DE102005019672A1 - Filter system e.g. air filter, for e.g. commercial vehicle, has accommodation units to accommodate filter units, which are axially flow throughable, where cleaning efficiency of system is changeable by variation of number of filter units - Google Patents

Abstract

The system has a housing (1) with an inlet opening (2) for the fluid to be cleaned, and two accommodation units in the interior to accommodate filter units (4). The accommodation units are arranged parallel to one another in the through flow direction. The filter units are axially flow throughable and the cleaning efficiency of the filter system is changeable with same fluid throughput by the variation of the number of the filter units.

Description

The The invention relates to a filter system for a motor vehicle, in particular an air filter for a commercial vehicle, according to the preamble of claim 1 and of patent claim 11.

From the DE 100 32 384 A1 is a filter system for a motor vehicle, in particular an air filter for a commercial vehicle, known, which is an inlet housing part, can be fed through the fluid to be cleaned, in particular raw air, an array of a plurality of filter elements, which are traversed by the dirt to be cleaned fluid, and an inlet housing part through which purified fluid can be discharged. The inlet housing part has an inlet chamber, and the cartridge-shaped filter elements are arranged in the inlet chamber in a row behind one another and can be flowed around jointly by the fluid to be cleaned.

task In contrast, the invention is a Filter system to create, which is a simple and compact design with simultaneous high cleaning performance and for different air volumes can be used by different engine variants.

These The object is achieved by a filter system having the features of the patent claim 1 and the patent claim 11 solved.

The Inventive filter system is characterized by the fact that the filter elements are axially flowed through, where at the same fluid flow rates by the variation of the number of filter elements, the cleaning performance the filter system changeable is. By means of uniform filter cartridges can thus by combination the number of different engine powers and thus fluid throughputs served become. This means further, that also with one and the same filter housing different fluid flow rates and thus engine performance can be covered and not depending on the series of the vehicle the filter housing always adapted structurally according to the fluid flow rate must become. The filter system according to the invention allows advantageously an axial flow, flow and outflow the filter elements in the same direction without flow deflection of the fluid to be cleaned. As a result, when the flow around the Filter elements by the deflection of the air occurring additional Pressure loss and thus the associated higher fuel consumption or a performance reduction of the internal combustion engine in a reliable manner largely avoided.

by virtue of the axial flow and outflow the filter can advantageously be used in a piping system become. The integration of the filter housing in the raw or clean air management saves the provision of additional Space for the filter housing. Raw and / or clean air lines can thus at least partially omitted. As a result, the filter system according to the invention in its construction much easier and more compact and thus reduces the variety of parts and thereby helps costs in manufacturing and spare parts management save up.

In an embodiment according to claim 2, the receiving means in the flow direction parallel to each other in the filter housing arranged.

In a further developed embodiment according to Claim 3, the receiving means transverse to the flow direction in a plane in the filter housing arranged.

According to one preferred embodiment according to Claim 4, the receiving devices in the flow direction offset for better fluid distribution against each other in the filter housing.

at one executed according to claim 5 Filter system is the outer shape of the filter housing to the space conditions adapted to the motor vehicle.

In an embodiment according to claim 6, at least one receiving device no filter element on.

In An advantageous development of the invention according to claim 7 is the unoccupied receiving device with a sealing material locked. This can beipielsweise a cover or a cover plate with additional Seal against the environment, so that the raw and clean air area is not can mix.

In a particularly advantageous development according to claim 8 the result of the at least one missing filter element Empty space usable as resonant volume.

In an alternative embodiment according to claim 9, the filter elements are designed as cartridges. The cartridge can be produced, for example, by wound or layered filter paper, preferably as a cylindrical, cuboidal, prismatic or oval body. By a corre sp As the flow area of the cartridges increases, the pressure loss of the respective cartridges can be purposefully reduced. As filter media known per se paper filter, nonwovens, as well as multi-component and / or multi-layer materials can be used.

According to one executed according to claim 10 Invention, the filter elements are pluggable.

According to claim 11 is the filter housing of vehicle according to the invention arranged in the area of a wheel well.

