EP1091116A2 - Fuel supply device and fuel pump - Google Patents

Abstract

The fuel pump (5) has an electronic control unit and at least one hydraulic control input (13). Also the hydraulic control input (13) of the fuel pump is connected at the fuel supply line and-or the fuel return line. The control of the fuel pump is combined together with this to form a structural unit.

Description

The invention relates to a fuel supply device for an internal combustion engine, in particular as a fuel supply device in connection with a motor vehicle fuel tank, with at least one electrically operated fuel pump, which is arranged in a swirl pot and fuel from the surge pot into a fuel supply line to the engine promotes, and with at least one fuel return line from the engine or from a bypass in the fuel supply line.

Such fuel supply facilities can be found both at Motor vehicles with Otto engines as well as motor vehicles with diesel engines application. When designing such fuel supply systems it is important that the injectors of the engine under all driving and environmental conditions always be safely supplied with fuel. To do this, must all things be ensured that the Fuel pump always has a sufficient fuel supply even with a small amount remaining in the tank on fuel as well as in extreme driving situations, for example with extreme lateral or longitudinal inclination of the vehicle. Around To ensure this, it is common to put the fuel pump in to arrange a so-called surge pot, which acts as a reserve container serves from which fuel is constantly pumped to the engine becomes. This baffle should be in every driving situation be filled, which is usually arranged in the tank with suction jet pumps is accomplished via a fuel return line from the engine or with no-return fuel supply systems via a bypass from the fuel supply line branched return are driven. These suction jet pumps as auxiliary pumps constantly deliver fuel from the tank to the baffle.

Above the maximum full load quantity required by the engine a fuel pump also the return flow for feeding a suction jet pump and, if necessary, an additional quantity for Promote compensation of the hot conveyor waste.

Fuel supply devices are known, in which the fuel pump constantly a constant amount of fuel to the motor regardless of whether the motor is under Part load or full load is operated. At partial load operation this results in a relatively high return flow, but which may not be necessary at all, because for the surge tank is only slightly filled at partial load Return flow would be sufficient. In contrast, at full load operation a high volume flow from the tank into the baffle be promoted because the fuel pump from the baffle to the motor. But then there is a proportionate one low return flow because the engine uses a lot of fuel decreases.

In such systems, the pump must therefore be at the maximum possible Conveying capacity can be designed.

Such maximum funding is particularly against the background increased requirements for emissions from fuel supply systems not desirable. It is too not energetically sensible, an unnecessary excess fuel to promote. Eventually, the Evaporation losses and emissions due to unnecessary amounts in hot fuel flowing back the tank increases. With no-return Fuel supply systems face this problem Although not, the fuel pump must also be used with such Systems promote a maximum amount.

There are therefore various efforts to fuel pumps to regulate or control as required. This will a reduction in the electrical system load in a motor vehicle causes. For example, an adjustment of the pump delivery rate to the current demand via electronic speed control the pump can be achieved. It is also known the pump only cyclically using a hydraulic Fuel buffer to supply the injection valves to operate.

The known measures for regulating or controlling the fuel pumps are relatively expensive. To do this Interfaces to electronic engine management created become. Additional, separate control units are also required, between the engine electronics and a fuel pump or a fuel delivery module can be switched have to.

The invention is therefore based on the object of a fuel supply device of the type mentioned above to improve that a relatively simple and reliable control of the fuel pump guaranteed is.

The object is achieved according to the invention in that the Integrated electronic control and fuel pump has at least one hydraulic control input and that the hydraulic control input of the fuel pump to the Fuel supply line and / or to the fuel return line connected.

The invention makes itself in an advantageous manner Tank available information, d. H. the fuel pressures take advantage of forward or reverse, which directly to the in the Fuel pump integrated control electronics passed on become. A coupling of the fuel pump with an electronic one Engine management is so unnecessary.

The fuel pump is preferably controlled with it combined into one unit, so that essential elements the fuel supply device in the fuel tank are arranged. These advantages arise especially when the fuel pump with an electronically commutated DC motor is driven. Such building blocks are relatively small and include a close to the engine Control electronics.

The fuel pump expediently comprises at least one Pressure sensor that is operatively connected to the control input stands. The pressure sensor can either be based on the system pressure, i.e. H. the pressure in the fuel supply line or the dynamic pressure of the return.

