DE102004045421A1 - Fluid filter for filtering liquids comprises a ball-shaped housing containing a filter element which separates a crude side from a pure side - Google Patents

Abstract

Fluid filter (1) comprises a ball-shaped housing (2) containing a filter element (5) which separates a crude side (7) from a pure side (8). The crude side is joined to an inlet opening (9) and the pure side is joined to an outlet opening. The inlet opening and the outlet opening are arranged in a common connection which has an external connection support (11) and an internal connection support (13).

Description

The The invention relates to a fluid filter.

From the US 5,667,678 a fluid filter is known whose housing has a substantially cylindrical shape. The fluid filter has an inlet and an outlet separated by a filter element.

Of the Invention has for its object to provide a fluid filter, which is pressure stable as well as lightweight and simple Construction owns.

These The object is achieved by a fluid filter having the features of the claim 1 solved.

The spherical Shape of the housing leads to an elevated one pressure stability of the housing. The housing can with the same pressure stability like a case be formed with a cylindrical shape with smaller wall thicknesses, so that yourself results in a weight reduction. The arrangement of inlet and outlet at one common connection leads to a easy assembly. The concentrically arranged connecting piece use the area of for the connection to Available Space good, so that in Area of the connection only a small space is needed. A Such arrangement can be done with few components in a simple manner be realized, so that a simple construction with low weight of the filter results.

Advantageous is the inner union held on the filter element. The inner connecting piece is in particular one piece formed with the filter element. This can reduce the number of required components be kept low. At the same time is by the one-piece training of the connecting piece with the filter element, a fluid-tight connection of the connection piece ensured to the filter element. A tight connection to adjacent components can be achieve in a simple manner that on at least one connecting piece, in particular at both connecting pieces in each case a seal is arranged.

One low weight can be in particular achieve that the housing is made essentially of plastic is. The housing is especially complete made of plastic. The plastic is expediently a polyamide (PA). A easy manufacturability of the housing let yourself achieve that the casing is formed of two half-shells, which are connected to a connecting flange connected to each other. The half-shells, for example, in a injection molding in a simple way cost-effective getting produced. Advantageously, the half-shells by a welding process connected with each other. For example, the connection may be through Induction welding, Laser welding, ultrasonic welding, friction welding or infrared welding be prepared. However, it may also be appropriate, the half-shells over a additional Component, in particular via an adhesive to connect with each other.

Advantageous are means at the outer union for connection of the Fluid filter provided. For this purpose, in particular a thread on the outer connection piece arranged. The arrangement of the thread on the outer connection piece guaranteed a good force transmission from the housing into the connection point. The thread can be mounted directly on a housing half shell, However, it can also be used, for example, in a housing threaded sleeve be educated.

A size effective filter surface can be characterized achieve that Filter element has a wrinkle structure. Advantageously, the filter element comprises a carrier, is applied to the filter material. The carrier is expedient from Plastic. In an embodiment of the carrier and the filter housing off Plastic can be achieve a metal-free filter that is completely incinerable and thus can be easily disposed of. The carrier has expedient passage openings for the filtered fluid. The filter material is in particular fiber material, the on the carrier is washed ashore. However, the filter element may also be a filter foam be. To have a good stability to achieve the fluid filter, it is provided that the filter element via at least one Retaining element on the housing is fixed. The retaining element is expediently one-piece with the carrier educated. The retaining element is advantageous as a peripheral edge formed, which held between the two half shells of the housing is. A retaining element formed in this way simultaneously serves for the fluidic Separation between the raw side and the clean side of the filter. As a holding element However, at least one projecting from the filter element to the housing Bridge be provided. However, the filter element can also have a first, tubular socket on the housing be determined, which overlaps a second neck. The two neck form in particular a fluid-tight connection and disconnect so the raw side of the clean side. Advantageously, the first nozzle set on the filter element and the second nozzle on the housing.

Embodiments of the invention will be described below with reference to the drawing. Show it:

1 a partially cutaway perspective view of a filter element,

2 a plan view of the filter element 1 .

3 a section along the line III-III as in 2 .

4 a perspective view of a partially cut filter element,

5 a plan view of the filter element 4 .

6 a section along the line VI-VI in 5 ,

1 shows a fluid filter 1 whose case 2 has substantially spherical shape. The housing 2 is from a first half shell 3 and a second half shell 4 built up. Inside the case 2 is a filter element 5 arranged. In the first half shell 3 of the housing 2 is a connection 22 for an inlet opening 9 and an outlet opening 10 educated. The connection 22 has an outer connecting piece 11 who is on the first half-shell 3 is formed. At the outer connecting piece 11 is a seal 12 arranged on the outer connecting piece 11 rests and during assembly of the fluid filter 1 between the case 3 and the component to which the fluid filter 1 is mounted, comes to rest.

