TEST PROCEDURE FOR HIGH-PRESSURE PUMPS

Abstract

A method for testing a high-pressure pump, particularly a high-pressure pump which is provided to inject fuel into a combustion engine, the method including filling the high-pressure pump with a fluid prior to switching it on.

Claims

1-10. (canceled)

11. A method for testing a high-pressure pump, comprising: filling the high-pressure pump with a fluid prior to switching it on.

12. The method as recited in claim 11, wherein the high-pressure pump is designed to inject fuel into a combustion engine.

13. The method as recited in claim 11, further comprising: switching on the high-pressure pump only after at least one of a return-flow quantity and a delivery quantity has been measured at outputs of the high-pressure pump.

14. The method as recited in claim 11, further comprising: filling a high-pressure accumulator by way of the high-pressure pump; and restricting an outlet of the high-pressure accumulator prior to switching on the high-pressure pump.

15. The method as recited in claim 14, further comprising: prior to switching on the high-pressure pump, energizing a pressure regulating valve which is provided at an outlet of the high-pressure accumulator to already restrict the outlet of the high-pressure accumulator before the high-pressure pump is switched on.

16. The method as recited in claim 14, further comprising: measuring the pressure in the high-pressure accumulator, and activating a pressure control if the pressure in the high-pressure accumulator exceeds a preset limiting value.

17. The method as recited in claim 14, wherein the method includes that even upon a change of the test step, in case of a modification of the setpoint pressure, not to reduce the pressure in the high-pressure accumulator to below a predetermined minimum pressure.

18. The method as recited in claim 17, wherein the predetermined minimum pressure is a pressure of 200 bar.

19. The method as recited in claim 11, further comprising: activating a metering unit of the high-pressure pump with a frequency of 1 Hz to 10 Hz.

20. The method as recited in claim 19, wherein the frequency is 2 Hz.

21. The method as recited in claim 16, further comprising: activating a metering unit of the high-pressure pump with a frequency of 1 Hz to 10 Hz prior to the beginning of the test steps.

22. The method as recited in claim 21, wherein the frequency is 2 Hz.

23. An apparatus for testing a high-pressure pump, comprising: a fluid reservoir designed to make a fluid available; a low-pressure pump designed to convey fluid from the fluid reservoir into a high-pressure pump to be tested; a high-pressure accumulator connected to a high-pressure output of the high-pressure pump; a pressure regulating valve designed to regulate pressure in the high-pressure accumulator; and a control device designed to control the low-pressure pump, the high-pressure pump to be tested and the pressure regulating valve, wherein the control device is designed to control the low-pressure pump, the high-pressure pump to be tested and the pressure regulating valve in such a way that the apparatus causes the high-pressure pump to fill with a fluid prior to switching it on.

24. The apparatus for testing a high-pressure pump as recited in claim 23, wherein the apparatus has at least of at least one flow sensor and pressure sensor which is designed to measure at least one of a flow rate and a pressure of fluid that has been delivered by the high-pressure pump, and to make the measuring result available to the control device.

Description

BRIEF DESCRIPTION OF THE DRAWING

[0022] The invention is explained in greater detail below on the basis of the Figure, which shows a schematic view of one exemplary embodiment of a testing apparatus 1 for a high-pressure pump 8.

DETAILED DESCRIPTION OF EXAMPLE EMBODIMENTS

[0023] Testing apparatus 1 includes a tank 2 for storing and making a fluid (“test oil”) available, which is removed from tank 2 during operation by a low-pressure pump 4 and supplied through a low-pressure line 26, which is connected to the output of low-pressure pump 4, to high-pressure pump 8 to be tested. High-pressure pump 8 includes at its input, which is connected to low-pressure line 26, a metering unit 6 that is designed to supply fluid, delivered by low-pressure pump 4, in metered fashion to high-pressure pump 8.

[0024] The output side of high-pressure pump 8 is connected via a high-pressure line 24 to a high-pressure accumulator (“common rail”), which during operation, is filled with fluid by high-pressure pump 8.

