FILTER ELEMENT FOR A FILTER DEVICE

Abstract

A filter element for a filter device may include a support structure extending along an axial direction, on which on a circumference side an annular filter medium consisting of filter material may be arranged, and an annular first end disc having a passage opening through which a first pin element may be passed, so that the first pin element may project out of the passage opening along the axial direction, wherein a second pin element may axially project from the first end disc laterally spaced apart from the first pin element.

Claims

1. A filter element for a filter device, comprising: a support structure extending along an axial direction, on which on a circumference side an annular filter medium consisting of filter material is arranged; and an annular end disc having a passage opening through which a first pin element is passed, so that the first pin element projects out of the passage opening along the axial direction, wherein a second pin element axially projects from the end disc laterally spaced apart from the first pin element.

2. The filter element according to claim 1, wherein the first pin element and the first end disc are arranged concentrically relative to one another.

3. The filter element according to claim 1, wherein the support structure is formed as a grating structure with a tubular body-like geometry, which limits a tubular body interior in which the first pin element extends.

4. The filter element according to claim 1, further comprising a second end disc, which is located opposite the first end disc along the axial direction, so that the filter medium is axially arranged between the two end discs; wherein the support structure is connected to the second end disc and projects from the second end disc towards the first end disc.

5. The filter element according to claim 4, wherein the first and second pin elements (6a, 6b), the support structure, and the first and second end discs are formed material-uniformly.

6. The filter element according to claim 4, wherein the first pin element is integrally moulded on the second end disc, and the first pin element is integrally moulded on the first end disc.

7. The filter element according to claim 1, wherein at least one of the first pin element and the second pin element has a cruciform geometry in a cross section perpendicular to the axial direction.

8. The filter element according to claim 1, wherein a first valve body is arranged on the first pin element and a second valve body is arranged on the second pin element each for closing a respective valve opening.

9. The filter element according to claim 4, wherein a fastening device is provided on a side of the second end disc facing away from the filter medium for adjustably connecting the filter element to a filter housing cover.

10. A preassembly group for a fluid cell, comprising: a filter housing limiting a housing interior, which comprises an open-design filter housing bowl, and a filter housing cover for closing the filter housing bowl, wherein the filter housing cover is detachably fastened to the filter housing bowl; a filter element replaceably arranged in the housing interior, the filter element having: a support structure extending along an axial direction, on which on a circumference side an annular filter medium consisting of filter material is arranged; and an annular first end disc having a passage opening through which a first pin element is passed, so that the first pin element projects out of the passage opening along the axial direction, wherein a second pin element axially projects from the first end disc laterally spaced apart from the first pin element; a first valve opening provided on the filter housing cover, together with which a first valve body forms a first valve device; and a second valve opening provided on the filter housing cover, together with which a second valve body forms a second valve device; wherein the filter housing bowl and the filter housing cover are at least one of formed and matched to one another in such a manner that the filter housing cover is formed so as to be insertable in the filter housing bowl.

11. An assembly group for a filter device, comprising: a preassembly group according to claim 10; and a filter cell, which comprises a fluid cell housing, in which the preassembly group is receivable or received; wherein the filter housing cover of the filter housing is detachably fixed on the fluid cell housing via a bayonet joint.

12. A filter device for an internal combustion engine, comprising: a filter head comprising a flange; an assembly group according to claim 11, which is arranged on the flange; and a raw oil connection and a clean oil connection each provided on the filter head and which fluidically communicate with the first and second valve openings of the assembly group.

13. The filter device according to claim 12, wherein the filter device comprises an adjusting device via which the filter housing bowl with the filter element and the first and second pin elements provided on the filter element or first and second valve bodies is axially adjustable relative to the filter housing cover with the first and second valve openings between a closed position, in which the first and second valve bodies close the first and second valve openings in a fluid tight manner, and an open position, in which the first and second pin elements open the valve openings for raw or clean oil to flow through.

14. The filter device according to claim 12, wherein the filter head and the assembly group are equipped or matched to one another in such a manner that the first and second pin elements close the first and second valve openings for as long as the assembly group is not arranged on the filter head.