As well as 2 shows is concentric with the outer union 11 an inner union 13 with a seal 14 arranged. The seal 14 lies on the outside of the inner connection piece 13 on one at the inner connecting piece 13 molded edge 15 on. The inner connecting piece 13 is concentric with the axis of symmetry 26 and to the outer union 11 arranged ( 2 ). The outlet opening 10 is inside the inner connecting piece 13 formed and the inlet opening 9 in between the inner connecting piece 13 and the outer connecting piece 11 formed annulus 27 ( 2 ). In the area of the connection 22 are on the outside of the first half shell 3 four symmetrical about the axis of symmetry 26 arranged stiffening ribs 23 to increase the strength of the fluid filter 1 arranged in the connection area.

The two half shells 3 and 4 are on a connecting flange 20 connected with each other. The connection flange 20 is through a flange 16 formed on the second half-shell 4 facing side of the first half-shell 3 is formed and a corresponding flange 17 at the half-shell 3 facing side of the second half-shell 4 , The flanges 16 and 17 extend from the half-shells 3 . 4 radially outward. Between the two flanges 16 and 17 is one on the filter element 5 molded edge 21 held. The connecting flange 20 is thus through the flanges 16 and 17 and the edge 21 educated. The edge 21 serves to hold the filter element 5 in the case 2 , The filter element 5 is on the case 2 exclusively over the edge 21 held. However, there may also be additional supporting elements, for example in the region of the connection 22 between the filter element 5 and the housing 2 , be provided. The two flanges 16 and 17 and the edge 21 can be welded or glued together. A welding can be done for example by induction welding, laser welding, ultrasonic welding, friction welding or infrared welding. The two half shells 3 and 4 of the fluid filter 1 are made of a plastic, in particular polyamide (PA).

3 shows the fluid filter 1 in longitudinal section. The inlet opening 9 flows to the crude side 7 of the fluid filter. The raw side 7 is from the clean side 8th through the filter element 5 separated. The filter element 5 extends from the inner connecting piece 13 to the edge 21 , The filter element 5 owns a carrier 6 which is advantageously made of a plastic material. The carrier 6 has a multiplicity of passage openings 24 through which the filtered fluid from the raw side 7 on the clean side 8th can transgress. On the raw side 7 facing side is on the support 6 filter material 19 applied. The filter material 19 In particular, fiber material is on the support 6 is flooded. The filter element 5 has a folded structure. The wrinkles 18 extend annularly around the axis of symmetry 26 of the fluid filter 1 where the diameter of the folds 18 from the edge 21 to the inner connecting piece 13 decreases continuously.

On the inside of the outer connection piece 11 is a thread 25 appropriate. The thread 25 is directly in the connecting piece 11 intended. However, it may also be appropriate that the thread 25 is arranged in a metallic sleeve, in the outer connecting piece 11 is held. By screwing in the fluid filter 1 with the thread 25 to a connection component, the inlet opening 9 and the outlet port 10 connected at the same time. By appropriate bias of the filter element 5 can be ensured that the inner connecting piece over the seal 14 sealingly connected to a connection part. Instead of a thread 25 may also be another convenient connection, such as a bayonet lock or the like provided be. To the rigidity of the fluid filter 1 To further increase, additional stiffening ribs can be placed on the inside or the outside of the case 2 be provided.

Another embodiment of a fluid filter 31 is in the 4 to 6 shown. The fluid filter 31 has a housing 2 from two half-shells 3 and 4 , whose structure is essentially the housing of the fluid filter 1 equivalent. For corresponding elements of the two fluid filters 1 and 31 the same reference numerals have been used. Like the fluid filter 1 also has the fluid filter 31 a connection 22 with an inner connecting piece 13 and an outer connecting piece 11 in which the inlet opening 9 and the outlet port 10 are formed. In the case 2 of the fluid filter 31 is a filter element 35 arranged at which the inner connecting piece 13 is formed. The filter element 35 has a total of four bars 34 of which two in 4 are shown, which are arranged symmetrically and from the filter element 35 radially outward to the housing 2 extend. The bridges 34 lie on the inside of the housing in the area of the connecting flange 20 and thus hold the filter element 35 in its position in the housing 2 , The connecting flange 20 of the fluid filter 31 is from the flanges 16 and 17 the half-shells 3 and 4 formed, which are directly connected to each other, for example, welded or glued together.

As 5 shows is the fluid filter 31 rotationally symmetrical to an axis of symmetry 46 educated.

Like the cut in 6 shows, the filter element extends 35 from the inner connecting piece 13 except for the connection 22 opposite side 42 of the housing 2 of the fluid filter 31 , On the side 42 is a tubular second nozzle 40 molded into the interior of the case 2 extends and the rotationally symmetrical to the axis of symmetry 46 is trained. The second neck 40 is from a first neck 39 encompassed. The first neck 39 is on the carrier 36 of the filter element 35 molded and forms with the second neck 40 a fluid-tight connection. This is the raw side 37 of the fluid filter 31 on which the inlet opening 9 opens, fluidly from the at the outlet opening 10 opening pure side 38 separated. On the carrier 36 of the filter element 35 is filter material 41 applied, which is in particular fibrous and on the support 36 was washed ashore. The carrier 36 has a multiplicity of passage openings 44 , through the fluid from the raw side 37 on the clean side 38 can transgress. The filter element 35 However, it can also consist of filter foam.

