EP1566536A1 - Fuel supplying apparatus and method of controlling the supply of fuel - Google Patents

Abstract

Pressure controllers (28,30) open or close the connection of a shunt (24) to a fuel line (18) at a first pressure, and open or close the connection of a return line (22) with the fuel line at a second pressure. The pressure controller open the shunt and the return line when the pressure increases and close the shunt and return line when pressure drops. The fuel line leading to the internal combustion engine (20) is connected to an electric fuel pump (10) allocated to a fuel tank (14). The return line connected with the fuel line returns fuel towards the fuel pump. The shunt connected with the fuel line operates a sucking jet pump (26) arranged in the fuel tank. An independent claim is also included for a method for controlling fuel supply of internal combustion engine.

Description

The invention relates to a fuel supply system for supplying a Internal combustion engine, in particular of a motor vehicle, with fuel and a method for controlling the fuel supply of an internal combustion engine.

To supply an internal combustion engine with fuel, it is known a to arrange electric fuel pump in a fuel tank, which has a Fuel line promotes fuel to the internal combustion engine. From DE 199 48 170 A1 it is known, a portion of the pumped fuel via a derivative dissipate, so as to operate a suction jet pump. Through the operation the suction jet pump, it is possible a arranged in a swirl pot Fuel sufficient to supply fuel to the fuel pump Fuel pump enough fuel to supply the internal combustion engine promotes. Further, it is known to be a part of the fuel pump subsidized fuel via a return line to the fuel pump, especially attributable to the swirl pot. By being part of the Promoted fuel is conveyed in a circle, the cooling of the Fuel pump significantly improved.

In such fuel supply systems, the electric fuel pump and / or aware of the number of suction jet pumps used oversized to start the engine if only one low on-board voltage for operating the electric fuel pump available is to provide sufficient fuel. Due to oversizing Such fuel supply systems are expensive and require accordingly large space. Furthermore, it takes a very long time until after starting the desired operating state of the internal combustion engine is reached, since a large Part of the amount of fuel delivered not for the internal combustion engine but is used for the intended suction jet pumps.

Furthermore, it is known from DE 199 48 170 A1, the delivery rate of the electric Fuel pump in response to the pressure in the fuel line to regulate. Since in particular when starting the internal combustion engine, the course of the Board voltage is not fully known, is a reliable Fuel supply of the internal combustion engine by a regulation of Fuel pump not possible. To start even when the internal combustion engine Ensuring a reliable fuel supply is thus a deliberate one Oversizing the used fuel supply system required.

The object of the invention is to provide a compact fuel supply system and a method for controlling the fuel supply of an internal combustion engine to provide, respectively, when starting the internal combustion engine a reliable Ensuring fuel supply.

The object is achieved by a fuel supply system with the features of claim 1 and a method with the features of Claim 8.

The fuel supply system according to the invention for supplying a Internal combustion engine with fuel has an electric fuel pump, the a fuel tank, for example one half of a saddle tank assigned and in particular within the fuel tank or the saddle tank half is arranged. Connected to the fuel pump is a fuel line leads to the internal combustion engine. With the fuel line is a Return line for returning fuel to the fuel pump connected. For example, the recycled through the return line Fuel to the tank half of a saddle tank to which the fuel pump is assigned, returned and / or to a swirl pot, which the Fuel pump is assigned. With the fuel line is a derivative connected to supply the fuel pump one or more in the Fuel tank arranged to operate Saugstrahlpumpen. According to the invention the fuel supply system has a pressure control system that both the Connection of the derivative with the fuel line as well as the connection of Return line with the fuel line controls. The pressure control system opens, or closes the connection of the derivative to the fuel line at a first Pressure and opens, or closes the connection of the return line with the Fuel line at a second pressure, wherein the pressure control system the Discharge and the return line with increasing pressure opens and at falling pressure closes. This means that the derivative and the Return line at the start of the engine are closed and only after the electric fuel pump by pumping fuel in the Fuel line has built up a correspondingly high pressure, the Return line and the derivative are open.

