DE19630938A1 - Fuel supply line fuel volume-flow control valve - Google Patents

Abstract

For motor vehicle with common-rail fuel injection - has throttle provided in by=pass line which also contains controlled switching valve

Description

The invention relates to a fuel supply line with a Vo Lumen flow control valve to a high pressure pump according to the upper Concept of claim 1, 5, 10 and a volume flow Gel valve according to the preamble of claim 11.

A fuel line for a high pressure pump is in egg a motor vehicle, for example for a common rail Injection system that uses a high pressure accumulator for Has fuel connected to the injectors are each supplied with fuel, the under High pressure stands.

A fuel feed line is already part of EP 0 481 964 A2 a volume flow control valve for a high pressure pump knows, are provided in the means that prevent if the volume flow control valve is damaged large pressure is generated in the high pressure accumulator, which leads to a Damage to the high-pressure accumulator.

This device comprises a volume flow control valve with egg Nem locking member, which is at rest from a spring to egg NEN valve seat is pressed and is closed. A The volume flow control valve is opened via an elec tromagnet, which lifts the closing element from the valve seat and so that the volume flow control valve opens.

The closing member and the valve seat are designed such that if the spring breaks, the closing member at an suction process of the high pressure pump in an open state goes and during a compression process of the high pressure pump Closing member is pressed onto the valve seat and thus the High pressure pump supplies fuel to the high pressure accumulator. To  a special tax procedure is envisaged, the Electromagnets depending on the operating state of the high controls the pressure pump accordingly and thus a pressure relief Hung in the high pressure accumulator prevents the high pressure could damage. Now falls the tax procedure of the Electromagnets out, there is a possibility that the High pressure accumulator is overloaded.

The object of the invention is based on failure of the control of the volume flow control valve a supply of the Ensure high pressure storage with fuel.

The object of the invention is characterized by the features of the Proverbs 1, 5 and 10 solved. The features of claim 11 be also attribute an advantageous volume flow control valve Use with a fuel supply line.

A major advantage of the invention is that an emergency despite a failure of the volume flow control valve Supply of the high pressure pump and thus the internal combustion engine ne with fuel is still guaranteed, so it despite failure of the volume flow control valve for the driver a motor vehicle is possible, the closest plant instead of reaching.

Advantageous developments and improvements of the invention are specified in the subclaims.

The invention is illustrated by the figures; it demonstrate:

Fig. 1, a fuel supply line with a bypass throttle,

Fig. 2 is a fuel supply line with a switching valve before the bypass throttle,

Fig. 3 is a fuel supply line with a flow control valve with a residual opening cross-section,

Fig. 4 shows a fuel supply line with a Absteuerdrossel to the fuel tank,

Fig. 5 is a flow control valve with the zero crossing,

Fig. 6 is a normally open flow control valve,

Fig. 7 is a normally closed flow control valve,

Figure 8 is cut. A volume flow control valve with a residual opening cross,

Fig. 9 is a volume flow control valve with zero crossing and

Fig. 10 shows another, normally open, volume flow control valve.

Fig. 1 shows a fuel supply line to a high-pressure pump 3 , in which the inlet of a prefeed pump 1 to a fuel tank 9 and the outlet is connected to a volume flow control valve 2, which is connected via a supply line 7 to the high-pressure pump 3 . Parallel to the volume flow control valve 2 , a bypass line 8 with a throttle 11 is arranged between the prefeed pump 1 and the high pressure pump 3 . In parallel to the pre-feed pump 1 , a Vordruckre gelventil 6 is provided, which sets a predeterminable pre-pressure after the pre-feed pump 1 . The high-pressure pump 3 is connected via a high-pressure line 17 to a high-pressure accumulator 4 , which supplies fuel injectors 10 . The high-pressure line 17 is connected to the fuel tank 9 via an exhaust line 18 and a pressure control valve 5 . The control line 18 and the pressure control valve 5 are not provided in egg ner simpler version. Likewise, in a simple embodiment of the invention, the bypass line 8 is designed without a throttle 11 .