The filter element 35 has a fold-shaped structure. In doing so, inner wrinkles alternate 48 and outer wrinkles 49 from. The inner wrinkles 48 each have a smaller diameter than the adjacent outer folds 49 ,

The fluid filter 31 owns, like that 4 and 5 show, also stiffening ribs 23 in the area of the connection 22 , There may also be further stiffening ribs on the inside and / or the outside of the housing 2 be provided. There may also be other webs for supporting the filter element 35 between the page 42 of the housing 2 and the inner connecting piece 13 be provided. Also the fluid filter 31 can be made entirely of plastic, so that it is fully incinerable and thus can be disposed of in a simple manner.

The fluid filters 1 and 31 are used in all areas of liquid filtration, for example as a fuel filter or oil filter.

Claims (22)

Fluid filter ( 1 . 31 ) with a substantially spherical housing ( 2 ), in which a filter element ( 5 . 35 ), which is a raw side ( 7 . 37 ) from a clean side ( 8th . 38 ), whereby the raw side ( 7 . 37 ) with an inlet opening ( 9 ) and the clean side ( 8th . 38 ) with an outlet opening ( 10 ), wherein inlet opening ( 9 ) and outlet ( 10 ) in a common connection ( 22 ) are arranged, which has an outer connecting piece ( 11 ) and an inner connecting piece ( 13 ), wherein the outer connecting piece ( 11 ) the inner connecting piece ( 13 ) concentrically surrounds and wherein an opening ( 10 ) in the inner connecting piece ( 13 ) and the other opening ( 9 ) in the annulus ( 27 ) between the two connecting pieces ( 11 . 13 ) is trained. Fluid filter according to claim 1, characterized in that the inner connecting piece ( 13 ) on the filter element ( 5 . 35 ) is held. Fluid filter according to claim 2, characterized in that the inner connecting piece ( 13 ) in one piece with the filter element ( 5 . 35 ) is trained. Fluid filter according to one of claims 1 to 3, characterized in that on at least one connecting piece ( 11 . 13 ) a seal ( 12 . 14 ) is arranged. Fluid filter according to one of claims 1 to 4, characterized in that the housing ( 2 ) consists essentially of plastic. Fluid filter according to claim 5, characterized in that that the Plastic is a polyamide. Fluid filter according to one of claims 1 to 6, characterized in that the housing ( 2 ) made of half shells ( 3 . 4 ) formed on a connecting flange ( 20 ) are interconnected. Fluid filter according to claim 7, characterized in that the half shells ( 3 . 4 ) are connected together by a welding process. Fluid filter according to claim 7, characterized in that the half shells ( 3 . 4 ) are joined together by an adhesive. Fluid filter according to one of claims 1 to 8, characterized in that at the outer connecting piece ( 11 ) Means for connecting the fluid filter ( 1 . 31 ) are provided. Fluid filter according to claim 10, characterized in that for connection of the fluid filter ( 1 . 31 ) a thread ( 25 ) at the outer connecting piece ( 11 ) is arranged. Fluid filter according to one of claims 1 to 11, characterized in that the filter element ( 5 . 35 ) has a wrinkle structure. Fluid filter according to one of claims 1 to 12, characterized in that the filter element ( 5 . 35 ) a carrier ( 6 . 36 ), on the filter material ( 19 . 41 ) is applied. Fluid filter according to claim 13, characterized in that the carrier ( 6 . 36 ) is made of plastic. Fluid filter according to claim 13 or 14, characterized in that the carrier ( 6 . 36 ) Passages ( 24 . 44 ) owns. Fluid filter according to one of claims 13 to 15, characterized in that the filter material ( 19 . 41 ) is a fiber material. Fluid filter according to one of claims 1 to 16, characterized in that the filter element ( 5 . 35 ) via at least one retaining element on the housing ( 2 ). Fluid filter according to claim 17, characterized in that at least one holding element is integral with the carrier ( 6 . 36 ) is trained. Fluid filter according to claim 17 or 18, characterized in that a retaining element as a peripheral edge ( 21 ) formed between the two half-shells ( 3 . 4 ) of the housing ( 2 ) is held. Fluid filter according to one of Claims 17 to 19, characterized in that at least one of the filter element ( 35 ) to the housing ( 2 ) projecting bridge ( 34 ) is provided. Fluid filter according to one of Claims 17 to 20, characterized in that the filter element ( 35 ) via a first, tubular neck ( 39 ) on the housing ( 2 ), which has a second nozzle ( 40 ) overlaps. Fluid filter according to claim 21, characterized in that the first nozzle ( 39 ) on the filter element ( 35 ) and the second nozzle ( 40 ) on the housing ( 2 ).