WO2011138247A1

WO2011138247A1 - Filter layer

Info

Publication number: WO2011138247A1
Application number: PCT/EP2011/056860
Authority: WO
Inventors: Hans Jensen; Timo Muffler; Tilmann Wächter; Hans Waibel; Dietmar Wilhelm
Original assignee: Mahle International Gmbh
Priority date: 2010-05-03
Filing date: 2011-04-29
Publication date: 2011-11-10
Also published as: DE102010019046A1

Abstract

The invention relates to a filter layer (1) having a flat filter track (3) and at least two corrugated filter tracks (2, 15) connected thereto and together bounding parallel filter channels (4, 4', 4''), wherein the two corrugated filter tracks (2, 15) have different corrugations and wherein at least the filter channels (4, 4') bounded by the two filter tracks (2, 15) are filled with adsorption agent (10), in particular with powdered activated carbon (5), and the filter channels (4'') between the corrugated filter track (2) and the flat filter track (3) are closed at one longitudinal end or the other. The invention further relates to a fuel tank bleeding system of an internal combustion engine, having a wound filter (7) made of such a filter layer (1).

Description

filter layer

The present invention relates to a filter layer with a flat filter web and at least two corrugated filter webs connected thereto. The invention also relates to a filter constructed from such a filter layer and to a fuel tank venting system having such a filter.

From DE 10 2004 000 050 a filter wound from filter webs is known, in which in each second channel of the corrugation activated carbon for receiving odors or hydrocarbons is provided. This winding filter should be used primarily as an interior air filter. Therefore, he has a very high flow rate of fresh air, which must be supplied to the vehicle interior to withstand and because normally occur in the fresh air only slightly unburned hydrocarbons, a relatively low storage capacity for these hydrocarbons.

For the case of use of an adsorption filter in automobiles to adsorb the fuel vapors of the fuel tank, an adsorption filter is often disposed in a tank vent line of the fuel tank to prevent undesirable emission of hydrocarbons into the environment through the vent line. Activated carbon, for example, which adsorbs the hydrocarbons and thus fixes them, can be used as the adsorbent. During operation of an internal combustion engine, at least part of the fresh air required for combustion is sucked through parts of the tank vent line and thus through the adsorption filter arranged there, whereby the hydrocarbons stored in the activated carbon are released again, that is desorbed and fed to the combustion. The activated carbon in such an adsorption filter is usually in the form of granules, honeycomb bodies, pellets or compressed granules. The present invention addresses the problem of providing for a filter sheet an improved embodiment with which high adsorptivity and rapid desorption can be achieved.

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 present invention is based on the general idea to provide a filter layer known per se with a planar and an associated corrugated filter web with an additional corrugated filter web, wherein the two corrugated filter webs have different corrugations, in particular amplitudes and / or wavelengths. In the waves of the further corrugated filter layer activated carbon is preferably filled into each corrugation. It is used granular activated carbon and more preferably finely granulated or powdered activated carbon. Such dusty activated carbon may u.U. falls in other applications as a waste product incurred. Activated carbon dust has a significantly increased surface area in comparison to granular activated carbon or activated carbon in pellet form, whereby the adsorption capacity can be increased. The corrugations of the first corrugated filter web lying between the corrugations filled with pulverulent activated carbon as adsorbent are furthermore closed either at one or at the other longitudinal end,

The present invention is further based on the general idea to produce a filter from a filter layer described in the previous paragraph. From the filter layer described above, both a plate and a wound filter can be produced. Other important features and advantages of the device according to the invention will become apparent from the subclaims, from the drawings and from the associated figure description with reference to the drawings.

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.

A preferred embodiment of the invention is illustrated in the drawings and will be explained in more detail in the following description.

Show, in each case schematically,

1 shows a filter layer according to the invention,

2 is a sectional view through several stacked filter layers according to the invention,

3 shows a further sectional view, perpendicular to FIGS. 2 and 4, through an adsorption filter according to the invention,

4 shows an inventive winding filter from a filter layer according to FIG.

