DE4102474A1 - Fuel tank filter for fluids - has an elastic support within woven filter fitted to pump connector - Google Patents

Abstract

A fuel filter and pump connector installed in a fuel tank incorporates an elastic support within the woven filter fitted to the pump connector. The novelty is that the lower face of the pump connector within the woven filter has a number of radial inlet channels formed by ribs projecting from the lower connector face. USE/ADVANTAGE - The arrangement maintains fuel flow through the pump connector when the woven filter resists on the bottom of the tank.

Description

The invention relates to a filter for liquids, in particular special for fuels in a fuel tank can be brought with an elastic support body on which a Pump connector is attached and with a support body enclosed surrounding filter exposed on all sides fabric that is sealed to the pump connection piece is, the pump connection piece is a central inlet opening for the liquid forms.

Such filters are temporarily resiliently bent by a narrow circular opening (tank neck) into the interior of a Fuel tanks used and relax in the built-in in a stretched position. The filters are in the operating state by the fuel chemically and by Movements of the motor vehicle on the fuel tank transmitted, mechanically stressed. While earlier Fuel tanks made of sheet steel less elastic were subjected to deformations due to use of plastic injection molded fuel tanks the elasti deformations increased several times. The movement against the fuel caused by the vibrations of the Vehicle, are also transferred to the filter, this being between a designated distance from the tank swinging back and forth. In the event that the filter with its underside reaching the ground, fluctuations occur fuel supply to the engine of the vehicle in extreme cases can also occur as interruptions nen.

A filter is known (DE-C2-36 09 906), which in the designed at the outset is designed. Although this filter is a million times in motor vehicle tanks  has lasted due to the now advanced age Changes in the tank structures the difficult described occurred.

The invention is therefore based on the object A filter is placed on the inside of the tank bottom the undisturbed intake of fuel through the filter to guarantee.

The object is achieved according to the invention in that that on the pump connector, inside the filter fabric lying, approximately perpendicular to the axis of the central inlet opening trending, one or more additional radial Inlet channels are provided and that at the the Filterge webe facing side projecting ribs are formed. It is precisely these ribs that prevent the fil from resting fabric on the inlet opening, d. H. when sitting on the Filters on the tank bottom that an undesirable flow Cross-sectional reduction for the liquid occurs. Therefore, the remain when the filter fabric receive lateral inlet channels and it can also be used in kriti In certain situations, enough fuel is sucked in by the pump and pumped to the combustion station.

In training it is provided that both the additional Inlet channels as well as the protruding ribs on the pump pen connecting pieces are also formed. The improvement of Suction conditions therefore do not lead to any significant Ver expensive in the production of be in large quantities necessary filter.

In improvement of the invention it is proposed that a body separated from the pump connector as one in the central inlet opening of fixed socket body is formed, on which the additional radial inlet  channels and the ribs are arranged. This measure is especially for flexible manufacturing technology from Be interpretation. It can e.g. B. differently designed book sinkers are used, which is decided at short notice can be.

Another embodiment of the invention is that in the pump connector or in the socket body too the elastic support body on a hub ring with art fabric is injected. The hub ring can either be here made of metal like the entire support body or also made of art consist of fabric.

Suitable flow channels are created by the additional inlet channels over the circumference min take at least 60 degrees.

The size of the inlet channels can also be affected that the height of a rib is also the height an inlet channel in the direction of the axis of the central one Inlet opening determined.

Exemplary embodiments are shown in the drawing and are explained in more detail below. Show it:

Fig. 1 is an axial cross-section AA exemplary implementation by a first stop,

Fig. 2 is a to Fig belongs. View in the direction "X" with a partial section,

Fig. 3 shows an axial cross section BB through a second exemplary embodiment and

Fig. 4 is a view belonging to Fig. 3 in the direction "Y" with a partial section.