The volume flow control valve 2 is biased by a spring and can also be controlled by a control unit via an electromagnet. The spring and the electromagnet are designed such that if the electromagnet fails, the volume flow control valve is closed by the spring and is therefore closed in the de-energized state.

The arrangement of FIG. 1 works as follows: If the control via the electromagnet fails, the volume control valve 2 is closed and fuel is supplied from the feed pump 1 via the bypass line 8 and preferably the throttle 11 of the high-pressure pump 3 .

Preferably, the throttle 11 is designed in its cross section such that with an undamaged volumetric flow control valve 2 it is ensured that the amount of fuel supplied via the bypass line 8 of the high-pressure pump 3 is not greater than is necessary for idling the internal combustion engine. If the throttle 11 is not arranged, the cross section of the bypass line 11 is preferably designed such that the amount of fuel supplied via the bypass line 8 to the high-pressure pump 3 is not greater than is necessary for idling the internal combustion engine.

Is, as shown in Fig. 1, preferably a pressure control valve 5 is provided, the throttle 11 or, if no throttle 11 is arranged, the bypass line 8 have a larger opening cross section, since the excess fuel via the pressure control valve 5 to the fuel tank 9th is returned to. Since the throttle 11 in this embodiment has a larger opening cross section, a greater pressure can be generated in the high-pressure accumulator 4 if the volume flow control valve 2 fails, which enables a higher engine output.

Fig. 2 shows an arrangement corresponding to Fig. 1, but each additionally in the bypass line 8 between the pre-feed pump 1 and the throttle 11, a first switching valve 12 is arranged, which can be controlled by a control unit via an electroma. The throttle 11 , the diverter line 18 and the pressure control valve 5 are only optional in this exemplary embodiment. The first switching valve 12 is either open or closed when de-energized, so that it is either opened or closed, for example, by a spring force without activation.

The operation of Fig. 2 is explained in more detail below: In the event that no pressure control valve 5 is arranged and the first switching valve 12 is designed as normally closed, the following function results: If the volume flow control valve 2 fails, then Volume flow control valve 2 of the high pressure pump 3 is supplied with no fuel. Consequently, the first switching valve 12 , which is de-energized closed, is opened by a control pulse from the control unit, so that the high-pressure pump 3 is supplied with fuel via the bypass line 8 . The bypass line 8 or the throttle 11 are dimensioned so that in the worst case, ie in overrun mode without injection, the fuel flow delivered by the high-pressure pump 3 can be reduced by the internal leakage points, so that the permissible fuel pressure in the injection system 4 is not exceeded .

If fuel is now injected, the fuel pressure in the high-pressure accumulator 4 drops the faster the higher the engine speed and the engine load. Since the system's internal leakage flows decrease with decreasing fuel pressure, operation at low to medium engine speeds and under partial load is possible in this way.

If the pressure falls below a minimum permissible fuel pressure, which is measured via a pressure sensor in the high-pressure line 17 or in the high-pressure accumulator 4 , the injection quantity is limited.

If the switching valve 12 is designed to be open when de-energized, it offers additional security, since switching of the switching valve 12 is not necessary in order to ensure that the high-pressure pump is supplied with fuel if the control of the volume flow control valve fails.

The use of a pressure control valve 5 offers the advantage, both in the arrangement of a normally closed and a normally open switching valve 12 , that the opening cross-section of the bypass line 8 or the throttle 11 can be made larger, because of the larger opening cross-section of the throttle 11 caused higher fuel pressure in the high pressure accumulator 4 is reduced via the pressure control valve 5 . By a larger opening cross-section of the volume control valve 2 is a larger amount of fuel fed to the high pressure pump 3 in case of failure.

Fig. 3 shows a fuel supply line with a pre-feed pump 1 , the inlet to a fuel tank 9 is ruled out and the drain is guided to a second volume flow control valve 21 , which has a residual opening cross section in the closed state, which is open. The two te volume flow control valve 21 is connected via a feed line 7 to a high-pressure pump 3 , which is connected via a high-pressure line 17 to a high-pressure accumulator 4 , which supplies the injection valves 10 with fuel.

