DE102014005908A1 - Conductive filters - Google Patents

Abstract

A line-shaped filter has at least two line sections, which are arranged axially one behind the other and flow-connected, wherein each line section has a filter element.

Description

Technical area

The invention relates to a line-shaped filter according to the preamble of claim 1.

State of the art

In the EP 0 489 157 B1 a conduit-shaped filter is described, which can be used as a fuel filter for motor vehicles and in a flexible housing also has a flexible, tubular filter material. Due to the flexibility of the line-shaped filter can be arranged in a curved path on the motor vehicle.

Furthermore, it is from the DE 10 2009 029 672 A1 known to integrate in a tubular line section of a fuel system, a filter element for filtration of the fuel. The filter element is formed as a fuel-permeable filter rib which extends in the longitudinal direction of the line section and divides the flow path lengthwise. The rib-shaped filter element is traversed in the transverse direction of the fuel.

Disclosure of the invention

The invention is based on the object, with simple constructive measures to perform a line-shaped filter versatile.

This object is achieved with the features of claim 1. The dependent claims indicate expedient developments.

On the one hand, the line-shaped filter is part of a flow path for the passage of a fluid, on the other hand, a filtration of the fluid takes place in the line-shaped filter. The conduit-shaped filter can be integrated into a flow path, for example a fuel line, or form part of the flow path.

The line-shaped filter comprises at least two line sections which are arranged axially one behind the other and flow-connected to one another. In each line section at least one filter element is arranged in each case.

This embodiment has several advantages. By the series connection of the line sections line-shaped filters can be produced, the length of which aligns with the structural conditions or the available installation space. The line-shaped filter can be rectilinearly aligned, possibly curved, wherein a curvature or an angle between the different line sections is possible. The line sections are preferably designed to be rigid, but they may optionally also be made flexible.

By connecting in series, a higher degree of filtration is achieved. The first line section lying in the flow direction at the front assumes the first filtration, the one or more subsequent line sections serve for subsequent filtration. In each line section at least one filter element is arranged in each case for filtration of the fluid.

The different line sections can be constructed similar to each other with in particular the same dimensions, whereby a standardization in the production of the line sections is achieved. In principle, however, differently constructed line sections come into consideration, which differ from each other, for example, in their axial length. The line sections are preferably cylindrical, the length of the line sections is in particular significantly greater than the outer diameter, for example at least five times or at least ten times greater.

The filter elements in the various pipe sections can be constructed structurally the same, but may differ from each other in their degree of filtration. Advantageously, the filter fineness of the filter elements increases in the flow direction, so that the filter element in the first line section has a lower filter fineness and thus also a lower filtration performance than the filter element (s) in the subsequent line sections. In this way, a stepped, successive filtration is performed in the manner of a cascade, in which the successive filter stages are always formed finer.

According to a further expedient embodiment, the line sections are formed einstecksteckbar. In this case, the clean-side outflow opening in the filter element of the first line section is connected to the raw-side inflow opening in the subsequent, second line section. This results in the cascaded flow in the axial direction of successively arranged line sections, wherein first flows through the filter element in the first line section from the Rohzur the clean side and then the pre-cleaned fluid from the clean side of the first line section to the raw side of the second Line section is performed. By Aufeinandersteckbarkeit the line sections a mechanical connection and a flow connection between the successive sections is achieved in a simple constructive manner.

Optionally, the line sections are connected to each other from the outside, for example by a screw.

According to a further expedient embodiment, a connecting flow connection piece is provided between the successive line sections. The flow nozzle is located between the clean-side outflow opening in the filter element of the first line section and the raw-side inflow opening in the subsequent, second line section. The flow connection may possibly be made in one piece with a line section, for example on the upstream side of the line section, where appropriate, a design as a separate component is considered, which introduced at the downstream side of a line section in the outflow opening in the filter element and on the upstream side of the following Line section is connected to the line section housing.