The filter is material of an elastic supporting body 1 made of plastic or thin metal and det gebil from a filter cloth 2, wherein a pump connection neck 3 is connected to the supporting body 1 so as well as the filter fabric 2 on all sides exposed to the supporting body 1 having a ring-opening 4 in the Pump connection piece 3 is welded in a sealing manner. The liquid can therefore only pass in the direction of arrow 5 from the outside through the filter fabric 2 , with solid components remaining outside and flowing out through a central inlet opening 6 et wa in the direction of an axis 7 .

In the event that the filter fabric 2 lies against the pump connection piece 3 from below, or the pump connection piece is abruptly pressed against the bottom of the (not shown) fuel tank in the cases described, lying in the interior 8 of the filter cloth 2 , perpendicular to the axis 7 the central inlet opening 6 directed several radial inlet channels 9 angeord net, which open into the central inlet opening 6 . In any case, therefore, liquid passes in the direction of arrow 5 through these inlet channels 9 into the central inlet opening 6 and flows as intended in the direction of the axis 7 . Down (Fig. 1), the height 10 of the inlet channel 9 with about 3 mm scheduled for a common size filter, wherein the inlet channel 9 is held down (Fig. 1) respectively open and thus forms a rib 11. Here, both the additional inlet channels 9 and the standing ribs 11 on the pump connection piece 3 are also formed as a first embodiment.

Of particular importance, however, is that one above the other through the injected hub ring 1 a separate levels of a running channels 9 are formed ( Fig. 1). This solution leads to a high degree of certainty that a sufficiently large flow cross-section is available in every situation of the flow conditions. The pump will therefore always be able to draw in the desired amount of fuel.

According to a second embodiment ( Fig. 3 and 4), a separate body 12 is formed as a fixed in the central inlet opening 6 socket body 13 on which the additional radial inlet channels 9 and the ribs 11 are introduced. According to Fig. 3 in the pump connection neck 3 and in the socket body 13 and the elastic support body 1 having a hub ring 1 a having the ring opening 4, injected, wherein both the supporting body 1 as the bushings are also body 13 selected from plastic can. On the circumference 14 , the additional inlet channels 9 each occupy at least 60 degrees. The height 10 of a rib 11 measured in the direction of the axis 7 also determines the height of an inlet channel 9 in the direction of the axis 7 of the central inlet opening 6 .

Claims (7)

1.Filter for liquids, in particular for fuels, which can be introduced into a fuel tank, with an elastic support body to which a pump connection is fastened, and with a closed filter fabric which is exposed on all sides and surrounds the closed filter fabric, which is fastened to the pump connection socket in a sealed manner, the Pump connecting piece forms a central inlet opening for the liquid, characterized in that lying on the pump connecting piece ( 3 ), inside ( 8 ) of the filter fabric ( 2 ), approximately perpendicular to the axis ( 7 ) of the central inlet opening ( 6 ), one or several additional radial inlet channels ( 9 ) are seen before and that on the side facing the filter fabric ( 2 ) facing ribs ( 11 ) are formed. 2. Filter according to claim 1, characterized in that both the additional inlet channels ( 9 ) and the projecting ribs ( 11 ) on the pump connection ( 3 ) are also molded. 3. Filter according to claim 7, characterized in that one of the pump connection piece ( 3 ) separate body by ( 12 ) as a in the central inlet opening ( 6 ) fixed socket body ( 13 ) is formed; on which the additional radial inlet channels ( 9 ) and the ribs ( 11 ) are arranged. 4. Filter according to one or more of claims 1 to 3, characterized in that in the pump connection piece ( 3 ) or in the book lower body ( 13 ) and the elastic support body ( 1 ) on a hub ring ( 1 a) is injected with plastic . 5. Filter according to one or more of claims 1 to 4, characterized in that the additional inlet channels ( 9 ) over the circumference ( 14 ) each take at least 60 degrees. 6. Filter according to one or more of claims 1 to 5, characterized in that the height ( 10 ) of a rib ( 11 ) also determines the height of an inlet channel ( 9 ) in the direction of the axis ( 7 ) of the central inlet opening ( 6 ). 7. Filter according to claim 1, characterized in that one above the other, through the injected hub ring ( 1 a) separate levels of inlet channels ( 9 ) are formed.