DE10324957A1 - Device for delivering fuel from a reservoir to an internal combustion engine - Google Patents

Abstract

In known devices, a feed pump arranged in a storage container sucks fuel through a prefilter. At low temperatures, paraffin forms in the diesel fuel, which accumulates on a pot bottom of the storage container and can clog the prefilter when the vehicle is started, so that no fuel is delivered to the internal combustion engine and the vehicle cannot be started. DOLLAR A In the device according to the invention, the vehicle start at low temperatures is improved in a simple manner. DOLLAR A According to the invention, it is proposed that an additional prefilter (43) be provided upstream of the feed pump (7), which is at a greater distance from a pot bottom (14) of the storage container (4) than the prefilter (8) and the prefilter (8) connected in parallel is.

Description

The Invention is based on a device according to the preamble of the main claim.

It is already a device from the DE 100 44 610 A1 is known in which a feed pump arranged in a storage container sucks fuel through a prefilter. The problem with diesel fuel is that paraffin is formed in the diesel fuel at low temperatures. When the vehicle is started, the paraffin which has accumulated on the bottom of the storage container after a prolonged standstill clogs the prefilter, so that no fuel reaches the feed pump and the vehicle cannot be started.

From the EP 0 905 370 B1 It is known to arrange a heating element on the prefilter, which heats the fuel on the prefilter when the prefilter is clogged and dissolves the paraffin, so that the prefilter is permeable to the fuel again and the vehicle can start. The disadvantage is that the additional heating element is very expensive and complex.

Advantages of invention

The device according to the invention in contrast, with the characteristic features of the main claim Advantage that on easy way to start the vehicle at low temperatures is improved by an additional pre-filter upstream of the feed pump is provided which is a greater distance to a pot bottom of the storage container than the prefilter and is connected in parallel to the pre-filter. Since the paraffin after a longer one The vehicle comes to a standstill at the bottom of the storage container, blocked the additional pre-filter that draws in from a distance to the bottom of the pot much lower than the pre-filter, so that at least the additional pre-filter for the Permeable fuel remains. Thus, the fuel supply to the internal combustion engine guaranteed at vehicle start and the vehicle starts reliably.

By those in the subclaims listed activities are advantageous developments and improvements in the main claim specified device possible.

Especially It is advantageous if the additional prefilter is perpendicular to the bottom of the pot is arranged because fuel from areas with different Distance to the bottom of the pot can be sucked in and therefore the danger the complete Clogging of the additional prefilter is also reduced. If the Additional prefilter in a lower filter area facing the bottom of the pot clogged, is at least the top facing away from the bottom of the pot Filter area of the additional prefilter permeable to the fuel.

Also It is advantageous if the additional pre-filter on a pump holder is arranged because in this way in the pump holder in addition to the function the pump storage in the storage tank and the pre-filtering of the Fuel another function of bypass filtering when starting the vehicle is integrated.

In In an advantageous embodiment, the pump holder is pot-shaped, the prefilter in a pot bottom and the additional prefilter in one Scope of the pump holder is arranged. The additional pre-filter can also advantageously provided in or on a filter housing arranged on the pump holder his.

Very It is advantageous if the pump holder by means of holding arms the storage container is held.

In an advantageous embodiment the additional prefilter has a mesh size of 300 micrometers and is flat, arched or tubular educated. The distance of an upper edge of the filter facing away from the bottom of the pot the additional prefilter to the bottom of the pot is advantageously 45 millimeters.

drawing

Embodiments of the invention are shown in simplified form in the drawing and explained in more detail in the following description. Show it 1 on average a first embodiment and 2 a second embodiment.

description of the embodiments

1 shows an inventive device for conveying fuel from a reservoir to an internal combustion engine.

The device according to the invention has a in a storage container 1 arranged fuel delivery module 2 on. In the reservoir 1 is a fuel 3 , for example diesel fuel.

