FILTER DEVICE FOR AN OIL FILTER

Abstract

The present invention relates to a filter device for filtration of oil, comprising a first filtration layer, a second filtration layer, and a frame element, whereinthe frame element is arranged in a sandwich-like manner between the first filtration layer and the second filtration layer, and whereinthe frame element has a multitude of passage orifices, such that a number of intermediate chambers corresponding to the multitude of passage orifices is formed between the first filtration layer and the second filtration layer, wherein the filter device is characterized in that the frame element comprises an oil-permeable filter medium, by means of which filtration of the oil passing therethrough is effected.

Claims

1-14. (canceled)

15. A filter device for filtering oil, comprising a first filtration layer, a second filtration layer and a frame element, wherein: the frame element is arranged in a sandwich-like manner between the first filtration layer and the second filtration layer, and wherein the frame element has a large number of through-openings so that a number of intermediate chambers corresponding to the large number of through-openings is formed between the first filtration layer and the second filtration layer, wherein the filter device is characterized in that the frame element is constructed to be porous, itself acts as a filtration layer, does not inhibit throughflow of the oil and comprises an oil-permeable filter medium by means of which a filtration of the oil which passes through it is carried out.

16. The filter device as claimed in claim 15, wherein the respective intermediate chambers are each delimited at the end face directly by the first filtration layer and the second filtration layer and at the edge side directly by a lateral edge of the through-openings of the frame element.

17. The filter device as claimed in claim 15, wherein a total of the cross-sectional surface-areas of the through-openings of the frame element corresponds to at least a tenth of the total surface-area of the frame element.

18. The filter device as claimed in claim 15, wherein the first filtration layer has a large number of inlet openings which each open in one of the intermediate chambers of the filter device.

19. The filter device as claimed in claim 15, wherein the respective through-openings have a circular cross-section.

20. The filter device as claimed in claim 15, wherein the first filtration layer comprises a fine filter medium and the second filtration layer comprises a coarse filter medium.

21. The filter device as claimed in claim 15, wherein the frame element comprises exclusively the oil-permeable filter medium.

22. The filter device as claimed in claim 15, wherein the oil-permeable filter medium of the frame element has a mean pore size which is greater than or equal to a mean pore size of a filter medium of the first filtration layer, and/or in that the oil-permeable filter medium of the frame element has a greater permeability than the filter medium of the first filtration layer.

23. The filter device as claimed in claim 15, wherein the oil-permeable filter medium of the frame element has a mean pore size which is less than or equal to a mean pore size of a filter medium of the first filtration layer and/or in that the oil-permeable filter medium of the frame element has a lower permeability than the filter medium of the first filtration layer.

24. The filter device as claimed in claim 15, wherein the oil-permeable filter medium of the frame element has a mean pore size which is greater than or equal to a mean pore size of a filter medium of the second filtration layer and/or in that the oil-permeable filter medium of the frame element has a greater permeability than the filter medium of the second filtration layer.

25. The filter device as claimed in claim 15, wherein the oil-permeable filter medium of the frame element has a mean pore size which is less than or equal to a mean pore size of a filter medium of the second filtration layer and/or in that the oil-permeable filter medium of the frame element has a lower permeability than the filter medium of the second filtration layer.

26. The filter device as claimed in claim 15, wherein the oil-permeable filter medium of the frame element has a mean pore size which is less than or equal to the mean pore size of a filter medium of the second filtration layer and greater than or equal to the mean pore size of a filter medium of the first filtration layer.

27. A suction filter having a filter device as claimed in claim 15.

28. A pressure filter having a filter device as claimed in claim 15.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0031] Other advantages, details and features of the invention will be appreciated below from the explained embodiment. In detail in the drawings:

[0032] FIG. 1: is a plan view of the filter device according to the invention without the second filtration layer; and

[0033] FIG. 2: is a schematic sectioned illustration of the filter device illustrated in FIG. 1 along the plane of section A-A with the second filtration layer.

DETAILED DESCRIPTION

[0034] In the description which now follows, the same reference numerals refer to the same components or same features so that a description which is carried out in relation to a Figure with respect to a component also applies to the other Figures so that a repeated description is avoided.

[0035] FIG. 1 is a plan view of a filter device 1 according to the invention which can also be referred to as a filter medium 1, and FIG. 2 is a schematic sectioned illustration of the filter device 1 illustrated in FIG. 1 along the plane of section A-A. In this instance, it should be noted that in FIG. 1 a second filtration layer 30 is not illustrated so that from FIG. 1 only a plan view of a frame element 20 and a first filtration layer 10 of the filter device 1 therebelow can be seen, whereas in FIG. 2 the second filtration layer 30 which is arranged on the frame element 20 can also be seen.