15. The filter device according to claim 12, wherein the filter head and the assembly group are equipped or matched to one another in such a manner that the filter housing bowl is in the closed position for as long as the assembly group is not arranged on the filter head.

16. The filter device according to claim 12, wherein the filter head and the assembly group are equipped or matched to one another in such a manner that an adjusting of the filter housing bowl from the closed position into the open position, is only possible with the assembly group arranged on the filter head.

17. The filter device according to claim 12, wherein: the adjusting device with the assembly group fitted onto the flange is mechanically connected to the filter housing bowl; and the adjusting device is designed in such a manner that a rotational movement of the adjusting device about an axis of rotation, which extends along the axial direction is accompanied by an axial adjusting movement of the adjusting device and of the filter housing bowl.

18. The filter device according to claim 12, wherein an adjustable mechanical connection between the filter housing bowl and the adjusting device is realised via a filter head bayonet joint.

19. An internal combustion engine, comprising a filter device having: a filter head comprising a flange; an assembly group arranged on the flange, the assembly group having a filter cell with a fluid cell housing, and a preassembly group receivable in the fluid cell housing, the preassembly group having: a filter housing limiting a housing interior, which comprises an open-design filter housing bowl, and a filter housing cover for closing the filter housing bowl, wherein the filter housing cover is detachably fastened to the filter housing bowl; a filter element replaceably arranged in the housing interior, the filter element having: a support structure extending along an axial direction, on which on a circumference side an annular filter medium consisting of filter material is arranged; and an annular first end disc having a passage opening through which a first pin element is passed, so that the first pin element projects out of the passage opening along the axial direction, wherein a second pin element axially projects from the first end disc laterally spaced apart from the first pin element; a first valve opening provided on the filter housing cover, together with which a first valve body forms a first valve device; and a second valve opening provided on the filter housing cover, together with which a second valve body forms a second valve device; and a raw oil connection and a clean oil connection each provided on the filter head and which fluidically communicate with the first and second valve openings of the assembly group; wherein the filter housing bowl and the filter housing cover are at least one of formed and matched to one another in such a manner that the filter housing cover is formed so as to be insertable in the filter housing bowl; and wherein the filter housing cover of the filter housing is detachably fixed on the fluid cell housing via a bayonet joint.

20. The filter device according to claim 16, wherein the adjusting of the filter housing bowl from the closed position into the open position is via the adjusting device.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0057] A preferred exemplary embodiment of the invention is shown in the drawing and is explained in more detail in the following description.

[0058] It shows, in each case schematically:

[0059] FIG. 1 the components of the filter element according to the invention in a non-assembled state,

[0060] FIGS. 2, 3 the assembled filter element of FIG. 1 in different perspective views,

[0061] FIG. 4 the assembly group with preassembly group and fluid cell in a longitudinal section,

[0062] FIG. 5a, b, c representations illustrating the assembly of the assembly group of FIG. 4,

[0063] FIG. 6a, 6b the filter device with assembly group according to filter head of an internal combustion engine in a longitudinal section,

[0064] FIG. 7 a fastening flange provided on the fluid cell housing for attaching the assembly group with the filter element,

[0065] FIG. 8a, 8b an adjusting device for adjusting the valve devices between an open position and a closed position,

[0066] FIG. 9 the filter housing cover of the filter housing,

[0067] FIG. 10 the assembly group with filter housing bowl installed in the fluid cell housing.

DETAILED DESCRIPTION

[0068] The FIGS. 1 to 3 show an example of a filter element 1 according to the invention. The FIG. 1 shows the essential components of the filter element 1 prior to the assembly, the FIGS. 2 and 3 an assembled state in two different perspective views.