The fuel delivery module 2 consists of a cup-shaped storage container, for example 4 in which a feed pump 7 is arranged, the fuel for example via a prefilter 8th and an input channel 9 the feed pump 7 from the storage tank 4 into the feed pump 7 draws in and raises the pressure via an outlet channel 10 the feed pump 7 into a to an internal combustion engine 11 leading pressure line 12 promotes. The storage container 4 stores sufficient fuel to supply the internal combustion engine with fuel 11 through the feed pump 7 is ensured, even if, for example due to cornering and the resulting sloshing movements of the fuel in the reservoir 1 , no fuel in the storage tank 4 is promoted. The feed pump 7 is with the input channel 9 for example near a pot bottom 14 of the cup-shaped storage container 4 and the storage tank 4 for example near a tank bottom 15 of the storage container 1 arranged.

The feed pump 7 is a positive displacement pump, for example a roller cell pump, which is driven electrically by an actuator, for example an armature of an electric motor.

The storage container 4 has, for example, a first fill valve 16 on, for example in the bottom of the pot 14 of the cup-shaped storage container 4 is arranged. The first fill valve 16 opens when the level in the storage tank 4 is lower than in the storage container 1 , and leaves fuel in the reservoir 1 in the storage container 4 stream. The first fill valve 16 is designed, for example, as an umbrella-shaped check valve, which flows in the direction of the reservoir 1 closes.

So that the storage container 4 not from the feed pump 7 If it is sucked empty, fuel must continuously be drawn out of the reservoir 1 in the storage container 4 flow in. For this is in or on the storage container 4 at least one suction jet pump 17 provided the fuel from the reservoir 1 in the storage container 4 promotes. This is done by using fuel from a fuel line 18 as a propulsion jet into a mixing channel 21 injected. As is known, the propellant jet breaks when it enters the mixing channel 21 Fuel in the direction of flow, so that a negative pressure is created, the fuel from the reservoir 1 in the mixing channel 21 sucks. The fuel of the propellant jet and that from the reservoir 1 in the mixing channel 21 Intake fuel flows together through the mixing channel 21 in the storage container 4 ,

The power line 18 For example, excess fuel from the internal combustion engine 11 fed, the so-called return via the drive line 18 back into the storage tank 4 flowing back.

A suction jet pump is from, for example DE 198 56 298 C1 known, the content of which is expressly part of the disclosure of this application.

The feed pump 7 is, for example, in a pot-shaped pump holder 22 stored. The pump holder 22 has, for example, a pot-shaped inner cylinder 27 with an inner floor 28 and a cup-shaped outer cylinder 29 with an outside floor 30 on, with the cup-shaped inner cylinder 27 and the cup-shaped outer cylinder 29 For example, are arranged concentrically and spaced apart on the circumference. The inside floor 28 has at least one through opening 35 on. The cup-shaped outer cylinder 29 with the outside floor 30 encompasses the pot-shaped inner cylinder 27 on the inside floor 28 in the direction of the axial extension of the pot-shaped inner cylinder 27 and is on the outside floor 30 facing pot edge 31 of the outer cylinder 29 with the pot-shaped inner cylinder 27 connected in one piece. The cup-shaped inner cylinder 27 dominates the cup-shaped outer cylinder 29 with its axial length. Between the pot-shaped inner cylinder 27 and the cup-shaped outer cylinder 29 is an annular space 34 locked in.

The pump holder 22 points, for example, on the circumference of the inner cylinder 27 several holding arms 41 on that towards the storage tank 4 grab and hold the pump holder 22 on the storage tank 4 , for example near a container edge 42 of the storage tank 4 , fasten.

The feed pump 7 is in the pot-shaped inner cylinder 27 arranged flush, for example with an input channel 9 having end face on the inner floor 28 and dominates the pot-shaped inner cylinder 27 with its axial length in one from the inner bottom 28 opposite direction.

The pre-filter 8th protects the device downstream of the pre-filter 8th against coarse dirt particles contained in the fuel. The pre-filter 8th is, for example, a filter fabric with a mesh size of 300 micrometers. The pre-filter 8th is near the bottom of the pot 14 arranged so that even when the fill level in the storage tank is low 4 fuel can still be drawn. The pre-filter 8th can, for example, be flat, arched or also tubular as a so-called filter sock. The pre-filter 8th is on the pump holder, for example 22 , for example in or at a suction opening 36 of the outer floor 30 , intended. The pre-filter 8th is, for example, in or at the intake opening 36 welded, glued or sprayed.