In a further preferred embodiment according to claim 12, the filter housing is in its shape the wheel well customized. The filter housing is due to the flexible arrangement of the individual cartridges in principle adaptable to any space.

In a preferred embodiment according to claim 13, the inlet opening and thus the Rohlufteintritt is connected to one end of a pipeline, the other end in the floor area, in the roof area ( 17 ) of the vehicle or in an area between (roadway) floor and roof ends.

advantageous Embodiments of the filter system according to the invention and the vehicle according to the invention are the subject of the dependent claims and the description.

The The invention will now be further described with reference to the accompanying drawings. In this shows by way of example in a schematic manner:

1 a cross section through an inventive air filter system,

2 a cross section through another inventive air filter system,

3 a preferred arrangement of the air filter system according to the invention in the area of the front air intake,

4 a schematic representation of a preferred position of the air filter system according to the invention in the area of the Heckluftansaugung and

5 a further illustration of an arrangement of the filter system according to the invention with Rohluftführung,

6 a schematic representation of a front air intake with calmed zone in the intake.

At the in 1 to 6 The filter system shown is in particular an air filter system which is used, for example, in the intake tract of an internal combustion engine for cleaning and filtering the intake combustion air.

This in 1 illustrated filter system according to the invention shows a filter housing 1 with an inlet opening 2 for the fluid to be cleaned, preferably the unfiltered air, and an outlet opening 3 for the purified fluid, preferably the clean air, with subsequent clean air line 3.1 , The outlet opening 3 can be connected to the clean air line 3.1 preferably be formed to a pipe socket. The filter system is integrated here in the region of the raw air line, so that conveniently costly raw air lines can be omitted and thus can be saved as a further advantage space. The interior of the filter housing 1 has two receiving devices not shown for receiving a respective filter element 4 on, wherein the receiving devices and thus also the filter elements 4 in the flow direction parallel to each other in the filter housing 1 are arranged. However, it is also readily possible for more than two receiving devices to receive one filter element each 4 be provided. The filter elements 4 are here advantageously as cartridges 8th educated. Not separately shown seals inside the filter housing 1 , which on the cartridges 8th , on the filter housing 1 and / or attached to the receptacles or other suitable locations preferably by gluing, molding or foaming and acting radially or axially, separating within the filter housing 1 the raw air from the clean air area.

Furthermore, in the 1 to 6 illustrated filter systems according to the invention between the filter housing 1 and not separately shown cover to seal against the ambient air on another seal. Sealing cords made of elastic materials, such as PUR rubbers or other suitable materials, for example, are used as sealing materials.

Depending on the engine variant or air requirement, due to the particular application (on- or off-road), the filter area required for filtering can be adjusted by adding or omitting filter cartridges. The cleaning performance of the filter system is arbitrarily variable by the variation with respect to the number and / or the capacity for receiving dirt particles of the cartridges. The fluid flow depends on the engine power; the cartridges 8th are designed according to the (air) throughput required by the internal combustion engine.

The arrows symbolize the flow direction of the fluid to be cleaned, here the sucked combustion air for the internal combustion engine. The fluid to be cleaned, the raw air, is fed to the filter system on its inflow side, wherein the filter elements 4 be flowed through axially. The purified fluid, the clean air, leaves the filter system via its downstream side, the filter elements 4 in the receiving devices transversely to the direction of flow in a plane in the filter housing 1 are arranged.

The filter elements 4 are in a simple way in the designated recording devices within the filter housing 1 pluggable. For this the filter housing must 1 a corresponding receiving device or guide (not shown). A twisting or slipping of the cartridges is by positive engagement with the filter housing 1 and reliably prevents its receiving device or guide. With the tension in the axial or radial direction, which depends on the sealing variant used, the final positioning of the cartridges B.

This is done by the not separately shown filter housing cover or the filter housing cover, which after its removal an opening for the maintenance of the cartridges 4 releases. The cartridges 8th are therefore just as easy to remove as part of a maintenance or in the event of replacement. The removal of replaceable filter elements 4 can be done raw or clean air side. As with the removal of the interchangeable filter cartridge 4 Impurities in the filter housing 1 and thus may damage the subsequent systems, following the filter elements 4 a secondary element 4.2 be provided for the retention of these impurities.

