DE2757996A1 - INJECTION NOZZLE INSPECTION PROCEDURE - Google Patents

Description

R.

State of the art

The invention is based on a method according to the preamble of the main claim. The test regarding the snarling behavior and The tightness of injection nozzles was previously done by visual observation. This is cumbersome, imprecise and leads to excessive demands of the examiner.

Advantages of the invention

The method according to the invention with the characterizing features The main claim has the advantage that the test runs are carried out fully automatically and with the greatest possible accuracy can be.

drawing

A schematic representation for carrying out the method is shown in the accompanying drawing.

Description of the invention

A light beam 13 coming from a laser 12 passes near the mouth 10 of an injection nozzle 11 and falls on a photodiode I ¹ I, from which electrical signals generated in the photodiode via an electrical line 15 are input to an electronic evaluation device 16. With the device described, two types of test methods can be carried out, namely a leak test and a test of the buzzing behavior of the injection nozzles.

To test the chattering behavior, the injection nozzle is supplied with a defined flow rate and with a defined

909827/0197 ^
COPY

R.

Pressure supplied. The fuel emerging from the nozzle emerges chopped from the nozzles designated as good and from the bad not chopped up, d. H. continually. In the case of the nozzles marked as good, the photodiode IM receives an oscillating one Light intensity and a continuous light intensity with the bad nozzles. In the electronic device 16 can Assessment of the incoming signals from the photodiode take place automatically. A monitor 17 allows visual observation of the photodiode signal for adjustment and control purposes.

For the leak test, the nozzle is set within a control time that can be set as required, e.g. B. 10 seconds, applied with a pressure that is a certain amount, e.g. 10 bar, lower than the opening pressure of the nozzle. During the check-up time, not a single drop should come off the nozzle orifice. With the good nozzles, i.e. with the dense ones the laser beam is not darkened, but with the bad, it is darkened as often as drops emerge from the nozzle orifice to solve. This is also evaluated automatically with the aid of the electronic device 16 and visually on the monitor 18 observed.

In both cases, the amplitudes and frequency or pulse duration of the photodiode signal are evaluated electronically.

909827 / p197

COPY

Claims (5)

December 9, 1977 Wd / Ht ROBERT BOSCH GMBH, 7OOO Stuttgart 1 Expectations ^ A method for testing injection nozzles, characterized in that that a laser beam (13) near the mouth (10) of the injection nozzle (11) passing on a light-sensitive Sensor (14) hits, where it is converted into proportional electrical signals and in an electronic evaluation device (16) Provides information about the tightness and the buzzing behavior of the injection nozzle. 2. The method according to claim 1, characterized in that the light-sensitive sensor (14) is a photodiode. 3. The method according to claim 1 and / or 2, characterized in that that the electrical signals in the electronic evaluation device are processed in analog or digital form as well as analog signals can be displayed on the screen of an oscilloscope. 4. The method according to any one of claims 1 to 3 »characterized in that that during the snarling test, the injection nozzle with a defined delivery rate and a defined pressure is supplied. 909827/0197 - 2 - > PB CX) PY 5. The method according to any one of claims 1 to 3, characterized in, that during the leak test the injection nozzle is pressurized within a control time, which is lower than the opening pressure of the nozzle. 909827/0197