The bottom of the pot 14 facing end of the feed pump 7 , the through opening 35 of the inside floor 28 , the pre-filter 8th and the outside floor 30 close an intake space 37 one from which the feed pump 7 via the input channel 9 Sucks in fuel.

Paraffin forms in diesel fuel at low temperatures. The paraffin has a crystal structure, the shape and size of the paraffin crystals depending on the quality of the diesel fuel. After being formed in the fuel, the paraffin is initially evenly distributed in the fuel, but due to gravity, it sinks towards the bottom of the tank over time 15 and collects at the bottom of the pot with increased concentration 14 of the storage tank 4 and on the bottom of the tank 15 of the storage container 1 on.

When a vehicle starts, the feed pump 7 turned on and starts fuel from the storage tank 4 via the pre-filter 8th to suck. At low temperatures and after the vehicle has been idle for a long time, the tank floor has 15 in the area of the pre-filter 8th lots of paraffin accumulated, along with the fuel from the feed pump 7 is sucked in. The paraffin is on the prefilter 8th retained and blocked part of the filter area of the pre-filter 8th , At high paraffin concentration, the paraffin can cover the entire filter area of the pre-filter 8th clog and thus the prefilter 8th clog.

Therefore, the device according to the invention has an additional prefilter 43 upstream of the feed pump 7 on that is a greater distance from the bottom of the pot 14 of the storage tank 4 has than the prefilter 8th , The distance from the bottom of the pot 14 to one from the bottom of the pot 14 facing away from the bottom of the pot 14 farthest filter top edge 45 of the additional prefilter 43 is, for example, 45 millimeters. The additional prefilter 43 is to the prefilter 8th connected in parallel and blocked due to its greater distance from the bottom of the pot 14 less easy because of the greater distance to the bottom of the pot 14 there is less paraffin in the fuel. The additional pre-filter 43 serves as a bypass filter, which is mainly used when the pre-filter is clogged 8th is flowed through.

The additional pre-filter 43 has, for example, a mesh size of 300 micrometers, although other mesh sizes can expressly be used.

The additional pre-filter 43 is on the pump holder, for example 22 provided and for example in or on at least one further intake opening 44 arranged. The at least one other intake opening 44 is for example on the circumference of the outer cylinder 29 of the pump holder 22 arranged.

The additional pre-filter 43 can like the pre-filter 8th be disc-shaped or tubular and is, for example, perpendicular to the bottom of the pot 14 and towards the edge of the container 42 arranged. In this way the additional prefilter 43 with at least partially clogged pre-filter 8th of fuel from areas with different distances from the bottom of the pot 14 flows through, so that the risk of complete blockage of the further prefilter 43 is reduced. If the additional prefilter 43 in the bottom of the pot 14 facing lower filter area 47 clogged, is at least one of the bottom of the pot 14 opposite upper filter area 48 permeable to the fuel.

The intake room 37 is both about the pre-filter 8th and the at least one suction opening 36 as well as over the connecting channel 38 , the space 34 , the additional pre-filter 43 and the further intake opening 44 with the storage tank 4 connected. If the pre-filter is not clogged 8th a large proportion flows from the feed pump 7 drawn fuel through the prefilter 8th and only a small portion through the additional prefilter 43 , because the pressure loss of the flow from the additional pre-filter 43 across the gap 34 and the connecting channel 38 in the intake space 37 is significantly greater than the pressure loss of the flow from the prefilter 8th in the intake space 37 , If the pre-filter 8th gradually clogged and thereby the pressure loss of the pre-filter 8th rises, the feed pump sucks 7 an increasingly larger proportion of fuel via the additional prefilter 43 , the space 34 , the connecting channel 38 , the intake space 37 and the input channel 9 on. When the pre-filter is completely blocked 8th all the fuel is through the additional prefilter 43 sucked. The internal combustion engine 11 can also work if the pre-filter is clogged 8th are supplied with fuel and can therefore start reliably.