[0025] In addition, high-pressure pump 8 has a first return line 16 which makes it possible to return excess fluid that is used to cool and lubricate high-pressure pump 8 but is not supplied to high-pressure accumulator 10, back into tank 2.

[0026] Provided at an output/outlet of high-pressure accumulator 10 is at least one pressure regulating valve 14 which, by altering the cross-section of the outlet of high-pressure accumulator 10, makes it possible to set the fluid pressure in high-pressure accumulator 10 to a desired value.

[0027] An output side of pressure regulating valve 14 is connected to a second return line 22, through which the fluid from high-pressure accumulator 10 is returned to tank 2.

[0028] A control device 20 is connected via control lines 5, 7, 9, 15, which may be implemented electrically, mechanically, hydraulically or pneumatically, to low-pressure pump 4, metering unit 6, high-pressure pump 8 and pressure regulating valve 14, and is equipped to control these components during operation via control lines 5, 7, 9, 15 in such a way that testing device 1 carries out the desired test procedure.

[0029] In addition, provided on high-pressure line 24 and/or at high-pressure accumulator 10 is at least one sensor 12, which measures the pressure and/or the flow of the fluid in high-pressure line 24, and makes the result available to control device 20.

[0030] Moreover, on each of the two return lines 16, 22, a return-flow sensor 18, 28 is provided, which measures the pressure and/or the flow through respective return line 16, 22 and makes its measuring results available to control device 20.

[0031] Before high-pressure pump 8 is started, it is filled with fluid from tank 2 by operation of low-pressure pump 4. To that end, low-pressure pump 4 generates a fluid pressure which is greater than the opening pressure of the internal valves of high-pressure pump 8. High-pressure pump 8 is started only after a delivery quantity and/or a return-flow quantity has/have been measured at the outputs of high-pressure pump 8 by sensors 12, 18.

[0032] In this manner, it is ensured that the contact point between the cam and the roller of the pump mechanism of high-pressure pump 8 is moistened with fluid before high-pressure pump 8 is started, so that lubrication of high-pressure pump 8 is guaranteed, and in particular, grinding of the roller during the start-up of high-pressure pump 8 is reliably avoided.

[0033] Already prior to the start-up of high-pressure pump 8, pressure regulating valve 14 is acted upon by current and is thereby at least partially closed, so that during the start-up of high-pressure pump 8, especially already after one half revolution of high-pressure pump 8, an elevated pressure of, e.g., 200 bar is obtained in high-pressure accumulator 10.

[0034] As soon as the pressure in high-pressure accumulator 10 or in high-pressure line 24 exceeds a preset limiting value, the control is switched to a precise pressure control in order to adjust the desired pressure in high-pressure accumulator 10. The lubrication of high-pressure pump 8 is also improved by this measure, and the rubbing of the roller on the cam during the start-up of high-pressure pump 8 is minimized. Moreover, the contact between the roller and the cam is improved, which means high-pressure pump 8 is more impervious to dirt or other disturbances.

[0035] When changing between various test steps, which are associated with a different rotational speed of high-pressure pump 8 and/or a different pressure in high-pressure accumulator 10, the pressure in high-pressure accumulator 10 and in high-pressure line 24 is not reduced to below a predetermined minimum pressure of, e.g., 200 bar, in order to maintain sufficient lubrication of high-pressure pump 8 and to minimize the rubbing of the roller on the associated cam.

[0036] After the warm-up of high-pressure pump 8 and still prior to the beginning of the actual test procedure, metering unit 6 is activated in clocked fashion, for example, with a frequency in the range of 1 Hz to 10 Hz, especially 2 Hz. Air is evacuated from high-pressure pump 8 by the clocked activation of metering unit 6, and faulty measurements, which may be caused by air trapped in high-pressure pump 8, are avoided. Moreover, an unwanted hysteresis of metering unit 6 is minimized, since sluggish behavior of metering unit 6, e.g., because of a gumming of the bearings, is prevented by the clocking.

[0037] As a consequence, the wear of high-pressure pump 8 to be tested is reduced, and measuring results are generated that are reproducible reliably and with high accuracy.