[0069] The filter element 1 comprises a support structure 2 which extends along an axial direction A. On the circumference side, an annular or hollow-cylindrical filter medium 3 consisting of filter material, for example of a non-woven fabric or filter paper is arranged on the support structure 2. The axial direction A extends along a centre longitudinal axis M of the annular or hollow-cylindrical filter medium 3. A radial direction R extends perpendicularly away from the centre longitudinal axis M, a circumferential direction U circulates about the centre longitudinal axis M. The axial direction A, the radial direction R and the circumferential direction U each extend orthogonally relative to one another.

[0070] As is evident from FIG. 1, the filter element 1 comprises an annular first end disc 4a, which encloses a passage opening 5. From the representation of the FIG. 3 it is evident that with the assembled filter element 1 the passage opening 5 is passed through by a first pin element 6a so that the same projects out of the passage opening 5 along the axial direction A. In an alternative embodiment, the pin element 6a can be connected to the first end disc 4a via webs, in particular via at least three webs. In this exemplary embodiment, the pin 6a is positioned further centrally in the passage opening 5 but is nevertheless a part of the first end disc 4a and does not project through the same. Apart from this, a second pin element 6b laterally projects from the first end disc 4a spaced apart from the first pin element 6a in the axial direction A away from the filter medium 3. The two pin elements 6a, 6b can substantially have the same geometrical shape. In the example of FIGS. 1 to 3, the two pin elements 6a, 6b each for example have the geometrical shape of a cross in a cross section perpendicularly to the axial direction A. On the two pin elements 6a, 6b, valve bodies (not shown here) each for closing valve openings can be arranged.

[0071] According to FIG. 3, the first pin element 6a and the first end disc 4a are arranged concentrically relative to one another. Apart from this, the first pin element 6a is also concentrically arranged relative to the passage opening 5.

[0072] According to FIG. 1, the support structure 2 is formed as a grating structure with the geometry of a tubular body. Here, the grating structure 7 limits a tubular body interior 8 in which the first pin element 6a extends in certain portions. Thus, a main portion 9a of the first pin element 6a extends within the tubular body interior 8 and merges into an end portion 9b along the axial direction A, which engages through the passage opening 5 of the first end disc 4a and axially projects out of the passage opening 5. In addition, the filter element 1 comprises a second end disc 4b which is located opposite the first end disc 4a along the axial direction A. Thus, the filter medium 3 is axially arranged between the two end discs 4a, 4b. The filter medium 3 and thus also the filter element 1 are thus limited by the two end discs 4a, 4b along the axial direction A. Practically, the two end discs 4a, 4b are formed circularly. In contrast with the first end disc 4a, the second end disc 4b does not enclose a passage opening. In an embodiment alternative to this, the upper end disc can comprise a bypass passage with a bypass valve which is fastened to the filter housing or to the filter element 1.

[0073] According to FIG. 1, the support structure 2 is connected to the second end disc 4a and projects from the same towards the first end disc 4a along the axial direction A. In an alternative configuration thereto, the support structure 2 can also be floatingly arranged between the two end discs 4a, 4b. Here, the support structure 2 is passed through by a circular or cylindrical opening 10 formed in the annular or hollow-cylindrical filter medium 3 and extending along the axial direction A. Practically, the two pin elements 6a, 6b, the support structure 2 and the two axial end discs 4a, 4b are formed material-uniformly. A suitable plastic is possible for example as material. Preferably, the first pin element 6a is integrally moulded on the second end disc 4b and the second pin element 6b integrally on the first end disc 4a. Finally, a fastening device 13 for adjustably connecting the filter element 1 to a filter housing cover (not shown in the FIGS. 1 to 3) can be provided on a side 12 of the second end disc 4b facing away from the filter medium 3 can be provided.

[0074] FIG. 4 shows in a longitudinal section an example of an assembly group 50 according to the invention. The assembly group 50 comprises a preassembly group 20 and a fluid cell 51 which according to FIG. 4 comprises a fluid cell housing 52.

[0075] The fluid cell housing 52 limits a fluid cell housing interior 56 in which fluid, in particular oil can be stored.

[0076] In the fluid cell housing 52 a fluid cell opening 53 is provided, in which the preassembly group 20, in particular the filter housing bowl 21, can be inserted. The preassembly group 20 and the fluid cell 51 together form an assembly group.