Characterized in that according to the invention when starting the internal combustion engine both the return line and the drain are closed, the whole, when starting the engine relatively low, if any existing capacity alone to supply the internal combustion engine to Available. Because only the internal combustion engine is supplied at the start is, the internal combustion engine reaches its operating state very quickly, so that very quickly one to operate the electric fuel pump sufficient on-board voltage is achieved, reducing the pressure in the Fuel line rises very quickly and the return line and the Discharge correspondingly fast to the fuel supply of the fuel pump be opened. Thus, by the inventive Fuel supply system improved startup behavior of the Internal combustion engine achieved, whereby at the same time the electrical supply various electrical consumers, in particular the electrical Fuel pump, is improved. Furthermore, it is not necessary to have a to use oversized electric fuel pump, since at the start of the Internal combustion engine only the internal combustion engine is supplied and thus one lower flow rate is sufficient to provide a reliable fuel supply guarantee. The fuel supply system according to the invention can thus be designed very compact. In particular, the starting process of the Internal combustion engine with the aid of the invention Fuel supply system so fast that the particular in Baffle existing fuel is sufficient to start even without to accomplish the operation of a suction jet pump.

Preferably, the drain is opened for operation of the suction jet pump, before the return line is opened. The first print in which the Connection of the derivative to the fuel line is opened, so is lower as the second pressure, in which the connection of the return line with the Fuel line is opened so that the pressure control system different Operating pressures to branch fuel from the fuel line.

In a preferred embodiment, the pressure control system with the Derivative connected first pressure regulator and one with the return line connected second pressure regulator. The pressure regulators are in particular mechanical pressure regulator, such. B. check valves that at a certain Pressure, d. H. at the first pressure, or the second pressure to be actuated and the discharge, or return line in particular with a throughput open or close the proportional characteristic. With the help of two pressure regulators is a particularly simple and cost-effective pressure control system educated.

Alternatively, the pressure control system may have a 3/3-way valve on the input side with the fuel line and on the output side with each the return line and the derivative is connected. In a first Switching state of the 3/3-way valve are both the derivative and the Return line disconnected from the fuel line. In a second Switching state in which the 3/3-way valve switches at the first pressure, the drain is connected to the fuel line while the Return line remains closed. At the second pressure, the 3/3-way valve switches in a third switching state, in which both the derivative as also the return line are connected to the fuel line. If the first Pressure and the second pressure have the same amount, can also be a valve with only two switching states, d. H. a 3/2-way valve can be used at in a first switching state, the derivative with the return line are separated and in the second switching state, both the derivative and the return line are connected to the fuel line. Through the 3/3-way valve or 3/2-way valve, the pressure control system can be very compact and designed to save space.

For detection of the first pressure and the second pressure is Pressure control system preferably connected to a pressure measuring device, through which the pressure control system is controlled. In particular, the Control of the pressure control system, the pressure of the fuel line measured, so that the first pressure and the second pressure are pressures of the Fuel line is. The pressure measurement is preferably hydraulic, for example via a pressure measuring system with a baffle plate or the like.

Particularly preferably, the fuel line to a pressure-holding valve. The Pressure-holding valve is in particular as close as possible to the fuel pump arranged. Preferably, the pressure-maintaining valve closes directly to the Fuel pump, so that the pressure-holding valve between the fuel pump and the fuel line is arranged. By the pressure holding valve is achieved that after switching off the internal combustion engine as possible large part of the fuel line is filled with fuel, which is a pressure of has more than 1 bar. As a result, the fuel line is not only for Conveying fuel but also used for storing fuel because the fuel in the fuel line has a pressure, even without a Conveying the fuel pump to supply the internal combustion engine is sufficient.

Possibly. another pressure-holding valve, for example a retention valve, be provided to the area of the fuel line, which also after the Turning off the engine is under increased pressure, exactly to be able to define.

The invention further relates to a method for controlling the fuel supply an internal combustion engine, through the particularly simple an improved Starting behavior of a particular arranged in a motor vehicle Internal combustion engine is achieved. In the method according to the invention is First, the internal combustion engine started. With the start of the Internal combustion engine becomes the Bennkraftmaschine from a fuel having a fuel line connected to a fuel pump, provided. Thereafter, with the help of the fuel pump in the fuel Promoted fuel line. By pumping the fuel pump rises Pressure in the fuel line. Subsequently, a previously closed Discharge opened with the fuel line and at least one Suction jet pump is connected. The opening of the derivative takes place at a first pressure, which is chosen so that the internal combustion engine starts safely. As the discharge quantity increases, the pressure in the discharge increases in particular through the resistance of the suction jet nozzle (s) until the discharge pressure in Is substantially equal to the second pressure. After that, a previously closed return line, which is connected to the fuel line is and returns fuel to the fuel pump. Opening the Return line is at a second pressure, which is the design pressure, d. H. the operating pressure of the internal combustion engine is. If the first pressure and the second pressure is identical, the opening of the derivative and the Return line at the same time. Preferably, for the function of Suction jet pump (s) the first pressure lower than the second pressure, so that the Drain is opened before the return line.

