The invention relates to a filter element for a filter for filtering media, in particular gases, in particular intake air, fuel or motor oil, in particular in an internal combustion engine, in particular in a motor vehicle, or ambient air for introduction into ventilation systems in buildings or motor vehicles, having a pleated filter medium with a crude side and a clean side, wherein numerous elongated adhesive sections are arranged along at least two traces of adhesive on the crude side and/or on the clean side of the filter medium, wherein at least one adhesive section and at least one adhesive interruption are arranged on each adhesive trace. The adhesive traces serve in particular to stabilize the filter element and/or to stabilize the pleats.
Various filters having pleated filter media are known from the prior art. WO 2007/056567 A1 describes a device and a method for producing pleated filter elements of different pleat heights. WO 2011/026999 A1 describes a plurality of filter elements having adhesive applications in various designs. Additional relevant patent rights include AT 368 402, EP 0 948 986 A1, FR 2 490 970.
The object of the invention is to create a filter element that is stable, even at great pleat heights, and has the highest possible filter efficiency. The filter element should have a high stability during operation. The flow path of the medium to be filtered should be optimized as much as possible.
The inventor has brought the known means for applying adhesive traces into harmony with the design of the pleats.
A filter element for filtering a medium is proposed, in particular for an internal combustion engine having such pleating that the largest possible storage space is created, which can then accommodate a relatively large volume of particles in medium to be filtered. This storage space is formed between two adjacent filter sheets. The storage space may be U-shaped or V-shaped or bag-shaped or pear-shaped as seen in a longitudinal section through the filter element. On the crude side where the filter element is exposed to the oncoming flow of the medium to be filtered, the single pleat is very narrow and tapers as a pleat tip, which serves as a flow divider. The aforementioned storage space into which the medium to be filtered enters should thus be large in comparison with the two spaces adjacent to the aforementioned storage space.
Such an asymmetrical design results in an increase in the storage volume on the crude side and thus a longer service life. More dust can be accommodated than is the case with a symmetrical arrangement of the pleated sheets of a pleat pocket.
The larger storage volume is advantageous in particular at lower filtration rates, for example in commercial vehicle applications or industrial applications. In these applications the dust cake formation at the surface of the media is relevant. In practice these are filtration rates of the medium of <6 cm/s, for example.
This invention can be put to particularly good use in the case of flat filter elements, in particular those having great pleat heights but also in the case of round filter elements.
One important aspect is the internal support of the individual pleat packets. Therefore spacers made of plastic or supporting glue beads may be used. This is necessary because reduced pressures occurring in the flow region of the medium in the intake tract during operation of an internal combustion engine can result in collapse of the pleats. Then opposing filter media sections that are opposite one another on the clean side come in direct contact with one another. Stresses and deformations leading to a collapse on the crude side may also occur due to irregularities in materials.
The invention will now be explained in greater detail with reference to the drawings in which the following are shown in detail:
The filter element 1 shown in
The filter bellows 2 shown in a detail in
The pleat pockets 11 are essentially U-shaped pleat pockets having three sides. They are angular; see edges 6. They can be created by providing embossing lines. The pleat sheets 12 and 13 form opposite sidewalls of the pleat pockets 11. The pleat base 8 is flat and connects bottom sidewall edges of the opposite sidewalls of the pleat pockets 11 at the outflow side 4 of the filter bellows 2.
The filter bellows 2 according to
Number | Date | Country | Kind |
---|---|---|---|
10 2009 040 202 | Sep 2009 | DE | national |
10 2014 009 886 | Jul 2014 | DE | national |
Number | Name | Date | Kind |
---|---|---|---|
4486201 | Noguchi | Dec 1984 | A |
5814219 | Friedmann | Sep 1998 | A |
6176890 | Svedlind et al. | Jan 2001 | B1 |
8545658 | Spearin | Oct 2013 | B2 |
8746462 | Mbadinga-Mouanda | Jun 2014 | B2 |
Number | Date | Country |
---|---|---|
368402 | Oct 1982 | AT |
2490970 | Apr 1982 | FR |
Number | Date | Country | |
---|---|---|---|
20160016100 A1 | Jan 2016 | US |