[0077] Besides the filter element 1 already explained in connection with the FIGS. 1 and 3, the preassembly group 20 comprises a filter housing 49 which limits a housing interior 22 and comprises an open-design filter housing bowl 21 and a filter housing cover 25 closing the filter housing bowl 21.

[0078] In the example of the figures, the filter housing bowl 21 is formed cylindrically, wherein an axial direction A of the filter housing 49 extends along the centre longitudinal axis M of the same. A radial direction R extends orthogonally away from the centre longitudinal axis M, a circumferential direction U circulates about the centre longitudinal axis M. For illustration, reference is made to FIG. 9 which shows the filter housing bowl 21 in a separate, perspective representation.

[0079] For as long as the filter housing cover 25 does not close the filter housing bowl 21 the filter element 1 can be replaceably inserted in the housing interior 22 and again removed from the same. In addition, the filter housing cover 25 can also be detachably fastened to the fluid cell housing. This scenario is shown in FIG. 4 in which the filter housing cover 25 is fastened to the fluid cell housing 52 and at the same time closes the filter housing bowl 22 of the filter housing 49 received in the fluid cell opening 53 of the fluid cell housing 52.

[0080] With the filter element 1 arranged in the housing interior 22, the same subdivides the housing interior 22 into a raw side 23 and into a clean side 24. In the exemplary scenario of FIG. 4, the clean side 24 is arranged radially within the side 23 so that the fluid or oil to be filtered flows from radially outside to radially inside through the filter medium 3 of the filter element 1. Obviously an obverse radial arrangement of raw side 23 and clean side 24 is also conceivable in versions in such a manner that the side 23 is arranged radially within the clean side 24 and the fluid to be filtered consequently flows from radially inside to radially outside through the filter medium 3 of the filter element 1. The filter element 1 that is replaceably arranged in the housing interior 22 can be adjusted from the operating position shown in FIG. 4, in which the filter element 1 is fixed on the filter housing 49, by a rotation about the centre longitudinal axis or fluid cell housing A, i.e. along the circumferential direction U, into a filter element insertion position. In this filter element insertion position, the filter element 1, the filter housing cover 25 removed from the filter housing bowl 21, is removable from the open filter housing bowl 21 through a movement along the axial direction A relative to the same. This function is realised through a connection 60, in particular through a bayonet joint or through a suitable clip-type connection, by means of which the filter element 1 arranged in the housing interior 22 is connected to the filter housing bowl 21. With the help of the connection 60, the filter element that is replaceably arranged in the housing interior 22 can be adjusted out of the operating position, in which the filter element 1 is fixed on the filter housing 49 or in the filter housing bowl 21, through a rotation fluid cell housing A, into the filter element insertion position. In the filter element insertion position the filter element 1, with the filter housing cover 25 removed from the filter housing bowl 21, can be removed from the filter housing bowl 21 through a movement along the axial direction A relative to the open filter housing bowl 21. The said connection 60 on the filter element-side is formed by the fastening device 13 (see FIGS. 1, 2). The said fastening device 13, which for forming the connection 60 can comprise a slotted guide 54, interacts with a driver 55 provided on the bowl bottom 31 of the filter housing bowl 21.

[0081] Practically, the filter element 1 is preassembled in the filter housing bowl 21 of the filter housing 49 before the filter housing bowl 21 is arranged with the filter element 1, as shown in FIG. 4, as a unit in the fluid cell housing 52. Alternatively to this it is also conceivable however to preassemble the filter housing bowl 21 in the fluid cell housing 52 and assemble the filter element 1 in the filter housing bowl 21 already arranged in the fluid cell housing 52 only thereafter.