In a preferred embodiment of the invention, the high pressure line 17 is connected to the fuel tank 9 via a control line 18 and a pressure regulating valve 5 . A pre-pressure control valve 6 is arranged parallel to the pre-feed pump 1 .

. The arrangement of Figure 3 operates without pressure control valve 5 as follows: In case of failure of the drive of the two-th volume control valve 21, the second volume flow is brought control valve 21 via a spring to a closed position, wherein the residual opening cross-section remains open so that the high pressure pump 3 of the feed pump 1, even in the event of a failure, the control of the volume flow control valve 21 is still supplied with a predeterminable amount of fuel and thus operation of the internal combustion engine is possible.

Is a pressure control valve 5 is provided, the Restöff is voltage section of the second volume control valve 21 RESIZE SSER chosen because thus a larger print area is memory in the high pressure 4 is predetermined and the surplus fuel via the pressure control valve 5 Retired to the fuel tank. 9

Fig. 4 shows a fuel supply line with a pre-feed pump 1 , the inlet to the fuel tank 9 and the outlet to a second volume flow control valve 21 with cross-section are opening. A pre-pressure control valve 6 is provided parallel to the pre-feed pump 1 . The output of the second volume flow control valve 21 is fed via a feed line 7 to an inlet valve 15 which is connected to the high pressure pump 3 . In a preferred embodiment, the inlet valve 15 is integrated in the high pressure pump 3 . The high-pressure pump 3 is connected via a high-pressure line 17 to a high-pressure accumulator 4 , which supplies fuel injectors 10 .

In a preferred embodiment, the high-pressure line 17 is returned to the fuel tank 9 via an exhaust line 18 and a pressure control valve 5 .

The supply line 7 is connected via a return line 13 , an exhaust throttle 14 and a switching valve 16 to the fuel tank 9 . The switching valve 16 is either designed as normally open or as normally closed.

The operation of the arrangement of FIG. 4 is explained in more detail in the following: In a first embodiment, the switching valve 16 is designed as open when de-energized and there is no control line 18 and no pressure control valve 5 angeord net. In this case, if the second volume flow valve 21 functions correctly, fuel is supplied to the inlet valve 15 , which is partly returned to the fuel tank 9 via the cut-off throttle 14 and the normally open switching valve 16 . The inlet valve 15 is only opened when the pressure in the supply line 7 exceeds a predeterminable minimum pressure and then fuel is fed to the high-pressure pump 3 . Now drops the second volume control valve 21, so fuel is supplied only via the residual opening cross-section in the feed line 7, so that the switching valve has to be closed 16 to it, so that the small amount of fuel, which flows via the residual opening cross-section of the second Volu menstromregelventils 21, leads to a corresponding fuel pressure, which opens the inlet valve 15 , so that the high pressure pump 3 is supplied with fuel.

A preferred embodiment of the invention is to design the switching valve 16 as closed when de-energized, since the switching valve 16 is then automatically closed in the event of a failure of the control, but control and opening of the switching valve 16 is necessary for regular operation.

A further improvement of the invention is achieved by using a pressure control valve 5 , via which excess fuel is returned from the high-pressure line 17 to the fuel tank 9 . In this way, too high a fuel pressure in the high-pressure accumulator 4 is reliably avoided.

Fig. 5 shows a fuel supply line with a pre-feed pump 1 , the inlet of which is connected to a fuel tank 9 and the outlet of which is connected to a third volume flow control valve 22 with zero passage, in which a residual opening cross-section is open without activation, which when activated, ie opening the third volume flow control valve 22 is first closed and then another opening cross section is opened. The remaining opening cross section and the further opening cross section are preferably formed separately.

A pre-pressure control valve 6 is arranged parallel to the pre-feed pump 1 . The output of the third volume flow control valve 22 is connected via a feed line 7 to a high-pressure pump 3 , which is connected via a high-pressure line 17 to a high-pressure accumulator 4 , which supplies the injection valves 10 with fuel. In a preferred embodiment, the high-pressure line 17 is connected to the fuel tank 9 via an exhaust line 18 and a pressure control valve 5 .

