EP1066462B1 - Air filter for an internal combustion engine - Google Patents

Description

The invention relates to an air filter for an internal combustion engine according to the preamble of Such an air filter is known from DE-A-4 413 765.

In internal combustion engines for vehicles, the inlet on the raw air side is usually in one Area arranged in the cold air can flow freely. The air inlet is located therefore normally behind the radiator grille of the vehicle or in the area of a fender. It has been shown that in particularly cold countries when driving through heavy snow or swirling snow are impaired, with which raw air is sucked in snow and this snow accumulates on the filter insert and may block the filter insert. This leads to a standstill of the engine.

It is also disadvantageous that when the engine is switched off, the air filter insert Snow thaws and forms a layer of ice, which the air supply to the engine interrupts and thus prevents the engine from starting.

It is therefore proposed in G 93 07 147.7, an air filter for one To create internal combustion engine in which the raw air inlet is provided with a sieve. Furthermore, a second raw air inlet is provided, which has a flap, whereby this flap opens depending on the negative pressure prevailing in the filter housing. This means that snow is prevented from entering through the sieve and - if that Sieve is clogged with snow - the second flap opens and snow-free raw air can be sucked in. The sieve effectively prevents snow from entering. However, this also results in a loss of performance, since a certain proportion of the Raw air intake through the screen structure is reduced in cross section. It was because of that tries to enlarge the mesh size of the sieve. However, this leads to flying snow can penetrate and the disadvantages described above such as clogging the filter insert occur.

Of course, there is also the possibility of increasing the raw air inlet cross section shape. This also has disadvantages, among other things it has a higher one Intake noise development.

The invention is therefore based on the object of an air filter for an internal combustion engine to create, which ensures optimal snow separation and also the Cross-sectional area of the unfiltered air inlet is not or only slightly reduced.

This object is based on the preamble of claim 1 characteristic features solved.

The advantage of the invention is that the sieve or the closed flap opens or closes depending on the raw air temperature. The movement sequence can be controlled, for example, using a wax thermostat. This means that the full cross-section is at a temperature above a certain value Raw air opening available. The internal combustion engine can achieve its maximum output unfold. Below the limit temperature, i.e. H. for example at a temperature of less than + 2 ° C the sieve or flap closes and prevents the raw air inlet thus the penetration of snow.

According to one embodiment of the invention, the further raw air inlet is provided with a weight or spring loaded flap. The closing force is such dimensioned so that the flap only opens when there is a vacuum, which arises when the sieve is closed with snow or the flap due to the temperature of the raw air opening has closed.

A further embodiment of the invention provides the further raw air inlet in the area a snow-free zone of the engine compartment. This can be behind the example Be an air cooler. There is also the possibility of this raw air inlet in the area of Exhaust manifold to arrange to suck in heated air.

To open the raw air inlet provided with the sieve or flap Various control elements can be provided. There is the possibility of the negative pressure in the Sensing the raw air area of the air filter and generating an actuating signal, which is in An actuator is activated depending on the sensed negative pressure. There is also Possibility to provide a simple expansion thermostat that starts at a certain Temperature swings the strainer or flap into the appropriate position. Further Magnetic drive means are possible for pivoting the screen or the flap or electric drive means.

These and other features of preferred developments of the invention go beyond from the claims also from the description and the drawings, the individual characteristics individually or in groups in the form of Sub-combinations in the embodiment of the invention and in other fields be realized and represent advantageous and protectable versions for which protection is claimed here.

Figur 1

ein Luftfilter mit einem Antischneesystem,

Figur 2

eine Variante eines Luftfilters,

Figur 3

ein Diagramm des einer Brennkraftmaschine zugeführten Volumenstroms der Ansaugluft.

The invention is explained in more detail below on the basis of exemplary embodiments. It shows:

Figure 1

an air filter with an anti-snow system,

Figure 2

a variant of an air filter,

Figure 3

a diagram of an internal combustion engine volume flow of intake air.

An air filter according to FIG. 1 has an air filter housing 10. In this is a Air filter insert 11 arranged, for example, from a zigzag folded There is filter paper, which is provided with a circumferential seal 12 and with this in a receptacle of the filter housing 10 is arranged. The filter insert 11 separates one Clean air room 13 from an unfiltered air room 14. The clean air room 13 is with a Provided connecting piece 15. The cleaned air flows in via this connecting piece 15 an internal combustion engine, not shown here. Located within the unfiltered air room 14 a first intake pipe 16 through which the cold air is fed to the filter device. The intake pipe 16 is at its open end facing the unfiltered air space with a Sieve basket 17 provided. This screen basket 17 has a screen with a corresponding Try to set a mesh size and serve to make snow or ice crystals effective intercept. If a large amount of snow is applied to this sieve basket, it settles this inevitably too. Air is therefore not sucked in through this suction pipe 16 more is possible. Suction is not possible even if the sieve swivel basket is pulled through a closed flap is executed.