[0082] The filter housing cover 25 shown in the longitudinal section of FIG. 4 can, in an analogous manner to the filter housing bowl 21, can substantially have the geometrical shape of a cylinder. Here, the filter housing cover 25 is formed in such a manner that it can be inserted into the filter housing bowl 21 along the axial direction A, in which it can be again removed from the filter housing bowl 21. This is possible independently of whether the filter housing bowl 21 has already been preassembled on the fluid cell housing 52 or not. Following the assembly of the filter element 1 in the filter housing bowl 21, the filter housing cover 25 is typically inserted into the filter housing bowl 21 and the preassembly group 20 formed in this way. For forming a plug connection between the filter housing bowl 21 and the filter housing cover 25, the filter housing cover 25 comprises a cover bottom 61 from which a cover collar 62 projects axially. In the state the filter housing cover 25 inserted in the filter housing bowl, this cover collar 62 lies against a circumferential wall of the filter housing bowl 21 with an axial end portion 63 facing away from the cover bottom 61. In this way, a plug connection 64 is formed between the filter housing cover 25 and the filter housing bowl 21. In the region of the plug connection 64, a sealing device 65 with a sealing element, in particular in the form of an 0-ring, can be provided, which seals the raw side 23 relative to the outer circumference 66 of the filter housing 49.

[0083] Following the arranging of the preassembly group with the filter housing bowl 21 and the filter housing cover 25 in the fluid cell housing 52, as shown in FIG. 4, the filter housing cover 25 is in an insertion position. The filter housing cover 25, emanating from the insertion position, can be rotated relative to the fluid cell 51 into an operating position, in which it can no longer be removed from the fluid cell housing 52 of the fluid cell 51 along the axial direction A. In the insertion position, the filter housing cover 25 is thus axially fixed in the filter housing bowl 21. The rotational movement takes place along the circumferential direction U, i.e. in a rotary plane that is perpendicular to the axial direction A. In order to again remove the filter housing cover 25 and the filter housing bowl 21 as preassembly group 20 from the fluid cell housing 52 it is essential to initially rotate the filter housing cover 25 again back out of the operation position into the insertion position.

[0084] As is illustratively confirmed by FIG. 4, a fold-out handle 67 is provided on the filter housing cover 25, which may serve for removing the filter housing cover 25 from the filter housing bowl 21 along the axial direction A and for rotating the filter housing cover 25 relative to the fluid cell 51 along the circumferential direction U. This handle 67 is designed so as to be foldable or pivotable about a pivot axis S, which extends orthogonally to the axial direction A according to FIG. 4.

[0085] The detachable fastening of the filter housing cover 25 described above and the fixing of the filter housing bowl 21 on the fluid cell housing 52 accompanied by this can technically take place with the help of a connectionthis can for example be realised as a bayonet joint 40by means of which the filter housing cover 25 is not only easily attached to the fluid cell housing 52, but the filter housing bowl 21 can also be fixed to the fluid cell housing 52 at the same time. The filter housing cover 25 fixed on the fluid cell housing 52 by means of the bayonet joint 40 blocks an axial removal of the filter housing bowl 21 from the fluid cell housing 52.

[0086] The said bayonet joint 40 can be formed on the filter housing cover side on the handle 67 of the filter housing cover 25 introduced above. To this end, two fastening elements 68a, 68b are provided on the handle 67 according to FIG. 4, which can be formed in the manner of extensions 69a, 69b.

[0087] The fastening elements 68a, 68b or the extensions 69a, 69b extend the handle 67 along the pivot axis S and lie opposite one another along this pivot axis S. The two fastening elements 68a, 68b can be integrally moulded on the handle 67 as shown. The fastening elements 68a, 68b make possible fixing the handle 67 and thus the entire filter housing cover 25 on the fluid cell housing 52 of the fluid cell 51.

[0088] In the following, the functioning of the connection formed as bayonet joint 40 is explained by way of the FIGS. 5a, 5b and 5c. Here, the FIGS. 5a-5c illustrate a version of the assembly of the assembly group 50, in which the filter housing bowl 21 is initially arranged in the fluid cell opening 53 of the fluid cell housing 52 of the fluid cell 51 without the filter element 1. According to FIG. 5a, the filter element 1 is also fastened to the filter housing bowl 21 through axial insertion in the housing interior 22 only after completed assembly of the filter housing bowl 21 in the fluid cell housing 52.