The operation of the arrangement of FIG. 5 is explained in more detail in the following: The third volume flow control valve 22 is designed such that if the control fails, the third volume flow control valve 22 opens a predeterminable residual opening cross section, which is closed when the third volume flow control valve 22 is activated and then another opening cross-section is opened. This offers the advantage that the third volume flow control valve 22 is opened for a predetermined cross-section of the control in the event of a failure of the control. In this way it is achieved that even if the third volumetric flow control valve 22 of the high-pressure pump 3 is still supplied with sufficient fuel to operate the internal combustion engine.

Fig. 6 shows a fuel supply line with a pre-feed pump 1 with a pre-pressure control valve 6 , wherein the pre-feed pump 1 is ruled out to a fourth volume flow control valve 23 , which is open in the de-energized state. The output of the fourth volume flow control valve 23 is connected via a supply line 7 to a high-pressure pump 3 via a high-pressure line 17 to a high-pressure accumulator 4 , which supplies fuel to injection valves 10 . The high-pressure line 17 is also connected to the fuel tank 9 via a cut-off line 18 and a pressure control valve 5 .

Since the fourth volume flow control valve 23 is open in the de-energized state, a fuel supply to the high-pressure pump 3 is ensured even if the control of the fourth volume flow control valve 23 fails. Too high fuel pressure in the high-pressure accumulator 4 is avoided in that excess fuel is returned to the fuel tank 9 via the control line 18 and the pressure control valve 5 .

Fig. 7 shows two embodiments showing a normally closed flow control valve 2 with a housing 34 into which a plunger rod is inserted 39 with two mutually parallel and in the axial direction against each other spaced slides 31, 41, wherein the first and over the second slide 31, 41 and the housing 34 define a control chamber 38 . The slide rod 39 is connected to an anchor plate 40 which is arranged near a controllable electromagnet 33 with which the slide rod 39 can be moved. In the Ge housing 34 , an inlet 35 and an outlet 36 is introduced, where in the closed state the outlet 36 is closed by the first slide 31 . The inlet 35 is to be connected to the pre-feed pump 1 and the outlet 36 to the high pressure pump 3 .

Within the housing 34 , a spring 32 is net angeord such that the first slide 31 closes the outlet 36 when the electromagnet 33 is not energized, ie when the first volume flow control valve 2 is in the de-energized state. In the housing 34 are in the areas which are separated by the first or the second slide 31 , 41 from the control chamber 38 , leakage openings 37 are introduced, which discharge fuel that leaks from the control chamber 38 through the sealing areas between the first slide 31 and the housing 34 or between the second slide 41 and the housing 34 are formed.

In a first embodiment, the armature plate 40 is attached above the electromagnet 33 in FIG. 7a. In a second embodiment, the electromagnet 33 , as shown in FIG. 7b, is arranged between the armature plate 40 and the second slide 41 in the housing 34 .

Figs. 8a and 8b show a second volume flow control valve 21 having a residual opening cross-section in the closed state, wherein the residual opening cross-section is formed by that the first slide 31 is pressed in the currentless state of the spring 32 into a closed position in which the flow 36 does not is completely closed, but has a predeterminable residual opening cross section. In this way it is achieved that in the event of failure or when the electromagnet 33 is not actuated, a residual opening cross section of the second volume flow control valve 21 remains open.

Which is arranged to Figs. 9a and 9b show a third flow control valve 22 with the zero crossing, in which in comparison to which it most and second volume flow control valve of Fig. 7 and 8 in the housing 34, a second flow is introduced 42, that in the deenergized state, ie when the solenoid 33 is not actuated, the second outlet 42 is connected to the control chamber 38 and thus in the deenergized state fuel reaches the control chamber 38 via the inlet 35 and is supplied to the high pressure pump 3 via the second outlet 42 . The first drain 36 is closed by the first slide 31 in the non-current state. The second drain 42 is arranged with respect to the second slide 41 such that when the solenoid 33 is energized, first the second drain 42 is closed by the second slide 41 and, when the electromagnet 33 is actuated more strongly, the first drain 36 from the first slide 31 ge opens so that the fuel supplied via the inflow 35 fuel is guided to the high pressure pump 3 via the first outlet 36 .

