EP1008746B1 - Fuel injection system - Google Patents

Description

State of the art

The invention relates to a fuel injection system, especially common rail system, with a pre-feed pump, which turns a fuel flow from a fuel tank into a High pressure pump delivers, with a fuel filter related on the conveying direction downstream or upstream of the Prefeed pump is arranged.

In the operation of such fuel injection systems Failure symptoms on the pre-feed pump and on the High pressure pump has occurred. In the context of the present Experiments carried out according to the invention have been found that the failures of the high pressure pump on a Undersupply of fuel can be attributed.

The object of the present invention is a Provide fuel injection system in which the Lifetime of the pre-feed pump and the high pressure pump is increased. In particular, if the value is too low Damage to the engine of the high pressure pump be avoided.

The job is with a fuel injection system, especially common rail system, with a pre-feed pump, which turns a fuel flow from a fuel tank into a High pressure pump delivers, with a fuel filter related on the conveying direction downstream or upstream of the Pre-feed pump is arranged by a Protection circuit dependent on the fuel filter pressure difference solved. The inflow amount of the high pressure pump is essential from the delivery head to be provided by the pre-feed pump dependent. The head increases with the pollution of the Fuel filter due to increasing Flow resistance too. The delivery rate increases due from the pre-feed pump characteristic. A clogging of the Fuel filters are used in the well-known common rail systems not recognized in time, making it one of the failures described above can occur. Through the protection circuit according to the invention becomes an impermissible Avoid increase in discharge pressure. This will both the pre-feed pump and the high pressure pump are protected. It is also conceivable before and after the fuel filter Provide pressure sensors with which the differential pressure can be recorded.

This is a special embodiment of the invention characterized in that a valve device is provided, which is the fuel flow delivered by the pre-feed pump depending on the fuel filter pressure difference either back to the fuel tank or to the High pressure pump promotes. If the pressure is in the flow direction seen downstream of the fuel filter due to Pollution increases too much, the fuel flow from the feed pump no longer to the high pressure pump, but fed back into the fuel tank. Thereby the engine is switched off and the high pressure pump is protected.

Another special embodiment of the invention is characterized in that the valve means a Has valve housing in which a spring preloaded Control piston is reciprocable, depending on a shut-off hole from the fuel filter pressure difference in the valve housing through which the from the pre-feed pump delivered fuel flow reaches the high pressure pump, or releases a pilot hole in the valve housing, through which the delivered by the pre-feed pump Fuel flow gets back into the fuel tank. there the shut-off hole becomes a high pressure pump largely closed before the drain hole to Fuel tank is opened for quick shutdown upon reaching the critical To achieve fuel filter differential pressure. Through the Preload force of the spring can be critical Differential pressure value can be specified. Once this critical differential pressure value is reached, the Discharge hole in the valve housing released. At a the injection system works with a lower pressure difference normal.

Another special embodiment of the invention is characterized in that in a bypass that the Bypasses valve device, an expansion element arranged is. The protection circuit according to the invention would be at low Temperatures are also triggered by fueled fuel. Around Avoiding this is parallel to the valve device the expansion element arranged. The expansion element opens the bypass at low temperatures and ensures that the fuel flow delivered by the pre-feed pump reaches the high pressure pump.

Another special embodiment of the invention is characterized in that the valve device and / or the expansion element in a cover of the fuel filter are integrated. This makes it particularly compact Provided solution that is for a modular Suitable for construction.

Further advantages, features and details of the invention result from the following description, in which with reference to the drawing an embodiment the invention is described in detail. You can those mentioned in the claims and the description Features individually for themselves or in any Combination be essential to the invention.

In the attached figure this is the invention Fuel injection system based on a Hydraulic circuit diagram shown. From a fuel tank 1 is supplied by a pre-feed pump 2 via a line 3 Fuel sucked in. The fuel is used for Fuel supply to a diesel engine. In the protection circuit according to the invention is the Part of the low pressure circuit of a common rail Injection system. However, this protection circuit can used in principle with other injection systems in which the operation with too dirty Fuel filters should be avoided. Since the Fuel filter differential pressure flow rate and this usually depends on the engine speed, Function of the protection circuit initially only at high Engine speed, so that limited operation of the Engine at reduced speed and still permissible Pressure drop at the fuel filter remains possible.

Tests were carried out within the scope of the present invention carried out, where it was found that Damage to the pre-feed pump due to filter clogging may occur. It can happen that the Delivery pressure rises so high that one in the Prefeed pump integrated pressure relief valve responds. Place in the sealing seat of the pressure relief valve then pre-filter dirt particles become stuck, causing there is a permanent leak and that Delivery capacity of the pre-feed pump accordingly is affected.

The pumped comes from the pre-feed pump 2 Fuel flow via a line 4 to one Junction point 5. Junction point 5 connects line 4 with two lines 6 and 7. Line 6 leads to a fuel filter 8. In the fuel filter 8 is the one delivered by the pre-feed pump 2 Fuel flow cleaned. From the fuel filter 8 the delivered fuel flow passes through a line 9 to a further branch 20.

