DE102011005942A1 - Filter element for filter device to remove liquid or solid contaminants from gaseous or liquid fluid flow, has inflow protection, which is integrally formed on respective end plate - Google Patents

Abstract

The filter element (3) has an annular filter body (9) made of filter material, where an end plate (11) is provided for axial locking of the filter body. The end plate has an inflow protection (12) extending radially outside or inside along the filter body which extends axially and circumferentially. The inflow protection is integrally formed on the respective end plate, and extends over a maximum of 50 percent or more than one-third of the axial height of the filter body. An independent claim is included for a filter device for removing liquid or solid contaminants from a gaseous or liquid fluid flow.

Description

The present invention relates to a filter element for removing liquid and / or solid contaminants from a gaseous or liquid fluid flow. The invention also relates to a filter device equipped with at least one such filter element.

A filter device usually has a housing which contains a receiving space and has at least one inlet and at least one outlet. At least one filter element is arranged in the receiving space and separates a raw side, which is fluidically connected to the at least one inlet, from a clean side which is fluidically connected to the at least one outlet. The respective filter element may, for example, have an annular filter body of filter material and two end disks for axially closing the filter body.

It has been found that in certain configurations during operation of the filter device, the filter body is loaded unevenly with contaminants filtered out. In particular, in embodiments in which a portion of the filter body is exposed directly to a raw-side flow, a stronger or more rapid addition of the filter material takes place in this sub-area. However, such asymmetric loading of the filter body is disadvantageous for the flow resistance of the filter device. In addition, the direct flow of the filter element can increase the mechanical load on the filter element or the filter material used in each case. For example, solid impurities can impinge on the filter material with a comparatively large impulse and weaken or initially damage it more superficially and over time, which can ultimately lead to an impairment of the filtration effect or even to leakage through the filter material. In addition, the one-sided direct flow can initiate a bending moment in the filter element, for which it is not designed per se. Furthermore, the direct flow can cause the dirt load is compressed, which can disproportionately increase their flow resistance and also leads to an asymmetric load on the filter element.

The present invention addresses the problem of providing for a filter element of the type mentioned or for a filter device equipped therewith an improved embodiment, which is characterized in particular by the fact that the tendency for asymmetric contamination and / or loading of the filter body is reduced.

This problem is solved according to the invention by the subject matters of the independent claims. Advantageous embodiments are the subject of the dependent claims.

The invention is based on the general idea to equip at least one of the end plates with a Anströmschutz. The flow protection extends radially outward or radially inward along the filter body axially and in the circumferential direction. By providing the filter element with such flow protection, areas exposed to increased flow with the unfiltered fluid flow may be more or less covered to reduce direct impact with the dirt laden flow in these areas. As a result, a homogenization of the dirt load of the filter body can be achieved. At the same time, a homogenization of the mechanical load of the filter element can be achieved. The arrangement of the Anströmschutzes on one of the end plates is of considerable advantage, at least in those cases where the tendency for premature contamination of the filter body is pronounced in an axial end portion of the filter body.

Particularly advantageous is an embodiment in which the Anströmschutz is integrally formed on the respective end plate. This means that the respective end plate is made together with the Anströmschutz from one piece, in particular injection molded from plastic or is deep drawn from sheet metal. This integral construction can be realized particularly inexpensively. In particular, a mounting step for mounting a separately prepared Anströmschutzes to the respective end plate deleted.

Advantageously, the onflow protection can extend over a maximum of 50% or a maximum of 1/3 of the maximum height of the filter body. As a result, the respective axial end portion, on which the respective end plate equipped with the flow protection, is reinforcedly protected against a direct flow with the raw-side fluid flow.

According to a particularly advantageous embodiment, the onflow protection in the circumferential direction can extend over 360 °, so be closed annularly. This results in a rotation symmetry for the otherwise rotationally symmetrical filter element also with regard to the flow protection, so that in principle any installation rotational positions can be realized. This simplifies the installation of the filter element in an associated filter housing.

The Anströmschutz can be configured over the entire surface or perforated. Likewise, the Anströmschutz have at least one full-wall area and at least one perforated wall area. By distributing perforated and non-perforated wall areas as well as by dimensioning the respective perforations, in particular by different pore sizes and / or pore densities, a symmetrical loading of the filter material with impurities, optimally adapted to the respective incident flow situation, can be achieved for a specific installation rotational position.

According to another advantageous embodiment, the Anströmschutz may extend radially spaced from the filter body, so that radially between the Anströmschutz and the filter body, an annular space is formed, which is axially open at a side remote from the associated end plate side. By providing such an annular space, essentially only one flow deflection is achieved with the aid of the flow protection, in any case no complete suppression of the flow. In that regard, the filter body remains fully functional even in the area covered by the flow protection and is the filtration operation available.

The Anströmschutz can according to an advantageous embodiment have a conical axial section. Additionally or alternatively, the flow protection can have a cylindrical axial section. Appropriately, the Anströmschutz is configured in terms of its geometry so that it initially has a conical section starting from the associated end plate, whereby its radial distance increases to the filter body. At the conical axial section then joins a cylindrical axial section, in which the radial distance to the filter body remains constant.