[0089] Following this, the filter housing cover 25, as shown in FIG. 5b, is inserted in the filter housing bowl 21 along the axial direction A using the handle 67. Following this insertion, the filter housing cover 25 is in its insertion position.

[0090] As part of the bayonet joint 40, two recesses 41a, 41b which are complementary to the two fastening elements 68a, 68b are provided on the filter housing bowl 21, in which the two fastening elements 68a, 68b or extensions 69a, 69b can engage with the filter housing cover 25 inserted in the filter housing bowl 21. The two recesses 41a, 41b are designed open along the axial direction A. Accordingly, two recesses 42a, 42b are provided on the fluid cell housing 52 as part of the bayonet joint 40, in which the fastening elements 68a, 68b provided on the filter housing cover 25 can likewise engage. The recesses 42a, 42b co-forming the bayonet joint 40, are arranged on a circumferential wall 44 of the fuel cell housing 52 on the inside, which forms a fastening flange 45 for fastening the filter housing 25.

[0091] Such a fastening flange 25 can be formed as a component that is separate relative to the fluid cell housing 52 and be fastened to the actual fluid cell housing 52 with the help of a screw connection. For illustration, the annularly formed fastening flange 45 is shown in a perspective representation in FIG. 7. The two recesses 42a, 42b can each be formed as receiving groove 43a, 43baccording to FIG. 7. Each of the two receiving grooves 43a, 43b comprises a first groove portion 44a.1, 44b.1 extending along the axial direction A, in which the fastening elements 68a, 68b provided on the handle 67, engage during the axial insertion of the filter housing cover 25 in the filter housing bowl 21 in order to move the filter housing cover 25 into the insertion position. In each of the two receiving grooves 43a, 43b, the respective first groove portion 44a.1, 44b.1 merges into a second groove portion 44a.2, 44b.2, which for the rotational adjusting of the filter housing cover 25 from the assembly position into the operation position extends along the circumferential direction U.

[0092] Following the insertion of the filter housing cover 25 in its insertion position, the two fastening elements 68a, 68b or extensions 69a, 69b of the handle 67 engage in the two recesses 42a, 42b provided on the fluid cell housing 52 and forming a part of the bayonet joint 40 and in the process simultaneously engage through the recesses 41a, 41b provided on the filter housing bowl 21 along the radial direction R. Thus, during the rotational adjusting of the filter housing cover 25 from the insertion position into the operation position and back into the insertion position, the filter housing bowl 21 with the filter element 1 are driven by the fastening elements 68a, 68b or the extensions 69a, 69b provided on the handle 67. As explained above, the fluid cell housing 51 of the fluid cell 51 and the filter housing bowl 21 of the filter housing 49 are designed and matched to one another for forming the bayonet joint 40 in such a manner that following an axial insertion of the filter housing bowl 21 into the fluid cell housing 52, the recesses 42a, 42b provided on the fluid cell housing 52 and the recesses 41a, 41b provided on the filter housing bowl are aligned with one another along the radial direction R.

[0093] Following this, the handle 67 and thus also the entire filter housing cover 25 are rotated about the centre longitudinal axis M which is shown in FIG. 5c. Following this rotational movement, the filter housing cover 25 is in its operating position.

[0094] The resulting installation situation is shown in FIG. 6a which analogous to FIG. 4 shows a longitudinal section of the assembly group 50 with a preassembly group 20 however in another section plane. As the representation of the FIG. 6a illustrates, a first valve opening 28 is provided on the filter housing cover 25 fixed in place relative to the same, together with which the first valve body 26a forms a first valve device 29a. Analogous thereto, a second valve opening 28b is provided on the filter housing cover 25 fixed in place relative to the same, together with which the second valve body 26b forms a second valve device 29b. The two valve openings 28a, 28b are arranged on a cover bottom 61 of the filter housing cover 25. Both in the insertion position and also in the operation position of the filter housing cover 25, the first pin element 6a is aligned with the first valve opening 27a of the first valve device 29a. Analogously, the second pin element 6b is aligned with the second valve opening 28b of the second valve device 29b. In the state shown in FIG. 6a, the two pin elements 6a, 6b close the two valve openings 28a, 28b.

