DE10316652B4 - Air filter for an internal combustion engine - Google Patents

Abstract

Air filter of an internal combustion engine having a housing (10) with a Rohluftöffnung (12) for the inflow of unfiltered air (14) in the air filter and a clean air opening (16) for outflow of clean air (18) from the air filter, wherein in the housing (10) a filter cartridge (20) is arranged in a flow path between the raw air opening (12) and clean air opening (18) and a first drainage opening (28) is arranged at a geodetically lowest point (26) of the housing (10), the first drainage opening (28) is connected to a water channel (42) which connects the first drainage opening (28) to a first water tank (44) arranged outside the housing (10), which in turn has a second drainage opening (46), characterized in that a second water tank (28) 54) is provided, in which the first water tank (44) is immersed.

Description

The invention relates to an air filter of an internal combustion engine, in particular of a motor vehicle having a housing with a raw air opening for the inflow of unfiltered air into the air filter and a clean air opening for outflow of clean air from the air filter, wherein arranged in the housing in a flow path between raw air opening and clean air opening a filter cartridge and a drainage opening is arranged at a geodetically lowest point of the housing, according to the preamble of claim 1.

For example, off DE 196 04 352 A1 known air filter for internal combustion engines of the type mentioned with the raw air into the housing penetrating water is a problem because there is a risk that the filter cartridge soaked and in the worst case on the clean air side of the filter cartridge water droplets penetrate into a clean air area, arranged in the example, an air mass meter is. If this comes into contact with water droplets, then this air mass meter no longer works correctly and delivers incorrect values, whereupon a functionally reliable operation of the internal combustion engine is no longer guaranteed. Therefore, in the housing of the air filter, a drainage opening is provided so that in the housing with the raw air penetrated water can drain out of the housing. However, this process works only up to a certain amount of water per unit time penetrating water and this only for a limited period of time. Experiments have shown that at an air flow of 300 kg / h and a penetrating amount of water of 1.2 l in 5 min, the air mass meter after about 3.5 min generates an error signal. At this time, the filter cartridge was soaked and water droplets popped into the clean air side of the filter cartridge.

From the DE 197 48 717 A1 a device for preventing the ingress of water into an air filter housing is known. This device is arranged in the flow path in front of the actual air filter and separates water from the unfiltered air, even before it enters the housing of the actual air filter. The water separation works by means of a calming space, in which a baffle wall is arranged, which is angled towards improving the separation of water on its underside to an air intake opening. However, this arrangement has the disadvantage that additional space for the water is needed, which is often no longer available in the engine compartment.

The DE 197 37 545 A1 describes a suction device for an internal combustion engine of motor vehicles. In this case, an air filter device is associated with a bypass which can be closed by means of a bypass flap and which opens in response to an increase in negative pressure in front of the air filter device. Between the air filter device and the inlet for raw air, a switching device for the bypass flap is arranged, which opens the bypass flap in response to the increase in the negative pressure over a defined switching threshold. Upstream of the housing of the air filter device, a grid is provided which serves for the separation of flying snow in the raw air. An optionally formed on this grid dew or condensation runs through an outlet opening into a reservoir, which is emptied via a duckbill valve when a certain level is exceeded. As a result, the dew or condensation water can be disposed of in a non-critical area of the suction. The valve prevents the intake of secondary air into the suction line.

Out WO 01/18379 A1 an air filter with filter housing and water outlet is known, wherein for precipitating water particles from the intake air and optimal discharge of the separated water from the filter housing, a water separator is disposed in the filter housing upstream of a filter mat. Means are provided in the water outlet, which form a water level of such a height in the water outlet, that the negative pressure acting in the filter housing on the water level is compensated.

The publication JP H08-319909 A discloses an air filter with a drain port to which a hose and a check valve are connected.

The publication GB 1 238 885 A discloses an air cleaner for internal combustion engines having a bottom opening for discharging dust, followed by a channel with valve.

The publication DE 199 42 503 A1 describes an air filter for internal combustion engines with a water outlet, in which a water level is formed by such a height that the wikene in the filter housing wikene negative pressure is compensated.

The invention has for its object to improve an air filter of the above type with respect. The reliability of laden with water raw air.

This object is achieved by an air filter o. G. Art solved with the features characterized in claim 1. Advantageous embodiments of the invention are specified in the dependent claims.

For this purpose, it is provided according to the invention that the first drainage opening with a Water channel is connected, which connects the first drainage opening with a disposed outside the housing, the first water tank, which in turn has a second drainage opening.