A further intake pipe 18 is therefore provided. The inlet of this intake pipe is on a location within the engine compartment of a vehicle that is free of snow. This can be, for example, in the area of the exhaust manifold or immediately behind the Radiator housing, with the arrangement behind the radiator housing it should be noted that this inlet surface is perpendicular to the radiator surface or the inlet mouth in Driving direction seen behind the engine.

This additional intake pipe is connected to its inner opening facing the unfiltered air space a flap 19 closed. The flap 19 can be both spring-loaded and be weight-loaded. In the illustration shown here, this flap is weight-loaded Flap designed and rotatably mounted on the hinge 21. With a spring-loaded The spring is in the flap in the hinge 21.

As soon as the strainer basket 17 is blocked by snow or snow crystals or the flap due to the outside temperature is closed, arises from the suction effect of the Internal combustion engine a negative pressure in the intake air side, which affects the Raw air side or the raw air space 14 continues. this negative pressure causes the Flap 19 so that combustion air now flows in via the further intake pipe 18 can. If this combustion air is warmed, this heating causes defrosting of the snow accumulated in the sieve basket and thus the suction pipe 16 becoming free, see above that fresh air can then be sucked in again via the intake pipe 16. In order to the negative pressure in the raw air space drops, and the flap 19 closes again. The weight the flap or the spring force in a spring-loaded flap is chosen so that the Negative pressure required to open the flap, not over a certain one permissible value increases.

If the temperature of the intake raw air rises above a value at which the Snow is unlikely to penetrate; H. for example 4 ° C, opens Wax thermostat 22, the strainer 17 or the flap. The strainer basket 17 or the flap is attached to the suction pipe 16 with a hinge 23. This stands from this Limit temperature of the full passage cross section for the intake air or the raw air Available so that no loss of performance of the engine is to be feared. First from a temperature below the limit temperature, the wax thermostat 22 also closes the strainer basket 17 or the flap the suction pipe 16 and thus effectively prevents that Snow ingress.

Figure 2 shows a variant of an air filter with an anti-snow system. Here is just the intake tract 24 of an air filter for an internal combustion engine is shown. In this Intake tract is a screen 25 or flap, which is also from one Wax thermostat 22 can be operated. Below a limit temperature of for example, 2 ° C is the sieve 25 or the flap in the one shown here Position, d. H. if snow enters through the opening 26, it is removed from the screen disk 25 intercepted. At the same time, an opening 18 ', i. H. the further intake pipe opened so that snow-free air can flow in.

If the intake temperature exceeds the limit range, then moves over the Wax thermostat 22, the screen disc in the position shown in dashed lines and closes the further intake pipe 18 and releases the full passage cross-section for the raw air.

Figure 3 shows the different volume flows, which are particularly in one device adjust according to figure 1. The volume flow V1 'is the raw air volume flow at one Flap, the volume flow V1 in a screen basket 17 via the intake pipe 16. Above the full cross-sectional area V1 'is available at a limit temperature of 2 ° C, below this limit temperature, the strainer or the flap closes the suction pipe 16 and thus reduces the maximum volume flow. At the same time, however, one opens Rise of the vacuum in the dirty air region 14 of the air filter, the flap 19, so that an additional volume flow V2 can flow into the raw air area.

The internal combustion engine is therefore provided with sufficient intake air in every operating state Available so that both at higher temperatures and at lower temperatures this can reach its maximum performance.

Claims (5)

1. Air filter for an internal combustion engine, having a housing, a filter element disposed in the housing, a filtered air outlet and at least one unfiltered air inlet, the unfiltered air inlet being provided with a screen or a flap, and an additional unfiltered air inlet being provided, which has a flap which closes an unfiltered air inlet, characterised in that the screen (17) opens or closes in dependence on the unfiltered air temperature.
2. Air filter according to claim 1, characterised in that the additional unfiltered air inlet (18) is provided with a weight- or spring-loaded flap (19).
3. Air filter according to one of the preceding claims, characterised in that the additional unfiltered air inlet (18) extends to the region of a snow-free zone of the engine compartment.
4. Air filter according to one of the preceding claims, characterised in that an expansion substance thermostat (22) is provided to open the unfiltered air inlet (16), which is provided with the screen (17) or a flap.
5. Air filter according to one of the preceding claims, characterised in that an electrically or magnetically actuated control element is provided to open the unfiltered air inlet (16), which is provided with a screen (17) or a flap.

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