1 wrapped,

5 shows an adsorption filter in which the filter layer according to the invention is used. 1, a filter layer 1 according to the invention has two corrugated filter webs 2, 15 and a flat filter web 3, which delimit together parallel filter channels 4, 4 ^' , 4 ^" All filter channels 4 ^" are on one side of the continuous filter webs 2, 3 closed. The other filter channels 4 and 4 ^' need not be closed, but it can be depending on the use. For example, the filter channels 4 or / and 4 ^{'may be} closed, preferably on the side on which the filter channels 4 ^"are open, or vice versa, the filter channels 4 ^" remain open and the others are closed. After laying the first corrugated filter web 2 on the flat filter web 3, the filter web 2 is selectively in the troughs, where the two filter webs 2, 3 touch with the flat filter web 3, for example by welding or by gluing. First, both end faces of the continuous filter webs 2,3 are open. For the use according to the invention, however, one side of the filter channels 4 should be closed. This can be achieved for example by gluing, welding or by crimping.

In a further step, a further corrugated filter web 15 is added to these prefabricated filter webs 2, 3. Since the other corrugated filter web 15 is connected to the flat filter web 3 by gluing, welding or the like, a wave height H of the further corrugated filter web 15 must be greater than the wave height Preferably, the wave height H is at least twice as large as h and at most 10 times as large, ie 2h <H <10h. The value h can be between approx. 1 mm and approx. 10mm. The wavelength of the two corrugated filter webs 3 and 15 may be different, as shown in FIGS. 1 and 2 can be seen. Since the further corrugated filter web 15 is placed on the already attached to the flat filter web 3 first corrugated filter web 2, this can at different wavelengths of Both corrugated filter webs 2 and 15 cause individual filter channels 4 ^" are pressed through a trough of the further corrugated filter web 15. In order to produce a filter body which is suitable to adsorb hydrocarbons from air, one can either stack several of the filter layers 1 according to the invention one above the other (Plate filter) and externally fix or roll up a long filter layer according to the invention 1 (wound filter) and also fix externally Both alternatives are shown in Figures 2 and 4. In order to effectively caching the hydrocarbons, one needs a relatively large volume with Activated carbon 5 or other granular adsorption media can be filled in. This volume is made available by the filter channels 4, 4 'In the case of a wound-up filter layer 1 according to the invention as shown in FIG. 4, ideally a core 17 is provided, around which the filter layer 1 is wound outer fixation a package of the filter layers 1 according to the invention, an adhesive strip, a glue bead, a rubber band or the like can be used, depending on which medium is to be cleaned.

Figs. 2 and 4 show only by way of example cutouts of the filters produced in the respective manner. Depending on the application, heights h, H must be adjusted. No adsorption medium 5 should enter the filter channels 4 ", which are delimited by the first corrugated filter web 2 and the flat filter web 3. The fluid to be cleaned, preferably air, should flow through these filter channels 4". By the construction shown here, a relatively slow flowing fluid can be cleaned. In the example of the adsorption filter of a tank ventilation system (see FIG. 5), this can be thought of as the rise of a level. The air that escapes from the fuel tank, from one side slowly fills the entire adsorption filter, or a portion 12 of the fuel tank to be sorted. 2, a granular Adsorptionsmediunn 5 preferably activated carbon 5 of the grain size <2mm in the created by the additional filter web 15 filter channels 4,4 '. Particularly preferred is a particle size of the activated carbon of 0.1 mm to 0.7 mm. Other suitable adsorption media 5 may be, for example, ceramics, zeolites or else. Their grain size must be chosen so that they can be filled into these problem-free depending on the size of the filter channels 4,4 '. Depending on the type of use of a filter constructed from the filter layer 1 according to the invention, the material from which the individual filter webs 2, 3, and 15 may be different or the same. Nonwovens or harder papers can be used.

In a further step, such an arrangement as in FIG. 2 or 4 is inserted into a housing matching thereto, as for example in FIG. 5, and the filter channels 4 and 4 ^' are filled with the selected adsorption medium 5. Ideally, the filter body is inserted into the housing so that the filter channels 4 ^" with their closed side, for example, upwards, so that when filling the filter channels 4 and 4 ^' with the adsorption 5, this can not get into the filter channels 4 ^" . Subsequently, the adsorption medium 5 is pressed by suitable means and the housing is closed (see Fig.5). FIG. 5 shows the case of use of the filter layers 1 according to the invention in an adsorption filter of a tank ventilation system.