[0036] As already mentioned, the filter device 1 according to the invention for filtering oil comprises the first filtration layer 10, the frame element 20 which is arranged on the first filtration layer 10 and the second filtration layer 30 which is arranged on the frame element 20. Consequently, the frame element 20 is arranged in a sandwich-like manner between the first filtration layer 10 and the second filtration layer 30. The frame element 20 comprises an oil-permeable filter medium 21 by means of which a filtration of the oil which is passing through the oil-permeable filter medium 21 is carried out. The frame element 20 can also be referred to as a spacer element 20.

[0037] FIGS. 1 and 2 show that the frame element 20 has a large number of through-openings 22 so that between the first filtration layer 10 and the second filtration layer 30 a number of intermediate chambers 22 which corresponds to the number of through-openings 22 is formed. In this instance, the respective intermediate chambers 22 are each delimited at the end face directly by the first filtration layer 10 and the second filtration layer 30. At the edge side, the respective intermediate chambers 32 are delimited directly by a lateral edge 23 of the through-openings 22 of the frame element 20.

[0038] In the embodiment illustrated, the total of the cross-sectional surface-areas of the through-openings 22 of the frame element 20 and consequently the total of the cross-sectional surface-areas of the intermediate chambers 22 of the filter device 1 is approximately from 50% to 60% of the total surface-area of the frame element 20. However, the present invention is not limited to a corresponding percentage of the total of the cross-sectional surface-areas of the through-openings 22 relative to the total surface-area of the frame element 20.

[0039] The Figures further show that the first filtration layer 10 has a large number of inlet openings 12 which each open in one of the intermediate chambers 22 of the filter device 1. When establishing a reduced pressure in a suction filter which is not illustrated in the Figures and in which the filter device 1 is installed, oil passes via the inlet openings 12 into the intermediate chambers 22 of the filter device 1. As a result of the reduced pressure, the oil is drawn from the intermediate chambers 22 through a filter medium 31 of the second filtration layer 30. The oil also passes of course via a filter medium 11 of the first filtration layer 10 both into the intermediate chambers 22 and into an oil-permeable filter medium 21 of the frame element 20, whereupon the oil as a result of the existing reduced pressure of the intermediate chambers 22 and the oil-permeable filter medium 21 is drawn through the filter medium 31, which may be constructed as a fine filter medium 31.

[0040] The filter medium 11 of the first filtration layer 10 may, for example, be constructed as a coarse filter medium 11. The filter medium 31 of the second filtration layer 30 may, for example, be constructed as a fine filter medium 31 so that a mean pore size of the fine filter medium 31 is less than a mean pore size of the coarse filter medium 11. The oil-permeable filter medium 21, from which the frame element 20 is formed, may have a mean pore size which is less than the mean pore size of the coarse filter medium 11 and greater than a mean pore size of the fine filter medium 31. Furthermore, it is also possible for a mean pore size of the oil-permeable filter medium 21 of the frame element 20 to be greater than or equal to a mean pore size of the coarse filter medium 11 of the first filtration layer 10. Furthermore, it is also possible for a mean pore size of the oil-permeable filter medium 21 of the frame element 20 to be less than a mean pore size of the fine filter medium 31 of the second filtration layer. Limitations with respect to the size relationships of the mean pore size of the oil-permeable filter medium 21 with respect to the mean pore sizes of the coarse filter medium 11 and the fine filter medium 31 do not exist in this regard.

[0041] FIG. 1 further shows that the respective through-openings 22 and consequently the respective intermediate chambers 22 have a circular cross-section. However, the present invention is not limited to a corresponding cross-sectional geometry of the intermediate chambers 22. The intermediate chambers 22 may, for example, also have a square, a rectangular, a hexagonal, an octagonal or any polygonal cross-section. Limitations with respect to the cross-sectional shape of the intermediate chambers 22 do not exist in this regard.

LIST OF REFERENCE NUMERALS

[0042] 1 Filter device/Filter medium [0043] 10 First filtration layer [0044] 11 Filter medium/coarse filter medium (of the first filtration layer) [0045] 12 Inlet opening (of the first filtration layer) [0046] 20 Frame element/Spacer element [0047] 21 Oil-permeable filter medium (of the frame element) [0048] 22 Through-opening/Intermediate chamber [0049] 23 Lateral edge of the through-opening [0050] 30 Second filtration layer [0051] 31 Filter medium/Fine filter medium (of the second filtration layer)