This has the advantage that a drainage of the water and collecting in the first water tank is realized by capillary forces in the water channel between drainage and the first water tank, so that an accumulation of water to a lake within the housing is effectively avoided. This results in a splash guard for the filter cartridge, so that the air filter even with a high water content in the incoming air into the housing for a long time its function safely retains and thoroughly wetting the filter cartridge and thus a penetration of water droplets in the clean air opening is effectively avoided.

A meandering water outlet with a corresponding water column to compensate for a negative pressure in the housing of the air filter is achieved according to the invention characterized in that a second water tank is provided, in which the first water tank is immersed.

A minimum water level within the water tank is ensured that the second drainage opening is dimensioned such that water from the first water tank only expires when a water level within the first water tank exceeds a predetermined threshold. As a result, a pressure due to a water column within the first water tank counteracts a negative pressure within the housing, so that a return flow of air through the first drainage opening is effectively avoided in the housing.

To further enhance the capillary effect, the first drainage opening has a larger diameter than the water channel.

For example, the water channel is designed as a water drainage hose.

In order to achieve the smallest possible space requirement with sufficient length of the water channel for the capillary effect, the water channel runs between the first drainage opening and the first water tank Z-shaped.

In a preferred embodiment, the first drainage opening has a diameter of 44 mm and the water channel has a diameter of 30 mm.

For safe prevention of water accumulation or formation of sea within the housing of the air filter, a distance from the lower edge, the first drainage opening to the lower edge of the first water tank is 190 mm.

For determining an air flow, an air mass meter is provided downstream of the clean air opening.

Further features, advantages and advantageous embodiments of the invention will become apparent from the dependent claims, and from the following description of the invention with reference to the accompanying drawings. These show in

1 an unclaimed embodiment of an air filter in a schematic sectional view,

2 an unclaimed embodiment of an air filter in a schematic sectional view and

3 a preferred embodiment of an air filter according to the invention in a schematic sectional view

From 1 apparent embodiment of an air filter comprises a housing 10 with a raw air opening 12 , about the raw air 14 in the case 10 enters, and with a clean air opening 16 , about the filtered clean air 18 out of the case 10 exit. In the flow path of the air from Rohluftöffnung 12 for clean air opening 16 is a filter cartridge 20 arranged, which the housing 10 in a raw air side 22 and a clean air side 24 Splits. At a geodetically lowest lying side 26 of the housing 10 or at a geodetically lowest point of the housing 10 is a first drainage opening 28 arranged over the with the raw air 14 in the case 10 entering water 30 can expire. Starting from the raw air opening 12 is a pipe 32 for guiding the sucked raw air against one of the raw air opening 12 opposite side 34 the housing provided. In that the pipe 32 the sucked raw air 14 on the side 34 of the housing 10 bounces, it comes at this point essentially to a separation of raw air 14 and water 30 so that the water 30 essentially under the influence of gravity in the direction of the underside 26 of the housing 10 is derived. Downstream of the clean air opening 16 is a hot-film air mass meter (HFM) 35 arranged.

In operation, it comes in heavily with water 30 loaded, sucked raw air 14 , high air flow and corresponding negative pressure in the housing 10 to form a lake below the pipe 32 , This leads among other things to the fact that at the end of the pipe 32 the water 30 no longer completely separated but partly in the direction of the filter cartridge 20 being carried away. In addition it can by Aspiration of secondary air 38 over the first drainage opening in the housing 10 into a kind of fountain 36 or water fountain above the first drainage opening 28 come, as in 1 indicated schematically.

To prevent this fountain 36 the filter cartridge 20 drenched, is above the first drainage hole 28 a cap 40 arranged, which is the first drainage opening 28 spanned so that this the first drainage opening 28 and with it the fountain 36 from the filter cartridge 20 shields. Experiments have shown that at an air flow of 300 kg / h and a water flow of 1.2 l per 5 min, the filter cartridge after 15 min is still dry.

In 2 are functionally identical parts with the same reference numerals as in 1 so that their explanation to the above description of 1 is referenced. In the embodiment according to 2 the first drainage opening is expanded and opens into a respect to the first drainage opening 28 narrower water channel 42 which is in a first water tank 44 empties. The first water tank 44 has on its underside a second drainage opening 46 on, which is dimensioned such that only above a certain level of water 30 in the first water tank 44 the water 30 over the second drainage opening 46 against the negative pressure in the housing 10 expires. This is always a certain minimum level of water 30 in the first water tank 44 ensures that the negative pressure in the housing 10 counteracts. Through the himself by means of the water channel 42 adjusting capillary effect ensures that there is no Seebildung within the housing 10 comes, but instead the water 30 always runs into the first water tank. When there is a fountain 36 results, then possibly within the first water tank 44 and thus far away from the filter cartridge 20 and without the risk of the filter cartridge 20 through the fountain 26 is moistened.