[0095] The assembly group 50 with the preassembly group 20 and the fluid cell 51 shown in FIG. 6a is part of a filter device 70, which in addition to the assembly group 50 comprises a filter head 1 with a flange 72 on which the assembly group 50 can be fitted along the axial direction A. On the filter head 71 of the filter device 70, a raw oil connection 73 and a clean oil connection 74 are provided, which in a state of the assembly group 50 fitted onto the flange 72this state is shown in FIG. 6bfluidically communicate with the first and second valve opening 28a, 28b of the filter housing cover 25.

[0096] As is additionally evident from FIG. 6a, a third pin element 6c with a third valve body 26c can be provided in addition to the first and second pin element 6a, 6b, 6c on the filter housing bowl 21, by means of which a third valve opening 28c formed on the filter housing cover 25 can be closed or opened for fluid, in particular oil to flow through. The third valve device 29c formed by the third valve opening 28c and the third valve body 26c is arranged in a fluid line 35 which is formed in the filter housing cover 25. In an assembled state of the assembly group 50 the fluid line 35 communicates with the fluid cell housing interior 56 via an opening 36 formed in the filter housing cover 25 (also shown in FIG. 9).

[0097] When the preassembly group 20 is mounted on the fluid cell 51, the fluid line 35 fluidically connects the fluid cell housing interior 56 limited by the fluid cell housing 51 with an additional oil connection 79 provided on the filter head 71. In this wayanalogously to the first and second valve devicethe fluid flow or oil flow of the oil or fluid stored in the fluid cell 52 can be steered into the filter head 71 and vice versa. In particular, an undesirable leakage of oil from the fluid cell housing interior 56 of the fluid cell 52 can be avoided.

[0098] According to the FIGS. 6a and 6b, the filter device 70 comprises an adjusting device 75. By means of the adjusting device 75, the filter housing bowl 22 with the filter element 1 and the pin elements 6a, 6b provided on the filter element 1 can be adjusted along the axial direction A relative to the filter housing cover 25 with the valve openings 28a, 28b. In this way, the filter housing bowl 21 can be adjusted between a closed position, in which the pin elements 6a, 6b close the valve openings 28a, 28b in a fluid-tight manner, and an open position, in which the pin elements 6a, 6b open the valve openings 28a, 28b for raw or clean oil to flow through.

[0099] In order to impart the filter housing bowl 21 the required axial adjustability, the respective second groove portion of the receiving grooves 43a, 43b that are present on the fluid cell housing 52 is dimensioned in the axial direction A in such a manner that the filter housing bowl 21 can be axially adjusted between the open position and the closed position. Here, the filter head 71 and the assembly 50 are equipped or matched to one another in such a manner that the filter housing cover is in the closed position for as long as the assembly group 50 is not arranged on the filter head 71. Thus, the filter head 71 and the assembly group 50 are thus equipped or matched to one another in such a manner that such a manner that the two pin elements 6a, 6b close the two valve openings 28a, 28b for as long as the assembly group 50 is not arranged on the filter head 71. For opening the valve openings 28a, 28b, an adjusting of the filter housing bowl 21 into its open position is required, which is only possible by means of the adjusting device with the assembly group 50 arranged on the filter head. For adjusting the filter housing bowl 21 from its closed position into the open position by means of the adjusting device 71, the same is mechanically connected to the filter housing bowl 21 with the assembly group 50 fitted onto the flange 72. The adjusting device 71 is designed in such a manner that a rotational movement of the adjusting device 75 about an axis of rotation which extends along the axial direction A, is accompanied by an adjusting movement of the adjusting device 75 and thus also of the filter housing bowl 21 that is mechanically connected to the adjusting device 75 along the axial direction A.