To improve the fuel supply of the internal combustion engine, the Fuel line preferably when starting the internal combustion engine pressure of more than 1 bar. It will be so before starting the engine in the fuel line provided a pressure of more than 1 bar.

To end the operation of the internal combustion engine is preferably first the internal combustion engine switched off. As a result, the electrical Fuel pump is no longer supplied with electricity, the pressure drops in the Fuel line off. Subsequently, the return line at the second Pressure closed. Thereafter, at the first pressure, the derivative becomes closed. If the first pressure and the second pressure should be identical, the return line and the drain are closed simultaneously. To the closure of the derivative takes place in particular the process step that the Fuel line is closed by means of a pressure holding valve. Thereby the pressure in the fuel line remains slightly lower than the first one Pressure is exist. Particularly preferred is for the inventive Method as above-described fuel supply system used.

Fig. 1

zeigt ein erfindungsgemäßes Kraftstoffversorgungssystem in einer ersten Ausführungsform.

Fig. 2

zeigt das Kraftstoffversorgungssystem in einer zweiten Ausführungsform und

Fig. 3

zeigt das Kraftstoffversorgungssystem in einer dritten Ausführungsform.

In the following the invention will be explained in more detail with reference to the accompanying drawings with reference to preferred embodiments.

Fig. 1

shows a fuel supply system according to the invention in a first embodiment.

Fig. 2

shows the fuel supply system in a second embodiment and

Fig. 3

shows the fuel supply system in a third embodiment.

In a first embodiment of the invention Fuel supply system is an electric fuel pump 10 within a surge pot 12 is arranged in a tank 14, the tank 14 in the illustrated embodiment is a saddle tank. The fuel pump 10 is connected via a pressure-maintaining valve 16 to a fuel line 18, the an internal combustion engine 20 leads. With the fuel line 18 is a Return line 22 connected to the part of the fuel pump 10th subsidized fuel in the swirl pot 12 leads back. By doing that Part of the pumped fuel is conveyed in a circle, the cooling of the Fuel pump 10 improved. With the fuel line 18 is also a Discharge 24 connected via which a part of the pumped fuel to a Suction jet pump 26 is promoted. With the suction jet pump 26 is through the subsidized fuel entrained fuel from the tank 14 and in the Swirl pot 12 promoted. By the suction jet pump is ensured that for the fuel pump 10 sufficient fuel in the swirl pot 12 available is so that the fuel pump promotes no air.

The derivative 24 can be opened by means of a first pressure regulator 28 or getting closed. The first pressure regulator 28 is at a first pressure actuated, wherein at an increasing pressure in the fuel line 10 the Open connection to the drain 24 and a falling pressure in the Fuel line 18 is closed. Accordingly, the return line 22 a second pressure regulator 30, the connection between the Return line 23 and the fuel line 18 opens at a second pressure or closes. At a rising pressure in the fuel line 18 is the Connection of the return line 22 to the fuel line 18 is open and at a decreasing pressure in the fuel line 18 is closed.

By the pressure regulator 28, 30 is achieved that when starting the Internal combustion engine 20 when the electric fuel pump 10 is not yet is sufficiently supplied with power, the fuel line 18 only with the Internal combustion engine 20 is connected. This will result in a compact Construction of the fuel supply system according to the invention the start of Connecting motor 20 and the start of the fuel pump 10 accelerates, whereby the fuel supply of the internal combustion engine 20 is improved.

In a second embodiment (Fig. 2), the drain 24 and the Return line 22 via a common intermediate line 32 with the Fuel line 18 connected. The intermediate line 32 leads to a Branching 34 in the derivative 24 and the return line 22 of the Intermediate line 32 are connected. In the illustrated embodiment is Compared to Fig. 1, the first pressure regulator 28 by a first check valve 36 and the second pressure regulator 30 through a second check valve 38th educated. The check valves 36, 38 are in particular designed such the check valve 36 opens at a lower pressure than the second one Check valve 38.