The water channel 42 is designed to save space Z-shaped and has an example of a diameter of 30 mm. A distance 50 between a bottom of the extended first drainage opening 28 and a bottom of the first water tank 44 is exemplary 190 mm. A distance 52 between a top and bottom of the first water tank 44 is exemplary 100 mm.

Experiments have shown that at an air flow of 400 kg / h and a flow of 1.2 l per 5 min of HFM 35 even after 15 minutes no error signal shows and the filter cartridge only on the raw air side 22 slightly damp. With an air flow of 510 kg / h and a water volume of 1.2 l per 5 min, the HFM 35 after 3.2 minutes an error signal and the filter cartridge 20 was drenched.

In 3 are functionally identical parts with the same reference numerals as in 1 and 2 so that their explanation to the above description of 1 and 2 is referenced. In addition to the air filter according to 2 emerges in accordance with the embodiment of the invention 3 the first water tank 44 in an additional, open top second water tank 54 one. This creates a water column around the first water tank 44 around, which is a negative pressure in the housing 10 counteracts such that a backflow of secondary air through the first water tank 44 and the water channel 42 through into the housing 10 is completely prevented.

For experiments with an air flow rate of 300 kg / h for 5 min and then 510 kg / h for 25 min and a water amount of at least 1.2 l per 5 min, the separated water immediately on the Rohluftöffnung 12 was fed, there was no error signal at the HFM even after 30 min 35 and the filter cartridge 20 was only slightly wet at one point. This impressively illustrates the effective separation of water and water retention by the inventively embodied air filter without additional, with respect to the air filter external water separator.

LIST OF REFERENCE NUMBERS

10

casing

12

raw air opening

14

raw air

16

Clean air opening

18

clean air

20

filter cartridge

22

unfiltered

24

Clean air side

26

geodetically lowest side of the housing / underside

28

first drainage opening

30

water

32

pipe

34

the raw air opening opposite side of the housing

35

Hot film air mass meter (HFM)

36

fountain

38

In addition to air

40

cap

42

water channel

44

first water tank

46

second drainage opening

48

Diameter water channel

50

Distance between a bottom of the extended first drainage opening and a bottom of the first water tank

52

Distance between the top and bottom of the first water tank

54

second water tank

Claims (8)

Air filter of an internal combustion engine having a housing ( 10 ) with a raw air opening ( 12 ) for the inflow of raw air ( 14 ) in the air filter and a clean air opening ( 16 ) for the outflow of clean air ( 18 ) from the air filter, wherein in the housing ( 10 ) in a flow path between Rohluftöffnung ( 12 ) and clean air opening ( 18 ) a filter cartridge ( 20 ) and at a geodetically lowest point ( 26 ) of the housing ( 10 ) a first drainage opening ( 28 ), wherein the first drainage opening ( 28 ) with a water channel ( 42 ), which connects the first drainage opening ( 28 ) with one outside the housing ( 10 ) arranged first water tank ( 44 ), which in turn connects a second drainage opening ( 46 ), characterized in that a second water tank ( 54 ) is provided, in which the first water tank ( 44 immersed). Air filter according to claim 1, characterized in that the second drainage opening ( 28 ) is dimensioned such that water ( 30 ) from the first water tank ( 44 ) expires only when a water level within the first water tank ( 44 ) exceeds a predetermined threshold. Air filter according to claim 1 or 2, characterized in that the first drainage opening ( 28 ) has a larger diameter than the water channel ( 42 ). Air filter according to at least one of the preceding claims, characterized in that the water channel ( 42 ) is designed as a water drain hose. Air filter according to at least one of the preceding claims, characterized in that the water channel ( 42 ) between the first drainage opening ( 28 ) and first water tank ( 44 ) Z-shaped. Air filter according to at least one of the preceding claims, characterized in that the first drainage opening ( 28 ) has a diameter of 44 mm and the water channel ( 42 ) has a diameter of 30 mm. Air filter according to at least one of the preceding claims, characterized in that a distance ( 50 ) of lower edge first drainage opening ( 28 ) to the lower edge of the first water tank ( 44 ) Is 190 mm. Air filter according to at least one of the preceding claims, characterized in that downstream of the clean air opening ( 16 ) an air mass meter ( 35 ) is provided.

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