[0100] On the filter housing cover 25, a positioning aid 32 formed tubular body-like can be moulded for positioning the filter element 1 with the pin elements 6a, 6b relative to the valve openings 28a, 28b provided on the filter housing cover 25. Practically, the face end of the tubular body-like positioning aid 32 facing away from the filter housing cover 25 can comprise a chamfer. In this way, the filter element 1 with the pin elements 6a and 6b is not only radially positioned or centred in the housing interior 22 but also rotationally positioned so that the two pin elements 6a, 6b of the filter element 1 already assembled in the filter housing bowl 21 are aligned with one another relative to the valve openings 28a provided on the filter housing cover 25 as desired when the filter housing cover 25 is inserted into the filter housing bowl 21.

[0101] For illustrating the adjusting mechanism explained above, the FIGS. 8a and 8b show the construction of the filter head 71 with the adjusting device 75 in a separate representation. The FIG. 8a shows an isometric view, FIG. 8b is an exploded representation of the FIG. 8a. According to the FIGS. 8a, 8b, the adjusting device 75 comprises an annular adjusting body 76 which in the state of the assembly group 50 mounted on the filter head 71 is mechanically adjustably connected to the filter housing bowl 21. This adjustable mechanical connection between the filter housing bowl 21 and the adjusting device 75 or the adjusting body 76 is realised by way of a further bayonet jointadditional to the bayonet joint 40, which in the following is referred to as filter head bayonet joint 77. In the example of the FIGS. 8a and 8b, the filter head bayonet joint 77 altogether comprises four receiving grooves 81 formed on the inner circumference 78 of the adjusting body 76 formed on the adjusting body, each of which have an axial gradient along the circumferential direction U of the adjusting body.

[0102] For each of these receiving grooves 81, the filter head bayonet joint 77 according to FIG. 9this figure shows the filter housing cover 25 separately in a perspective representationcomprises a projection 83 arranged on the outer circumference 82 of the filter housing bowl 21, which in the state of the assembly group 50 or preassembly group 20 mounted on the filter head 71 engages in the receiving groove 81 respectively assigned to it (not shown in FIG. 9). The receiving grooves 81 and the associated projections 83 of the filter head bayonet joint 77 are formed and matched to one another in such a manner that a rotation of the adjusting body 77 fluid cell housing A brings about an axial movement of the filter housing bowl 21 so that the filter housing bowl 21 in this way is adjusted between its open position and its closed position.

[0103] FIG. 10 shows the filter housing cover 25 of FIG. 9 as part of the assembly group 50, i.e. with the filter housing bowl 21 received in the fluid cell housing 52 of the fluid cell 51. In the exemplary scenario, the receiving grooves 81 and the projections 83 respectively are equidistantly arranged along the circumferential direction U of the adjusting body 75 and the housing bowl 21 respectively. Obviously a non-equidistant arrangement is also conceivable in a version. Likewise, a different number of receiving grooves 81 and projections 83 can be provided than exemplarily selected in the exemplary scenario. Each of the receiving grooves 81 provided on the adjusting body and the projection 83 of the filter head bayonet joint 77 provided on the filter housing bowl 21 and assigned in each case to this receiving groove 81 are matched to one another in such a manner that a rotation of the adjusting body 75 fluid cell housing A brings about an axial movement of the filter housing bowl 21, so that the filter housing bowl 21 in this way is adjusted between the open position and the closed position. In order to make it easier for a worker to rotate the adjusting body 75, an actuating element 84 in the form of a handle 85 can be provided on the same.

[0104] As is evident from the FIGS. 8a and 8b, the adjusting device 75 can comprise a retaining ring 86 by means of which the adjusting body 76 is axially fixed on the flange 72. The adjusting body 76 and the retaining ring 86 are formed or matched to one another in such a manner that the rotatability of the valve body 76 along the circumferential direction U remains ensured. To this end, a guide ring 87 can be provided on the flange 71, which makes possible a defined rotational movement of the adjusting body 76 along the circumferential direction U. Practically, the adjusting body 76 and the guide ring 87 are axially arranged between the retaining ring and the flange 72.