Anströmschutz and end plate are suitably made of plastic, preferably integrally as a single component. Alternatively, the unitary component of the end plate and the flow protection can also be made of metal, for example in the form of a shaped sheet metal part, in particular a deep-drawn part.

At least one of the end disks of the filter element is configured as an open end disk in order to be able to fluidically connect the interior space enclosed by the annular filter body with the clean-side outlet or with the raw-side inlet of the housing. At least one of the end plates can be configured as a closed end plate. In this closed end plate can optionally be integrated a bypass valve, which fluidly connects the raw space with the clean room, if a pressure difference between the raw space and clean room exceeds a predetermined limit, for example. When the filter element is largely added.

A filter device according to the invention for removing liquid and / or solid contaminants from a gaseous or liquid fluid flow comprises a housing which has at least one filter element of the type described above in a receiving space.

According to an advantageous embodiment of the filter device, the at least one inlet can be arranged radially or tangentially in the region of the end disk equipped with the flow protection. In this way, a radial inflow results on or a tangential arrival or flow around the equipped with the flow protection axial end portion of the filter body. The dimensioning of the Anströmschutzes can be adapted to the axial height of the at least one inlet, such that the Anströmschutz extends axially at least over the axial height of the at least one inlet. As a result, the entire inflow region of the filter body is covered.

Other important features and advantages of the invention will become apparent from the dependent claims, from the drawing and from the associated description of the figures with reference to the drawing.

It is understood that the features mentioned above and those yet to be explained below can be used not only in the particular combination given, but also in other combinations or in isolation, without departing from the scope of the present invention.

Preferred embodiments of the invention are illustrated in the drawings and will be explained in more detail in the following description.

The only 1 shows a longitudinal section of a filter device in the region of an inlet opening.

Corresponding 1 comprises a filter device 1 a housing 2 and at least one filter element 3 , The filter device 1 or the respective filter element 3 is used to remove liquid and / or solid contaminants from a liquid flow or from a gas flow flowing in 1 indicated by arrows and with 4 is designated. In particular, it may therefore be in the filter device 1 to act a liquid filter or a gas filter. In particular, such filter devices 1 used in vehicles, for. B. as an air filter, oil filter, fuel filter.

The housing 2 encloses a recording room 5 and has at least one inlet 6 and at least one outlet, not shown here. The filter element 3 is in the recording room 5 arranged. The filter element 3 separates in the recording room 5 a crude room 7 from a clean room 8th respectively. a raw page 7 from a clean side 8th , The raw side 7 is with the at least one inlet 6 fluidly connected. The clean side 8th is fluidly connected to the at least one outlet.

The filter element 3 has an annular filter body 9 on, which is made of a suitable filter material. For example. is the filter body 9 made of a sheet-shaped filter material which is folded or pleated star-shaped and annular with respect to a longitudinal central axis 10 of the filter element 3 is arranged. The filter body 9 is at its axial ends in each case with an end plate 11 closed or sealed. Accordingly, the filter element 3 two end discs 11 on, of which in 1 however, only one is recognizable. The filter element 3 is in the example of 1 arranged radially from outside to inside, so that the raw side 7 outside the filter element 3 is located while the clean side 8th from the filter body 9 is enclosed.

The filter element 3 also has a flow protection 12 on. The flow protection 12 extends along the filter body 9 axially and in the circumferential direction. The flow protection 12 is in the illustrated, preferred example radially outward, so raw on the filter body 9 arranged. The flow protection 12 is about the end plate 11 with the filter element 3 connected. Preferably, the Anströmschutz 12 integral with the end plate 11 formed, creating an integral component 13 is formed, which is the end plate 11 and the flow protection 12 includes uniformly. The production of this integral component 13 can be done, for example, by injection molding of plastic or by deep drawing of metal.

In the example of 1 owns this integral component 13 a pot-shaped shape, wherein the filter body 9 coaxially inserted into this pot.

Starting from the end disk 11 can the flow protection 12 in the axial direction at most up to 50% of the axial height of the filter body 9 extend. Preferably, the onflow protection extends 12 however, not more than 1/3 of the axial height of the filter body 9 , In the example shown, the onflow protection extends 25 in a range of 20% to 40% of the axial height of the filter body 9 ,

In the circumferential direction of the flow protection extends 12 in the example shown over 360 °, so closed annular. In other embodiments, the Anströmschutz 12 extend over less than 360 ° in the circumferential direction, for example. Over a maximum of 180 ° or at most over 90 °.

In the example, the on-flow protection defines 12 a wall 14 , the upstream of the filter body 9 is upstream. This wall 14 in the example is designed over the entire surface, so for the fluid flow 4 impermeable designed. Alternatively, it is also possible the wall 14 with a perforation to allow some flow through the wall 14 and thus the flow protection 12 permit. The perforation causes a throttled flow through the Anströmschutzes 12 , so that a direct flow of the filter body 9 in the area of the flow protection 12 omitted.