According to yet another advantageous embodiment, the filter element is tubular in the line section and is flowed through radially by the fluid to be cleaned. In the case of radial throughflow from outside to inside, the outside of the tubular filter element forms the raw side and the interior the clean side, via which the cleaned fluid is passed on axially. Conversely, with a flow radially from the inside to the outside, the inside of the tubular filter element forms the raw side and the surrounding annulus on the outer shell, the leg side.

As an alternative to a tubular filter element which forms a pipeline section, a compact, block-shaped filter element is also suitable, for example in the form of a foam which lies in the conduit section in the flow path of the fluid.

The filter element may extend at least approximately over the entire axial length of a line section. This has the advantage that based on the axial length of the line section, a relatively large filter area is achieved. It is thus possible to achieve a required filter area over a relatively short axial length.

According to a further expedient embodiment, exactly one filter element is integrated in a line section. However, it is also possible embodiments with several filter elements per line section, for example with four filter elements, which are advantageously arranged in the axial direction parallel to each other in the interior of the line section and in tubular design in the region of its discharge opening with a common outlet opening of the line section are fluidly connected. The filter elements per line section are in particular of similar construction to one another and, in the case of a tubular design, are flowed through radially by the fluid.

The line sections advantageously have a relatively small overall diameter, which is preferably not more than 60 mm and, if appropriate, may also be only 20 mm to 25 mm.

The different line sections are in particular arranged directly axially in succession. However, it is also possible to have an embodiment in which axially spaced line sections with a filter element are placed in a line and are connected to one another via a further line section without a filter element.

As far as a plurality of filter elements are arranged in a line section, which are not designed tubular, but for example block-shaped, they can also be arranged axially one behind the other in the respective line section.

In one embodiment of the line-shaped filter as a fuel filter, this is for example on the underbody of a motor vehicle.

Brief description of the drawings

Further advantages and expedient embodiments can be taken from the further claims, the description of the figures and the drawings. Show it:

1 a section along a line-shaped filter, which consists of several line sections, each with a tubular filter element,

2 a section transverse to the longitudinal axis through a line section,

3 the detail III off 1 in an enlarged view,

4 the detail IV off 1 in an enlarged view,

5 a section along a line-shaped filter in a variant in which four tubular filter elements are provided per line section,

6 a section transverse to the longitudinal axis through a line section according to 5 .

7 the left end of the line-shaped filter according to 5 .

8th the right end of the filter off 5 ,

In the figures, the same components are provided with the same reference numerals.

Embodiments of the invention

In the 1 to 4 is a first embodiment with a line-shaped filter 1 represented, for example, part of a fuel line in a motor vehicle. The line-shaped filter 1 is designed as a pipeline and provides on the one hand for a transport of the fluid and on the other hand for a filtration of the fluid passed through.

The filter 1 has several, axially immediately one behind the other line sections 2 on, which are each tubular and rectilinear, wherein the different line sections 2 fluidly connected to each other and form a continuous flow path for the fluid to be cleaned and transported. Each line section 2 contains a tubular or tubular element 3 , which is flowed through by the fluid. The filter element 3 points as well as the line section 2 a round cross-sectional shape and has opposite to the inner diameter of the line section 2 a smaller outer diameter, so that the filter element 3 encompassing annulus 4 is formed, which is part of the flow space for the flow with the fluid to be cleaned. The filter element 3 will, as with the flow arrows in the 3 and 4 represented, flows through radially from outside to inside of the fluid to be cleaned, so that the annulus 4 with the outer side forming the outer surface of the filter element 3 in contact. Filtration takes place via the wall of the filter element 3 , The interior 5 in the filter element 3 forms the clean side from which the purified fluid is discharged axially.

On the upstream side of the filter 1 is located in the first line section 2 an inflow pipe 6 ( 3 ), which is either integral with the housing of the line section 2 or is formed as a separate component, which in an inflow opening in the line section 2 is used. About the inlet connection 6 the raw fluid enters the annulus 4 in the line section 4 directed, from which the fluid from the walls of the filter element 3 flows through and then axially over the interior 5 is derived.