It should be particularly emphasized here that not as a return necessarily only flowing back or returning from the engine Fuel is referred to, rather it is said to return in the sense of the invention also from the fuel supply Volume flow branched off to the engine in the tank for operation a suction jet pump to be understood. The invention is also on fuel supply systems generally referred to as non-return applicable.

There is preferably a calibration device in the return line provided whose dynamic pressure at the hydraulic Control input of the fuel pump is present.

For example, a suction jet pump can be connected to the return line for filling the baffle during operation of the Fuel pump connected, the suction jet pump is designed as a calibration device or as a calibration device serves. Based on the pressure change on the suction jet pump you can determine how big the unused one Is the amount of fuel in the engine. Does this back pressure affect the pressure sensor of the fuel pump, the return pressure or the driving quantity for the suction jet pump constant be held and the fuel pump adapts to each current consumption. This way it becomes reliable avoided that with increased fuel consumption on the engine, for example, at full load, which is in the baffle the amount of fuel delivered decreases or the engine runs out Fuel is supplied.

It will be apparent to those skilled in the art that a complete Downgrading the fuel pump is not possible because of a certain minimum amount of fuel flow for cooling the Electric motor of the fuel pump is required.

It can also be provided, for example, that the suction jet pump is designed so that the pressure in the return line can correspond to the pressure in the supply line, so that the pressure of the entire fuel pump control system is tapped. This measure can lead to a additional return pressure control valve between engine and tank to be dispensed with.

It is also possible to use a suction jet pump for filling of the baffle in a housing with the fuel pump as well as the associated control electronics, the suction jet pump via a reference bore with the in Pump housing provided pressure sensor can communicate.

The invention further relates to a fuel pump for a Internal combustion engine, in particular for a fuel supply device in a motor vehicle, with a DC motor and a pumping station as a fuel flow Assembly characterized by means for controlling the pump, the at least one hydraulic control input include and with the pumping station and the DC motor an assembly, preferably in a housing, summarized are.

The control preferably comprises at least one pressure sensor.

An electronically commutated can be used as a DC motor DC motor can be provided.

Such motors are described, for example, in U.S. Patent Nos. 4,949,000, 5,659,217 and 5,874,796, to the here full reference is made. In particular a DC motor according to US Patent 5,659,217 with radial gap arrangement is preferred.

The invention is described below with reference to two in the drawings illustrated embodiments explained.

Fig. 1

eine schematische Darstellung einer Kraftstoffversorgungseinrichtung gemäß der Erfindung mit Rücklaufleitung und Regelung der Kraftstoffpumpe über den Rücklaufstaudruck einer Saugstrahlpumpe,

Fig. 2

eine schematische Darstellung einer Kraftstoffversorgungseinrichtung gemäß der Erfindung mit Rücklaufleitung und Regelung der Kraftstoffpumpe über den Systemstaudruck,

Fig. 3

eine schematische Darstellung einer Kraftstoffpumpe gemäß der Erfindung und

Fig. 4

eine schematische Schnittansicht einer Saugstrahlpumpe.

Show it:

Fig. 1

1 shows a schematic representation of a fuel supply device according to the invention with a return line and control of the fuel pump via the return pressure of a suction jet pump,

Fig. 2

1 shows a schematic representation of a fuel supply device according to the invention with a return line and control of the fuel pump via the system back pressure,

Fig. 3

is a schematic representation of a fuel pump according to the invention and

Fig. 4

is a schematic sectional view of a suction jet pump.

The fuel supply device shown in FIGS. 1 and 2 comprises a tank labeled 1 with a feed line 2 to a motor vehicle engine 3 and with a return line 4 from the engine 3 back into the tank 1.

A fuel pump 5 is arranged in a tank 1 only schematically illustrated surge pot 6 and a suction jet pump 7, which is driven via the fuel return line 4 and fuel from tank 1 into the baffle 6 promotes as long as the fuel pump 5 is operated. A schematic view of the suction jet pump is shown in FIG. 4 shown.

In the embodiment shown in Fig. 1 the Fuel from the fuel pump 5 via a fuel filter 8 and a pressure regulator 9 to the motor 3. Between the engine 3 and the pressure regulator 9 is in the system pressure Of the order of magnitude between 2 and 6 bar. The pressure in the return line 4 is significantly lower. The fuel flow of the Return line 4 drives the suction jet pump 7, the Fuel of the return line 4 in a nozzle 10 of the suction jet pump 7 forms a propellant jet 11 which forms a suction jet 12 pulls from the tank 1 into the baffle 6.