Fig. 10 shows a fourth volume flow control valve 23 , the first and second slide 31 , 41 are arranged such that both the inlet 35 and the outlet 36 are connected to the control chamber 38 in the de-energized state and the fuel which via the inlet 35 of the Control chamber 38 is supplied, via the outlet 36 to the high-pressure pump 3 is passed on white. The first and the second slide 31 , 41 are held by the spring 32 in a corresponding rest position.

If the electromagnet 33 is energized, the first and the second slide 31 , 41 against the force of the spring 32 in Rich direction on the drain 36 is moved so that the drain 36 is closed by the first slide 31 . The fourth volume flow control valve 23 causes fuel to be supplied to the high-pressure pump 3 when the electromagnet 33 is not actuated.

Claims (11)

1. Fuel supply line for a high-pressure pump ( 3 ), which is guided by a pre-feed pump ( 1 ) via a volume flow control valve ( 2 ) to the high-pressure pump ( 3 ), characterized in that

• - That parallel to the volume flow control valve ( 2 ) from the feed pump ( 1 ) to the high-pressure pump ( 3 ), a bypass line ( 8 ) is guided, which ensures the high-pressure pump ( 3 ) with fuel in the event of a failure of the volume flow control valve ( 2 ).

2. Fuel supply line according to claim 1, characterized in that a throttle ( 11 ) is arranged in the bypass line ( 8 ). 3. Fuel supply line according to claim 1, characterized in that a controllable Schaltven valve ( 12 ) is arranged in the bypass line ( 8 ). 4. Fuel supply line according to claim 1, characterized in that the high-pressure side output of the high-pressure pump ( 3 ) to a high-pressure accumulator ( 4 ) and to a control line ( 18 ) with a pressure control valve ( 5 ) is connected, and that via the control line ( 18 ) excess fuel can be removed. 5. Fuel supply line for a high-pressure pump ( 3 ), which is guided by a pre-feed pump ( 1 ) via a volume flow control valve ( 21 ) to the high-pressure pump ( 3 ), characterized in that

• - That the volume flow control valve ( 21 ) has a residual opening cross-section ( 36 , 42 ), which was in the uncontrolled state of the volume flow control valve ( 21 ) is opened so that fuel via the residual opening cross-section ( 36 , 42 ) of the high pressure pump ( 3 ) is supplied .

6. Fuel supply line according to claim 5, characterized in that the residual opening cross section in the form of a second drain opening ( 42 ) is formed separately from a first drain opening ( 36 ), and that the second drain opening ( 42 ) is closed when the first drain opening ( 36 ) is opened. 7. Fuel supply line according to claim 5, characterized in that between the volume flow control valve ( 21 ) and the high pressure pump ( 3 ) a return line ( 13 ) with the Zuführlei device ( 7 ) is connected, via which fuel can be removed. 8. Fuel supply line according to claim 7, characterized in that an exhaust throttle ( 14 ) and / or an ansteuerba res switching valve ( 16 ) in the return line ( 13 ) are provided. 9. Fuel supply line according to claim 8, characterized in that an inlet valve ( 15 ) is arranged at the low-pressure side input of the high-pressure pump ( 3 ), which only opens when the fuel pressure upstream of the inlet valve ( 15 ) is above a predetermined limit. 10. Fuel supply line for a high pressure pump ( 3 ), which is guided by a pre-feed pump ( 1 ) via a volume flow control valve ( 23 ) to the high pressure pump ( 3 ), characterized in that the volume flow control valve ( 23 ) is open in the non-activated state and thereby if the control fails, the high-pressure accumulator ( 3 ) continues to be supplied with fuel. 11. Volume flow control valve with a housing ( 34 ) with an inlet opening ( 35 ) and an outlet opening ( 36 ) which can be connected to a control chamber ( 38 ) and which can be controlled via regulating elements ( 31 , 41 , 33 ) in the opening cross section, since characterized in that a second drain opening ( 42 ) is made in the housing, that the drain opening ( 36 ), the second drain opening ( 42 ) and the control elements ( 31 , 41 , 33 ) are arranged such that either the second drain opening ( 42 ) or the drain opening ( 36 ) is open.