In a third embodiment of the fuel supply system (FIG. 3) in comparison to the illustrated in Fig. 2 fuel supply system the Check valves 36, 38 and the branch 34 through a 3/3-way valve 40 replaced. On an input side 42 of the 3/3-way valve 40 is the Interconnect 32 connected and at an output side 44 of the 3/3 Route system 40 are the derivative 24 and the return line 24th connected. In a first switching state 46, the derivative 24 and the Return line 22 closed. In a second switching state is the Lead 24 open, d. H. connected to the fuel line 18 while the Return line 22 is closed. In a third switching state 50 are both the derivative 24 and the return line 22 is opened and with the Fuel line 18 connected.

When starting the internal combustion engine 20, the individual switching states 46, 48, 50 starting at the first switching state 46 through by at of the embodiment shown in FIG. 3, the 3/3-way valve 40 in the direction of the arrow 52 is moved. After switching off the internal combustion engine 42, the individual switching states 46, 48, 50 starting at the third Switching state 50 by passing the 3/3-way valve 40 in the direction of Arrow 54 is moved. To control the 3/3-way valve 40 is a Pressure measuring device 56 is provided which, depending on the in the Fuel line 18 measured pressure the individual switching states 46, 48, 50th controls.

The fuel supply system according to the invention thus has Pressure control system 58, which in the first embodiment (Fig two pressure regulators 28, 30, a second embodiment (Fig. 3) through the Branching 34 and the check valves 36, 38 and in the third Embodiment (Fig. 3) is formed by the 3/3-way valve 40.

Claims (13)

Fuel supply system for supplying an internal combustion engine (20) with fuel, with an electric fuel pump (10) associated with a fuel tank (14), a fuel line (18) connected to the fuel pump (10) and leading to the internal combustion engine (20), a return line (22) connected to the fuel line (18) for returning fuel to the fuel pump (10), a discharge line (24) connected to the fuel line (18) for operating a suction jet pump (26) arranged in the fuel tank (14) a pressure control system (58) which opens or closes the connection of the discharge line (24) to the fuel line (18) at a first pressure and opens or closes the connection of the return line (22) with the fuel line (18) at a second pressure; wherein the pressure regulating system (58) opens the discharge line (24) and the return line (22) with increasing pressure and closes with decreasing pressure. Fuel supply system according to claim 1, characterized in that the pressure control system (58) connected to the discharge line (24) first, in particular mechanical pressure regulator (28) and with the return line (22) connected second, in particular mechanical pressure regulator (30). Fuel supply system according to claim 1 or 2, characterized in that the pressure control system (58) has a 3/3-way valve (40), the input side (42) with the fuel line (18) and the output side (44) each with the return line ( 22) and connected to the drain (24). Fuel supply system according to one of claims 1-3, characterized in that the first pressure is lower than the second pressure. Fuel supply system according to one of claims 1 - 4, characterized in that the pressure control system (58) is connected to a pressure measuring device (56) which measures the pressure, in particular of the fuel line (18) for controlling the pressure control system (58). Fuel supply system according to one of claims 1-5, characterized in that the fuel line (18) in particular as close as possible to the fuel pump (10) has a pressure-holding valve (16). Fuel supply system according to one of claims 1-6, characterized in that the fuel pump (10) in a surge pot (12) is arranged, in which the discharge (24) and the return line (22) promote. Method for regulating the fuel supply of an internal combustion engine (20) with the steps: Starting the internal combustion engine (20), Supplying the internal combustion engine (20) with a fuel line (18) which has a fuel and is connected to a fuel pump (10), Conveying fuel into the fuel line (18) by means of the fuel pump (10), Opening a previously sealed, with the fuel line (18) and a suction jet pump (26) connected to derivative (24), at a first pressure and Opening a previously closed return line (22) connected to the fuel line (18) for returning fuel to the fuel pump (10) at a second pressure. The method of claim 8, wherein the fuel in the Fuel line (18) when starting the internal combustion engine (20) a Pressure of more than 1bar. The method of claim 8 or 9, wherein the first pressure is lower as the second pressure is. Method according to one of claims 8 - 10, wherein after opening the return line (22) the steps Switching off the internal combustion engine (20), Closing the return line (22) at the second pressure and Close the drain (24) at the first pressure. The method of claim 11 wherein after closing the drain (24) the step Close the fuel line (18) by means of a pressure holding valve (16). Method according to one of claims 8 - 12, wherein a Fuel supply system according to one of claims 1-7 used becomes.

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