The flow protection 12 is also relative to the filter body 9 designed so that it has a radial distance to the filter body 9 comply. Accordingly, radially between the Anströmschutz 12 and the filter body 9 an annulus 15 Train at one of the end disk 11 opposite side, so the other, not shown end plate axially open. This axially open end face is in 1 With 16 designated. Visible occurs an inflow to the annulus 15 or an inflow into the annulus 15 through this axially open front side 16 ,

The flow protection 12 here has a conical axial section 17 , in which the cross section of the flow protection 12 with increasing axial distance to the end plate 11 extended. At this conical axial section 17 joins one of the end disc 11 opposite side a cylindrical section 18 in which the cross section with increasing axial distance from the end plate 11 remains constant.

The filter body 9 is in particular with the end plate 11 glued, especially in the event that the end disc 11 made of a metal. Alternatively, the filter body 9 in the end disc 11 be plasticized, especially if the end plate 11 made of plastic. One from the end disk 11 enclosed axial end portion of the filter body 9 is in 1 With 19 designated. In this annular axial end portion 19 the tight seal of the filter body occurs 9 in the axial direction by means of the end plate 11 ,

In the example of 1 owns the end plate 11 for receiving the axial end portion 19 an annular recess into which the filter body 9 immersed axially. In the example, the filter element 3 also with an inner frame 21 equipped, on which the filter body 9 supported radially inside. The inner frame 21 extends in the example to the end plate 11 or until their deepening 20 into it.

The end plate shown here 11 that with the flow protection 12 is equipped as an example is designed as a closed end plate, so that the end plate 11 the clean side 8th axially from the raw side 7 separates. In another embodiment, the end plate 11 be designed as an open end plate, so that through a passage opening of the open end disk through the respective outlet with the clean side 8th can communicate.

The end disc 11 , In particular, the closed end plate, may also be equipped with a bypass valve, not shown here, which is the raw side 7 fluidic with the clean side 8th connects, if a pressure difference between raw side 7 and clean side 8th exceeds a predetermined value.

It is also noteworthy that the flow protection 12 in the area of the inlet 6 located. Further, the inlet 6 with respect to the longitudinal central axis 10 of the filter element 3 arranged substantially radially or tangentially, whereby a direct radial flow or a tangential or rotating flow around the filter element 3 he follows. The housing 2 and the filter element 3 are coordinated so that the inlet 6 in the area of with the flow protection 12 equipped end plate 11 located. Furthermore, the flow protection 12 axially dimensioned in the example so that it extends at least over the entire axial height of the inlet 6 extends.

Claims (11)

Filter element for removing liquid and / or solid impurities from a gaseous or liquid fluid flow ( 4 ) - with an annular filter body ( 9 ) of filter material, - with at least one end plate ( 11 ) for axially closing the filter body ( 9 ), - wherein at least one such end plate ( 11 ) a flow protection ( 12 ) which extends radially outside or inside along the filter body ( 9 ) extends axially and in the circumferential direction. Filter element according to claim 1, characterized in that the onflow protection ( 12 ) at the respective end plate ( 11 ) is integrally formed. Filter element according to claim 1 or 2, characterized in that the onflow protection ( 12 ) over a maximum of 50% or at most 1/3 of the axial height of the filter body ( 9 ). Filter element according to one of claims 1 to 3, characterized in that the onflow protection ( 12 ) extends closed in the circumferential direction over 360 °. Filter element according to one of claims 1 to 4, characterized in that the onflow protection ( 12 ) is designed over the entire surface or perforated. Filter element according to one of claims 1 to 5, characterized in that the flow protection ( 12 ) radially spaced from the filter body ( 9 ) so that radially between the flow protection ( 12 ) and the filter body ( 9 ) an annulus ( 15 ) formed on one of the end plate ( 11 ) facing away from the side axially open. Filter element according to one of claims 1 to 6, characterized in that the onflow protection ( 12 ) has a conical axial section ( 17 ) having. Filter element according to one of claims 1 to 7, characterized in that the onflow protection ( 12 ) has a cylindrical axial section ( 18 ) having. Filter device for removing solid and / or liquid contaminants from a gaseous or liquid fluid flow ( 4 ), - with a housing ( 2 ), which has a receiving space ( 6 ) and at least one inlet ( 6 ) and at least one outlet, - with at least one filter element ( 3 ) according to one of claims 1 to 8, in the receiving space ( 5 ) is arranged and therein with the at least one inlet ( 6 ) fluidly connected raw side ( 7 ) from a clean side fluidically connected to the at least one outlet ( 8th ) separates. Filter device according to claim 9, characterized in that the at least one inlet ( 6 ) in the area with the flow protection ( 12 ) end plate ( 11 ) is arranged radially or tangentially. Filter device according to claim 10, characterized in that the flow protection ( 12 ) axially at least over the axial height of the at least one inlet ( 6 ).

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