, only the fuel injection nozzle is referred to for convenience.

  1 and 2 schematically show different views of the apparatus according to the invention for inspecting a fuel injection nozzle in the context of a fuel injection nozzle 10 to be inspected, the inspected fuel according to FIG. The injection nozzle 10 protrudes into the inspection chamber 11.

  The apparatus includes a pump 12 that generates an injection pressure for the fuel injection nozzle 10 to be inspected, and injects fuel prepared in the tank 13 into the fuel injection nozzle 10 to be inspected. Supply with pressure. When inspecting the fuel injection nozzle 10 to be inspected, the fuel injection nozzle 10 to be inspected injects fuel into the inspection chamber 11.

  In the context of the present invention, the examination chamber 11 receives a test strip 14 which, in the preferred embodiment shown, is received by a holder 15 arranged inside the examination room 11. .

  The retainer 15 is, in the embodiment shown, a cylindrical sleeve that receives the test strip 14 radially inward with a radially inner cylindrical wall.

  When inspecting the fuel injection nozzle 10, the fuel injection nozzle 10 injects fuel toward a test strip 14 that receives fuel scattered from the fuel injection nozzle 10 under test in the form of a spray pattern that can be evaluated.

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

  As already explained, the test strip 14 is preferably received in a cylindrical sleeve 15. In that case, the holder implemented as a cylindrical sleeve 15 is preferably such that the central axis 16 of the holder or sleeve 15 extends coaxially with respect to the central axis 17 of the fuel injection nozzle 10 to be inspected. It is arranged with respect to the fuel injection nozzle 10. Thus, the fuel injection nozzle 10 preferably projects centrally into the sleeve 15 carrying the test strip 14 radially inward with respect to the radial extent of the sleeve 15.

  Preferably, the test strip 14 carries a reference sample 18. This reference sample 18 is, for example, a sample of intersecting lines according to FIG. 2, where the first line is cylindrical when the test strip 14 is received on the radially inner wall of the cylindrical sleeve 15. In the circumferential direction of the sleeve 15, the second line extends in the axial direction of the cylindrical sleeve 15.

  The arrangement of the reference sample 18 of the test strip 14 in the sleeve 15 is performed by the test strip 14 being defined and abutting against the stopper 19 of the sleeve 15 and thus being arranged with respect to this stopper 19.

  The test strip 14 carrying the reference sample 18 is preferably a test strip 14 made from an absorbent material or raw material, in particular from a cellulose raw material, so that the test strip 14 scatters from the fuel injection nozzle 10 during the test drive. Can accept fuel easily and reliably.

  The invention further relates to a test strip 14 for such a device according to the invention, as already explained, the test strip 14 being made from an absorbent material or material, preferably a reference sample. 18 is carried.

  Accordingly, it is proposed to inspect the fuel injector or fuel injection nozzle of an internal combustion engine that the corresponding device receives the test strip 14 in the inspection chamber 11, and the test strip 14 is connected to the fuel injection nozzle 10 to be inspected or The fuel scattered from the fuel injector 10 to be inspected is received in the form of a spray pattern.

  The spray pattern on the test strip 14 can then be subsequently evaluated and a wide range of operational tests of the fuel injection nozzle 10 or fuel injector 10 can be performed based on the spray pattern.

  The general operating performance of the fuel injection nozzle or fuel injector can then be tested.

  In addition, the passability or sealing performance of each nozzle hole of the fuel injection nozzle or the fuel injector can be estimated.

  Furthermore, the deviation of the injection angle or the irregularity of the injection angle of each nozzle hole of the fuel injection nozzle or the fuel injector can be detected based on the spray pattern. This can be done, for example, by evaluating the relative position of the spray pattern relative to the reference sample 18.

  In addition, irregularities in the injection amount of each nozzle hole of the fuel injection nozzle or fuel injector can be detected based on the spray pattern.

  Evaluation of the spray pattern can be performed visually by an assembler or automated through a pattern processing system.

  Instead of the fuel, another inspection medium may be sprayed from the fuel injection nozzle to be inspected or the fuel injector to be inspected during the inspection driving.

DESCRIPTION OF SYMBOLS 10 Fuel injector / fuel injection nozzle 11 Inspection chamber 12 Pump 13 Fuel tank 14 Test strip 15 Holder / sleeve 16 Longitudinal central axis 17 Longitudinal central axis 18 Reference sample 19 Stopper

Claims (8)

An inspection apparatus for a fuel injector or a fuel injection nozzle of an internal combustion engine, wherein fuel prepared in a tank (13) can be supplied to a fuel injector (10) or a fuel injection nozzle (10) to be inspected and an injection pressure is provided. A pump (12) for generating, and the fuel injector to be inspected or the fuel injection nozzle to be inspected protrudes into the inspection chamber (11) or is provided in the inspection chamber, and an inspection medium is provided in the inspection chamber (11). The test chamber (11) receives a test strip (14), and the test strip (14) scatters from the fuel injector (10) or the fuel injection nozzle (10) to be tested. The test medium to be received in the form of an evaluable spray pattern,
The test strip (14) is received by a holder (15) provided with a stopper (19) for positioning the test strip, the holder (15) being radially inward of the test strip. (14) A cylindrical sleeve for receiving (14) .   The device according to claim 1, characterized in that the test strip (14) is made of a material capable of absorbing.   Device according to claim 1 or 2, characterized in that the test strip (14) comprises a reference sample (18).   The test strip (14) is the holder (15), and the relative position of the reference sample (18) with respect to the fuel injector (10) or the fuel injection nozzle (10) to be tested is defined and received. 4. The device according to any one of claims 1 to 3, characterized in that: The inspected fuel injector (10) or the inspected fuel injection nozzle (10) protrudes at least partially into the holder (15), and the holder (15) is connected to the inspected fuel injector (10). Or an apparatus according to any one of claims 1 to 4 , characterized in that it partially encloses the fuel injection nozzle (10) to be inspected. The said holding | maintenance tool (15) is coaxially provided with respect to the said to-be-inspected fuel injector (10) or the to-be-inspected fuel injection nozzle (10), The any one of Claim 1 to 5 characterized by the above-mentioned. The device described in 1. In the test strip for a device according to any one of claims 1 to 6, wherein the test strip, the test strip, characterized in that it is made from a absorption capacity material. 8. Test strip according to claim 7 , characterized in that the test strip carries a reference sample (18).

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