The after the start of the internal combustion engine 11 via the drive line 18 in the storage container 4 backflowing fuel is from the internal combustion engine 11 heated. The heated fuel mixes with the cold fuel in the storage tank 4 so that the temperature of the fuel in the storage tank 4 after the engine has started 11 increases. This will release the paraffin on the prefilter 8th on and the feed pump 7 can fuel again through the pre-filter 8th suck in, so that over the additional prefilter 43 drawn fuel share decreases sharply again.

The fill level in the storage tank 4 must be above a bottom edge 53 the further intake opening 44 lie to about the additional prefilter 43 still being able to suck in fuel. The further the additional prefilter 43 from the bottom of the pot 14 is removed, the higher the required minimum fill level in the storage container 4 for sucking in fuel via the additional prefilter 43 ,

2 shows in section a second embodiment.

With the device after 2 are the ge compared to the device 1 parts that remain the same or have the same function are identified by the same reference numerals.

The device after 2 differs from the device 1 in that the additional prefilter 43 at a greater distance from the bottom of the pot 14 than in the first embodiment 1 is arranged.

When running after 2 is on the pump holder 22 additionally a filter housing 49 arranged, for example with a lower edge 54 of the filter housing 49 in the area of the pot rim 31 of the inner cylinder 27 both with the outer cylinder 29 as well as with the inner cylinder 27 is connected in one piece and extends up to an upper edge 55 towards the edge of the container 42 extends. In the filter housing 49 is the at least one further intake opening 44 provided in or on which the additional prefilter 43 is arranged. The filter housing 49 and the additional pre-filter 43 close a filter room 50 one that has a connection opening 51 with the space 34 connected is. Since the additional prefilter 43 above the rim of the pot 31 is located according to the second embodiment via the additional prefilter 43 Fuel from a further from the bottom of the pot 14 distant area sucked than in the first embodiment. Due to the larger distance of the additional prefilter 43 from the bottom of the pot 14 because of the lower paraffin concentration, the risk that the additional prefilter also decreases 43 completely blocked.

The intake room 37 is both about the pre-filter 8th and the suction opening 36 as well as over the connecting channel 38 , the space 34 , the connection opening 51 , the filter room 50 with the additional prefilter 43 and the further intake opening 44 with the storage tank 4 connected.

If the pre-filter 8th gradually clogged and thereby the pressure loss of the pre-filter 8th rises, the feed pump sucks 7 an increasingly larger proportion of fuel via the additional prefilter 43 , the filter room 50 , the connection opening 51 , Space 34 , the connecting channel 38 , the intake space 37 and the input channel 9 on.

Claims (9)

Device for conveying fuel from a storage container to an internal combustion engine of a motor vehicle with a feed pump arranged in a storage container and drawing fuel via a pre-filter, characterized in that an additional pre-filter ( 43 ) upstream of the feed pump ( 7 ) is provided, which is a greater distance from the bottom of a pot ( 14 ) of the storage tank ( 4 ) than the pre-filter ( 8th ) and the pre-filter ( 8th ) is connected in parallel. Device according to claim 1, characterized in that the additional pre-filter ( 43 ) perpendicular to the bottom of the pot ( 14 ) is arranged. Device according to claim 1, characterized in that the additional pre-filter ( 43 ) on a pump holder ( 22 ) is arranged. Device according to claim 3, characterized in that the pump holder ( 22 ) is cup-shaped, the prefilter ( 8th ) on an outside floor ( 30 ) of the pump holder ( 22 ) and the additional pre-filter ( 43 ) on a circumference of the pump holder ( 22 ) is arranged. Device according to claim 3 or 4, characterized in that the additional pre-filter ( 43 ) in or on one of the pump holder ( 22 ) arranged filter housing ( 49 ) is provided. Device according to claim 3, characterized in that the pump holder ( 22 ) by means of holding arms ( 41 ) on the storage tank ( 4 ) is held. Device according to claim 1, characterized in that the additional pre-filter ( 43 ) has a mesh size of 300 micrometers. Device according to claim 1, characterized in that the additional pre-filter ( 43 ) is flat, curved or tubular. Apparatus according to claim 1, characterized in that the distance from one of the pot bottom ( 14 ) of the storage tank ( 4 ) facing away from the upper edge of the filter ( 45 ) of the additional prefilter ( 43 ) to the bottom of the pot ( 14 ) Is 45 millimeters.