DE19504217A1 - Vehicle fuel delivery system from container in vehicle tank to engine - Google Patents

Abstract

The device has a unit (16) to suck fuel from a container (14) which is arranged in a fuel tank (10) of a motor vehicle, and to feed it to an internal combustion engine (12). A pipe (20) is connected at least indirectly to the compression side of the unit, and opens into the tank. The pipe is also connected to a suction jet pump (22). A throttle (30) is arranged in the pipe, upstream of the pump. The pipe may branch off from compression side of the unit, and a valve (32) may be fitted upstream of the throttle, which is released if the pressure exceeds a predetermined value.

Description

State of the art

The invention relates to a device for conveying Fuel from a storage tank to the internal combustion engine nes motor vehicle according to the preamble of claim 1.

Such a device is known from DE 35 00 718 A1 knows. This device has one arranged in the storage tank Open the container and a conveyor sucking out of the container the unit that delivers fuel to the internal combustion engine. With the pressure side of the conveyor unit is at least medium bar connected a line that leads to the storage tank and to which a suction jet pump is connected, the force promotes material from the storage tank into the container. The lei device to which the suction jet pump is connected is one Return line from the internal combustion engine to the storage tank, by the funded by the conveyor, but by the Internal combustion engine back in the storage tank flows. The return line is at least indirectly via the internal combustion engine with the pressure side of the  Conveyor unit connected. The through the return line flowing fuel is under increased pressure and is under certain circumstances very warm, so that this when off occurs at the suction jet pump can evaporate. The ent standing gas bubbles can stop the operation of the suction jet pump affect.

Advantages of the invention

The device for conveying fuel according to the invention has the advantage that the throttle in the Line the pressure of the fuel at the suction jet pump right is reduced and thus the fuel when exiting the Suction jet pump tends to evaporate less and the loading drive behavior of the suction jet pump when the fuel is heated is improved.

Advantageous refinements and developments of the inventions device according to the invention are in the dependent claims specified.

drawing

Three embodiments of the invention are in the drawing shown and in the following description explained. Show it

Fig. 1 shows a device according ei for feeding fuel from a storage tank to the internal combustion engine of a motor vehicle, in a simplified representation nem first embodiment, Fig. 2 shows the device accelerator as a second embodiment and Fig. 3, the front of direction according to a third embodiment.

Description of the embodiments

In Figs. 1 and 2 is shown a device of a motor vehicle for feeding fuel from a storage tank 10 for the engine 12. The apparatus comprises a arranged close to the bottom 11 in the storage tank 10 and a container 14 arranged in the container 14 Förderaggre gat sixteenth The conveyor unit 16 consists of a pump part and a drive part, which are arranged in a common housing. The delivery unit 16 sucks fuel at its loading from the container 14 and conveys it through a pressure line 18 to the internal combustion engine 12 .

In the first embodiment shown in FIG. 1 branches off from the pressure line 18 , or directly from the pressure side of the delivery unit 16 , a line 20 which opens into the storage tank 10 . A suction jet pump 22 arranged in the storage tank 10 is connected to the branch line 20 . The suction jet pump 22 consists of a nozzle 24 connected to the branch line 20 and a mixer tube 26 arranged downstream of it with axial ab. Between the nozzle 24 and the mixing tube 26 , an annular opening 28 is present in the storage tank 10 . The nozzle 24 has a mouth section 25 toward the mixing tube 26 with a mouth cross section that is reduced compared to the cross section of the branch line 20 . The mixing tube 26 penetrates a side wall 15 of the container age 14 and extends with its end 24 remote from the nozzle 24 into the container 14 . From the nozzle 24 austre tending fuel tears through the opening 28 fuel from the storage tank 10 , which is conveyed into the container 14 , so that in the container 14 sufficient fuel supply is available from which the feed unit 16 sucks.

Upstream of the suction jet pump 22 , a throttle 30 is arranged in the branch line 20 , through which a pressure drop in the branch line 20 is brought about, so that fuel emerges at the nozzle 24 at a lower pressure than would be the case without the throttle 30 . The fuel emerging from the nozzle 24 therefore tends to evaporate less in the heated state, so that the operating behavior of the suction jet pump 22 is improved when the fuel is heated, that is to say it promotes a sufficient amount of fuel in the container 14 even when the fuel is heated. For example, a delivery pressure of about 300 kPa is generated by the delivery unit 16 on its pressure side and the throttle 30 is so dimensioned that its pressure drop causes downstream of the suction jet pump 22 only a pressure of about 50 kPa.

In the first exemplary embodiment according to FIG. 1, a pressure valve 32 can additionally be arranged in the branch line 20 or at the branch of the branch line 20 on the pressure side of the delivery unit 16 . The pressure valve 32 only releases the branch line 20 when a certain pressure on the pressure side of the delivery unit 16 is exceeded. By Druckven valve 32 ensures that at the beginning of the operation of the delivery unit 16 fuel is first conveyed through the Drucklei device 18 to the internal combustion engine 12 so that it can be started, and only then can fuel flow through the branch line 20 . The pressure valve 32 may have a spring-loaded closing member controlling the passage through the branch in a known manner, may have a closing member in the form of a membrane or may be designed as an electromagnetically actuated valve.