The branch point 20 connects the line 9 with two further lines 10a and 11. Arrived via line 11 the fuel flow delivered to a valve device 12. The valve device 12 has a valve housing 13 in which a control piston 14 can be moved back and forth is included. The valve housing 13 is over the Lines 7 and 11 both with the entry side as well connected to the outlet side of the fuel filter 8. The control piston 14 is in the by a spring 15 Valve housing 13 biased.

Depending on the fuel filter pressure difference changes the position of the control piston 14 in the Valve housing 13. In the shown in the figure The position of the control piston 14 is a shut-off bore 16 open. Through the shut-off bore 16, fuel from the outlet side of the fuel filter 8 via the Lines 9 and 11 get into a line 18. The administration 18 ends in a further branch point 19, from the a line 21 to a (not shown) High pressure pump leads.

If the pressure on the inlet side of the fuel filter 8 rises, this leads to the control piston 14 against the biasing force of the spring 15 in the Valve housing 13 is moved to the left. As a result, that the shut-off bore 16 through the control piston 14 is blocked. When the shut-off hole 16 is closed, can no more fuel via line 11 to the High pressure pump. The displacement of the control piston 14 to the left also causes a Discharge hole 17 released in the valve housing 13 becomes. This in turn has the consequence that the Pre-feed pump 2 delivered fuel flow over the Line 7 arrives in a line 22. Line 22 leads to a further branch point 23. In the Junction 23 also opens a line 24, the comes from the engine. The fuel from lines 22 and 24 is via the branch point 23 and a line 25th led back into the fuel tank.

The circuit according to the invention is used when reaching one predeterminable by the biasing force of the spring 15 Differential pressure value of the flow through the Fuel filter 8 shut off. In addition, the Pre-feed pump 2 delivered fuel flow to the Fuel tank 1 returned. This will make the engine turned off and the high pressure pump protected.

To switch off due to greasy fuel at low Preventing temperatures is parallel to that Shut-off hole 16 between line 10a and 10b Temperature-dependent switching valve 26 is arranged. The Valve 26 includes an expansion element 28, which in one Valve housing 27 is reciprocally received. Out a pin 29 enters the wax-filled expansion element 28 whose end is supported on the valve housing 27. On the the side opposite the pin 29 is that Expansion element 28 is formed piston-shaped, whereby the Connection of lines 10a and 10b at temperatures above interrupted the point of staining of the diesel fuel becomes. At lower temperatures, the preload force ensures Compression spring 31, which is arranged in the valve housing 27, for the expansion element 28 to the left against the pin 29 moved up to the stop element 32 and thereby the Connection between the lines 10a and 10b made becomes.

In the state of the shown in the figure Switch valve 26 can fueled fuel over the Line 10a and 10b to the high pressure pump. If the pin 29 due to heating from the expansion element 28 is pushed out, it is supported on the valve housing 27 from. A further expansion of the wax filling of the Expansion element 28 then leads to the fact that Expansion element 28 moved to the right and the line 10a is closed. Only when low Expect fuel temperatures with contaminated fuel is, the switching valve 26 ensures that the engine can continue to be operated.

The principle shown schematically in the figure will of course also work if the Pre-feed pump 2 arranged after the fuel filter 8 is. The fuel injection system shown, in particular its high pressure pump, is automatic, even at failure to change the filter, before dirty Protected fuel filter. With the fuel filter 8 it is a so-called main fuel filter. In addition to this main fuel filter is usually still a coarse-mesh pre-filter is used.

Operation of the engine with contaminated fuel is by the circuit according to the invention is not restricted. The Switching is basically reversible and allows appropriate software strategy a restricted Driving mode with low engine speed too.

Claims (5)

1. Fuel injection system, in particular common-rail system, having a prefeed pump (1) which feeds a stream of fuel to a high pressure pump from a fuel tank (2), a fuel filter (8) being arranged downstream or upstream of the prefeed pump (1) with respect to the feeding direction, characterized by a fuel-filter-pressure-difference-dependent protection circuit.
2. Fuel injection system according to Claim 1, characterized in that, in the protection circuit, a valve device (12) is provided which feeds the stream of fuel which is fed by the prefeed pump (1) either back into the fuel tank (2) or to the high pressure pump as a function of the difference in pressure in the fuel filter.
3. Fuel injection system according to Claim 2, characterized in that the valve device (12) has a valve housing (13) in which a spring-prestressed control piston (14) can be moved to and fro, said control piston (14) clearing, as a function of the difference in pressure in the fuel filter, a shut-off bore (16) in the valve housing (13), through which the stream of fuel fed by the prefeed pump (1) passes to the high pressure pump, or a spill port (17) in the valve housing (13) through which the stream of fuel which is fed by the prefeed pump (1) passes back into the fuel
4. Fuel injection system according to either of Claims 2 and 3, characterized in that an expansion element (26) is arranged in a bypass (10) which bypasses the valve device (12).
5. Fuel injection system according to one of Claims 2 to 4, characterized in that the valve device (12) and/or the expansion element (26) are integrated into a cover of the fuel filter (8).

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