The fuel pump 5 has a hydraulic designated 13 Control input that acts on a pressure sensor 14. The control input 13 is in the embodiment shown in FIG. 1 connected to the return line 4 and between the pressure regulator 9 and the suction jet pump 7, the nozzle 10 of the suction jet pump 7 as a calibration nozzle or Calibration device acts so that at the control input 13 Fuel pump 5 of the dynamic pressure of the suction jet pump 7 is present. The fuel pump 5 is expediently regulated such that the flow rate of the suction jet pump 7 constant is.

In the embodiment shown in FIG. 2 the nozzle 10 of the suction jet pump 7 a relatively small Diameter so that the design pressure for the suction jet pump 7 equal to the desired system pressure in the supply line 2 is. This way you can use the fuel pump 5 the system pressure can be controlled directly. This is the provided in the embodiment of FIG. 1 Pressure regulator 9 unnecessary. To limit the pressure peaks through z. B. heating fuel when turned off Fuel pump 5 and around the system pressure when switched off Fuel pump 5 maintained in the feed line 2 can between the suction jet pump 7 and the engine 3 in the return line 4, an electrically actuated shut-off valve 15 provided.

3 shows the construction of the fuel pump 5 according to the invention shown schematically. The fuel pump 5 includes a pumping station designated 16, which as a side channel pumping station is formed, an electronically commutated DC motor 17 and control electronics 18 for the DC motor 17. The control electronics 18, the DC motor 17 and the pumping station 16 are arranged in a housing 19. With 20 is the fuel inlet, with 21 the fuel outlet designated. The control electronics 18 include the pressure sensor 14, which can be addressed via the control input 13. The fuel pump 5 is from the fuel inlet 20 to the fuel outlet 21 flows completely with fuel, the Fuel cools the DC motor 17 during operation.

With 22 a check valve is designated, which when switched off Pump an empty line 2 or one Pressure drop in supply line 2 prevented.

Reference list

1

tank

2nd

Supply

3rd

engine

4th

Return line

5

Fuel pump

6

Swirl pot

7

Suction jet pump

8th

Fuel filter

9

Pressure regulator

10th

jet

11

Driving jet

12th

Suction jet

13

hydraulic control input

14

Pressure sensor

15

Shut-off valve

16

Pumping station

17th

DC motor

18th

Control electronics

19th

casing

20th

Fuel inlet

21

Fuel outlet

22

check valve

Claims (9)

Fuel supply device for an internal combustion engine, in particular as a fuel supply device in connection with a motor vehicle fuel tank, with at least one electrically operated fuel pump, which is arranged in a baffle and conveys fuel from the baffle into a fuel supply line to the engine, and with at least one fuel return line from the engine or from a bypass in the feed line, characterized in that the fuel pump (5) has an electronic control and at least one hydraulic control input (13) and in that the hydraulic control input (13) of the fuel pump (5) to the fuel feed line and / or the fuel return line is connected. Fuel supply device according to claim 1, characterized in that the control of the fuel pump (5) is combined with it to form a structural unit. Fuel supply device according to one of claims 1 or 2, characterized in that the fuel pump (5) comprises at least one pressure sensor (14) which is operatively connected to the control input (13). Fuel supply device according to one of claims 1 to 3, characterized in that a calibration device is provided in the return line (4), the dynamic pressure of which is applied to the hydraulic control input (13) of the fuel pump (5). Fuel supply device according to one of claims 1 to 4, characterized in that a suction jet pump (7) for filling the swirl pot (6) during operation of the fuel pump (5) is connected to the return line (4) and that the suction jet pump (7) acts as a calibration device serves. Fuel supply device according to one of claims 1 to 5, characterized in that the suction jet pump (7) is designed such that the pressure in the return line (4) can correspond to the pressure in the supply line (2). Fuel pump for an internal combustion engine, in particular for a fuel supply device in a motor vehicle, with a direct current motor and a pumping unit as a component through which fuel can flow, characterized by means for controlling the pump, which comprise at least one hydraulic control input (13) and with the pumping unit (16) and the direct current motor (17) to form an assembly, preferably in a housing (19). Fuel pump according to claim 7, characterized in that the control comprises at least one pressure sensor (14). Fuel pump according to one of claims 7 or 8, characterized in that an electronically commutated direct current motor is provided as direct current motor (17).

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