In Fig. 2, a second embodiment of the Vorrich device for delivering fuel is shown. It is arranged as in the first embodiment in the storage tank 10 of the container ter 14 , in which in turn the delivery unit 16 is arranged. The delivery unit 16 delivers fuel via the pressure line 18 to the internal combustion engine 12 . From the internal combustion engine 12 , a return line 40 leads back to the tank 10 before, through which the conveyor unit 16 transported, but not consumed by the internal combustion engine 12 , fuel is returned to the storage tank 10 . At the end of the return line 40 opening in the storage tank 10 , the suction jet pump 22 is connected, which, as in the first exemplary embodiment, has the nozzle 24 and the mixing tube 26 penetrating the wall 15 of the container 14 . In the return line 40 , the throttle 42 is arranged upstream of the suction jet pump 22 , by means of which a pressure drop is brought about in the return line 40 before the suction jet pump 22 . The return line 40 is connected indirectly via the internal combustion engine 12 to the pressure side of the delivery unit 16 . The throttle 42 causes, as in the first embodiment, that the heated fuel flowing through the return line 40 tends to evaporate less when exiting from the suction jet pump 22 due to the reduced pressure and thus the operating behavior of the suction jet pump 22 is improved with heated fuel .

In Fig. 3, a third embodiment of the Vorrich device for delivering fuel is shown. The storage tank 110 has at least two partial areas 150 and 152 , which are separated from one another by an elevation in the form of a hump 154 or saddle. Due to the bump 154 , fuel can no longer flow between the two sub-regions 150 and 152 as soon as the fuel level in the two sub-regions 150 and 152 is lower than the bump 154 . In a partial area 150 , the container 14 is arranged, from which the delivery unit 16 draws in and supplies fuel via the pressure line 18 to the internal combustion engine. In the portion 152 of the storage tank 110 , in which the container 14 is not arranged, the fuel line 156 opens, which, as in the first exemplary embodiment, can be a branch line branching off directly from the pressure side of the delivery unit 16 or, as in the second exemplary embodiment, one from the internal combustion engine return line returning to the storage tank 110 . At the fuel line 156 , the suction jet pump 22 is connected and upstream of the suction jet pump 22 , the throttle 158 is arranged in the fuel line 156 . Due to the suction jet pump 22, fuel is of the conveyed from the section 152 before rats tanks 110 in the other portion 150, in which the container 14 is disposed, so that the in the partial area 152 fuel located can be sucked from the delivery unit 16 at. A further suction jet pump 122 , which is connected to a further fuel line 160 , is provided in order to convey fuel from the partial region 150 of the storage tank 110 into the container 14 . The further fuel line 160 may in turn be a branch line or a return line and in this a throttle 162 is arranged upstream of the suction jet pump 122 .

Claims (5)

1. Device for conveying fuel from a storage tank to the internal combustion engine of a motor vehicle with a container ( 14 ) arranged in the storage tank ( 10 ; 110 ), with a fuel delivery unit ( 16 ) sucking in from the container ( 14 ) the fuel to the internal combustion engine ( 12 ) promotes, with a fuel line ( 20 ; 40 ; 156 ; 160 ) at least indirectly connected to the pressure side of the conveying unit ( 16 ), which opens into the storage tank ( 10 ; 110 ), and with one to the fuel line ( 20 ; 40 ; 156 ; 160 ) connected suction jet pump ( 22 ; 122 ), characterized in that in the fuel line ( 20 ; 40 ; 156 ; 160 ) upstream of the suction jet pump ( 22 ; 122 ) a throttle ( 30 ; 42 ; 158 ; 162 ) is arranged. 2. Device according to claim 1, characterized in that the fuel line ( 20 ) branches off from the pressure side of the delivery unit ( 16 ). 3. Apparatus according to claim 2, characterized in that upstream of the throttle ( 30 ), a pressure valve ( 32 ) is net angeord, which releases the fuel line ( 20 ) when a certain pressure is exceeded. 4. Device according to one of the preceding claims, characterized in that the suction jet pump ( 22 ) promotes fuel in the container ( 14 ). 5. Device according to one of claims 1 to 3, characterized in that the storage tank ( 110 ) has at least two partial areas ( 150 , 152 ) which are separated from one another by an elevation ( 154 ) that the container ( 14 ) in one Sub-area ( 150 ) is arranged and that the fuel line ( 156 ) opens into the other sub-area ( 152 ) of the storage tank ( 110 ) and promotes fuel from this into the sub-area ( 150 ) in which the container ( 14 ) is arranged.