FIG. 3 shows a section perpendicular to FIG. 2 or 4 through a filter produced from the filter layer 1 according to the invention. For this purpose, material layers 12 and 13 are respectively arranged at the lower open end of the filter channels 4 "and at the upper closed end of the filter channels 4". Preferably, these material layers 12, 13 are made of a fluid-permeable material such as non-woven or foam or the like. These material layers 12, 13 serve primarily to compress the adsorption medium 5 in the filter channels 4, 4 '. and secondarily, they retain the adsorbent medium 5 so that no fine grains from the filter channels 4, 4 'can enter areas of the intake air of a motor vehicle. The filter channels 4 "are closed at their closed end 14 by means of gluing, welding or another suitable method of the first corrugated filter web 2 with the flat filter web 3. The length L of the adsorption filter thus produced depends on the use.

For this example of the use of the filter layer 1 according to the invention in an adsorption filter in a tank ventilation system, the basic construction of a housing 6 with an internal adsorption filter of filter layers 1 according to the invention is shown in FIG. The housing 6 has a filler neck 22 which connects the filter to the fuel tank of the internal combustion engine and an air outlet 21, controlled by a suitable valve and fresh ambient air can be sucked in, and a motor stub 23. By the engine nozzle 23 is fresh during operation of the engine Sucked in ambient air. As they travel through the housing 6, the hydrocarbons stored in the adsorption filter desorb and are sent to combustion in the engine. By this rinsing process, the high storage capacity of the adsorption filter can be ensured over a long time.

The dust-like activated carbon 5 has a significantly increased adsorption capacity due to a larger surface area. In general, the corrugated filter web 2 from a Wellfiltermedium, in particular from a corrugated paper, and the flat filter sheet 3 from a carrier medium, in particular a carrier paper, be formed, in particular the flat filter sheet 3 may be formed as stable as, for example, as shown in FIG 4 is shown. As a medium here paper, nonwoven or even stretched film can be understood. The flow through the filter layer 1 takes place as follows: First occurs 5, into the filter channels 4 "and penetrates the corrugated or flat filter web 2, 3 and passes into the filter channels 4, 4 'filled with pulverulent activated carbon 5 Activated carbon 5 adsorbs the entrained hydrocarbons, so that the cleaned of hydrocarbons air can escape through the filter channels 4 "again.

In general, such a filter layer 1 according to the invention or such a wound filter 7 can be arranged in the region of a fuel tank venting system (not shown) and prevent undesirable escape of hydrocarbons from the fuel tank. During operation of the internal combustion engine of the motor vehicle, the wound filter 7 is then backwashed and the hydrocarbons adsorbed there discharged again and fed to the combustion. With the filter layer 1 according to the invention, which has dusty activated carbon 5, a highly effective filtering of hydrocarbons from, for example, a tank ventilation can be accomplished.

Claims

claims

1 . Filter layer (1) with a flat filter web (3) and at least two corrugated filter webs connected thereto (2,15), the parallel filter channels (4,4 ', 4 ") limit, wherein the two corrugated filter web (2,15) different Undulations and wherein at least the filter channels (4,4 ') delimited by the two filter webs (2,15) are filled with adsorbent (10), in particular with pulverulent activated carbon (5), and between the corrugated filter web (2) and the plane Filter web (3) lying filter channels (4 ") are closed at one or the other longitudinal end.

2. Filter layer according to claim 1,

characterized,

in that at least one corrugated filter web (2, 15) is formed from a corrugated filter medium, in particular from a corrugated paper.

3. Filter layer according to claim 1 or 2,

characterized,

in that the planar filter web (3) is formed from a carrier medium, in particular a carrier paper.

4. Filter layer according to one of claims 1 to 3,

characterized,

the filter webs (2, 15, 3) are connected to one another in a line-shaped manner, in particular welded together.

5. Filter with a filter layer (1) or wound filter (7) with a wound-up filter layer (1) according to one of the preceding claims.

6. Fuel tank ventilation system with a wound filter (7) according to claim 5.

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