The inflow pipe 6 is advantageously located at each line section 2 and protrudes at the following line sections in the clean-side discharge opening of the preceding filter element 3 one. In this way, a mechanical connection and a flow connection of successive line sections are created.

At the downstream end of the filter 1 there is a discharge nozzle 7 which is in the clean-side outflow opening of the adjacent filter element 3 protrudes and with the interior 5 in the filter element 3 communicated. About the outlet connection 7 is the purified fluid as in 4 drawn axially drawn.

The filter fineness of the filter elements 3 increases in the direction of flow from line section to line section.

In the 5 to 8th is another embodiment of a filter 1 with several, axially one behind the other arranged line sections 2 shown. In contrast to the first embodiment according to the 1 to 4 in which exactly one filter element is provided per line section, the line sections 2 in the second embodiment according to the 5 to 8th four filter elements each 3 on, which are tubular or tubular and are flowed through radially from the outside to the inside of the fluid to be cleaned. The fluid is via the inflow 6 in the annulus 4 inside the pipe section 2 introduced and flows through the annulus 4 from the walls of each filter element 3 radially from outside to inside. This results in the in the 7 and 8th illustrated flow flow of the fluid, which after filtration axially across the interior 5 in each filter element 3 is derived.

As 8th can be seen, protrudes into the clean-side discharge opening of each filter element 3 a discharge nozzle 7 a, if necessary, in one piece with the housing of the line section 2 can be trained. Outflow side, the line section 2 an outlet 8th with an outlet opening, via the outlet 8th or the outlet opening the purified fluid from all filter elements 3 in the line section 2 is derived axially.

The connection between the different pipe sections 2 takes place as in the first embodiment via the inflow 6 at each line section 2 which is in the area of the previous line section 2 is arranged at the outlet opening and optionally projects into the outlet opening.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 0489157 B1 [0002]
• DE 102009029672 A1 [0003]

Claims (12)

Conductive filter with a line section ( 2 ) for conducting a fluid and a filter element integrated in the line section ( 3 ) through which the fluid can flow, characterized in that at least two conduit sections ( 2 ) are arranged axially one behind the other and flow-connected and each line section ( 2 ) a filter element ( 3 ) having. Filter according to claim 1, characterized in that the line sections ( 2 ) are formed into one another, wherein the clean-side outflow opening in the filter element ( 3 ) of the first line section ( 2 ) with the raw-side inflow opening in the subsequent, second line section ( 2 ) connected is. Filter according to claim 2, characterized in that a connecting flow nozzle between the clean-side outflow opening in the filter element ( 3 ) of the first line section ( 2 ) and the raw-side inflow opening in the subsequent, second line section ( 2 ) is arranged. Filter according to one of claims 1 to 3, characterized in that the filter element ( 3 ) in the line section ( 2 ) is tubular and is to flow radially through the fluid. Filter according to one of claims 1 to 4, characterized in that the filter element ( 3 ) at least approximately over the entire inner axial length of a line section ( 2 ). Filter according to one of claims 1 to 5, characterized in that in a line section ( 2 ) exactly one filter element ( 3 ) is integrated. Filter according to one of claims 1 to 5, characterized in that in a line section ( 2 ) several, for example, four filter elements ( 3 ) are integrated. Filter according to claim 4 and 7, characterized in that the tubular filter elements ( 3 ) in the region of its outflow opening with a common outlet opening of the line section ( 2 ) are fluidly connected. Filter according to one of claims 1 to 8, characterized in that the filter fineness of the filter elements ( 3 ) in the successive line sections ( 2 ) increases in the flow direction. Filter according to one of claims 1 to 9, characterized in that the line sections ( 2 ) are constructed identically. Filter according to one of claims 1 to 10, characterized in that the filter ( 1 ) is designed as a liquid filter, in particular as a fuel filter. Filter according to one of claims 1 to 11, characterized in that the line sections ( 2 ) are cylindrical.

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