DE1281751B - Testing device for determining the injection point in fuel injection pumps - Google Patents

Description

Test device for determining the injection point in fuel injection pumps The invention relates to a test device for determining the injection time with fuel injection pumps.

In order to achieve optimal operating conditions in internal combustion engines, the ignition must always take place at the same piston position. This is especially true in multi-cylinder engines, especially those whose ignition occurs with the injection of the fuel begins. Setting the injection timing requires a high accuracy and care.

The known methods and devices for setting the injection timing allow relatively large deviations from the target value, because they are subjective and different Moments that cannot be switched off play a major role.

It is known to indicate the start of delivery the displacement of gaseous and liquid media. In doing so, however, arise from the above-mentioned subjective ones Influence the largest adjustment errors. Stroboscopic methods are also known where the flashes of light necessary to generate the stroboscopic effect are controlled by contacts actuated by the injectors. With these In the process, the deviations from the target value arise from natural wear and tear the contacts (deviation from the calibration standard) and, on the other hand, due to the display area being too large in connection with the unavoidable display blurring with this method, especially at low speeds. The dynamic start of delivery measurement (by means of a pressure transducer in the injection line) ultimately leads to the display of the stroboscopic effect. The relatively cumbersome work with the flashlight falls in experiments and Tests do not matter, but they do in continuous operation, where they are for reasons of Time saving and for reasons of physical stress (quick fatigue of the adjusters) is hardly used, apart from the limited operating hours of the flash tube. In addition, the stroboscopic method has the aforementioned disadvantage that Again, the subjective decision is decisive for the accuracy of the setting is.

The invention is based on the object of a test device for Determination of the injection point in fuel injection pumps to create at which largely eliminates the subjective moment and which is optimally low Tolerance works.

The invention consists in that a known per se, with each Circulation of the injection pump contactless encoder generating an electrical pulse and a second pulse generator, which is generated by the fuel emerging from the injector is triggered and non-contact generates a second electrical pulse, provided are, and that both pulse generators to a known electronic gate circuit connected to a display device.

The transmitter generating an electrical pulse is expedient from one with the same speed as the camshaft of the injection pump to be tested a magnet rotating around a magnetic head, while the one generating the second pulse Encoder consists of a piezoelectric system.

The control device according to the invention works contactless, pure electronically. The tolerance field, for which, as a practical value, is completely sufficient ± 0.1 ° cam angle has been set, in extreme cases it can be narrowed to such an extent that that the smallest possible adjustment dimension, which with the adjustment elements of the injection pumps can be reached, is fallen below.

The control device is arbitrary for testing injection pumps Number of cylinders applicable. The system works practically without wear and tear no maintenance. The energy requirement of a few mA can be supplied by mono cells. The subsequent installation of the system in existing test stands is possible.

The invention is explained below using an exemplary embodiment will.

The drawing shows in FIGS. 1 and 2 the circuit diagram in front and side view.

One with the same speed as the camshaft 1 on the test bench 1 'standing, to be tested injection pump 2 rotating magnet 3 induced in a Magnetic head 4 a pulse Ji. Regardless of this, the acceleration of a piezoelectric system 5 generates a second pulse J2, triggered of the fuel exiting from the injection nozzle 6 (assigned according to the ignition sequence).

To determine the difference between J2 (actual value) and J1 (nominal value) to be able to, the magnetic head 4 is adjustable from a 0 position. Will be at If the alignment of J1 with J2 is reached, the display appears on the display device 8. The deviation determined in this way can be read off on a standard scale. To resetting the magnetic head to the 0 position is now 12 by adjusting the adjustment elements of the injection pump shifted in time so that again in the case of coverage from J1 and J2 via the electronic gate circuit 7 on the display device 8 a seamless, A clear display appears: When this display appears, the setting process is in progress practically ended because the injection time is in the specified tolerance range.

Claims (3)

Claims: 1. Test device for determining the injection time in fuel injection pumps, characterized in that a known sensor (4) and a second pulse generator (5) which generate an electrical pulse (J1) without contact with each cycle of the injection pump (2) , which is triggered by the fuel emerging from the injection nozzle (6) and generates a second electrical pulse (J2) without contact, and that both pulse generators (4, 5) are connected to an electronic gate circuit (7) known per se, which is connected to a display device (8). 2. Test device according to claim 1, characterized in that the transmitter generating an electrical pulse (J1) (4) from one with the same speed as the camshaft (1) of the injection pump to be tested (2) consists of a magnet (3) rotating around a magnetic head. 3. Test device according to Claims 1 and 2, characterized in that the one generating the second pulse (J2) Encoder (5) consists of a piezoelectric system. Considered publications: German Patent No. 585 011; German Auslegeschriften Nos. 1045169, 1228 850; German patent application H5977Ia / 46c2 (be = made known on B. 2.1951); British U.S. Patent No. 729,431; U.S. Patent No. 2,691,888; "Motor technology magazine", 1964, no. 7, pp. 292 to 296. _