For the deposition of coarse impurities can the filter elements 4 Furthermore, a pre-filter 4.1 , such as a grid-like structure made of metal or plastic, a non-woven, cyclones or a similarly suitable means for pre-filtering, upstream. Both pre-filters 4.1 and secondary element 4.2 can in the filter housing 1 be integrated.

When not using the existing recording or plug-in devices by the at least one missing filter element 4 resulting void advantageously as resonant volume usable.

2 shows a variant of the filter system of 1 , wherein for the sake of clarity, the same reference numerals are used for functionally identical or equivalent components and to that extent to the above description 1 can be referenced.

In 2 has the filter housing 1 three recording devices not shown separately, which offset in the flow direction against each other in the filter housing 1 are arranged. Due to the staggered arrangement arise in the filter housing 1 a common collection room 5 on the inlet side (raw air) and a common collecting space 6 on the outlet side (clean air) of the air duct. The direction of flow is indicated by the corresponding arrows. The flow cross section is in the plenum 5 on the inlet or Rohluftseite smaller in the flow direction, so that the loading, ie the uniform distribution of the fluid is the same for all filter cartridges. This uniform flow of the filter elements 4 prevents local overloading by separated particles. In addition, here also guide devices, such as blades, ribs or the like, can be provided, which also distribute the flow evenly.

The raw and / or clean air pipe guides can through the plenums 5 . 6 Largely replaced and so in the filter housing 1 be integrated, that can essentially be dispensed with. The design of such a filter system is therefore much more compact as a further advantage and requires correspondingly less space. The outer shape of the filter housing 1 can thus be adapted to the space conditions of the respective motor vehicle. In addition, in the embodiments of the 1 and 2 Ribs contribute to the rigidity of the filter housing and to influence the flow.

Further, as a further advantage, a unitary filter housing 1 be adapted to the respective engine performance and the associated air flow by the required filter area by flexible placement of the filter housing 1 with cartridge-shaped filter elements 4 . 8th he follows. This is done by variation with respect to the type and / or number of each required filter elements 4 . 8th , However, not all recording devices with filter elements 4 occupied, the resulting void in the inlet and outlet of the receiving device is sealed with a sealing material, such as with a lid with seal, so that the sucked raw air can not flow unfiltered into the clean air line. Advantageously, however, the space created by the at least one missing filter element can be used as resonance volume. In this case, the unequaled receiving device in the filter housing 1 provided with a Dämfungseinsatz. The integration of a silencer in the air filter housing thus a significant noise attenuation in the air intake is achieved. This can be done for example by means of a Helmholtz resonator. It is an additional resonance volume, which is open to the clean air area. As a result, pulsation peaks can be damped. The resonance volume must be tuned in its size with the interference frequencies. The resonator can be mounted on any unequipped recording device.

3 shows a possible position of the filter system according to the invention in the front air intake. The filter housing 1 For example, it can be fastened to the vehicle frame, to the driver's cab or directly to the internal combustion engine. The air filter 7 is in 3 directly in front of the internal combustion engine above the intercooler 9 arranged. The filter housing 1 replaces the raw air duct or is part of the raw air duct. This eliminates advantageously at least partially a separate raw air line. The inlet opening 2 for the intake of raw air is located above the condenser 9.1 , The suction of the required air takes place, as in 6 shown, from a calm zone between the front wall 23 and parapet 24 in the area of the cab 18 out. In addition, a line (not shown) can be set as Rohluftführung to bring the intake further up.

The in the filter housing 1 recorded filter elements 4 in the form of cartridges 8th are designed as a separate component and are flowed through axially in the direction of the arrow drawn by the air. The filter elements 4 . 8th are, as well as in 1 shown in the flow direction parallel to each other and transverse to the flow direction in a plane in the filter housing 1 arranged. The raw air to be cleaned becomes the air filter 7 axially on the inflow side 10 supplied, the purified clean air leaves the air filter 7 also axially over its downstream side 11 , The the air filter 7 leaving clean air is from the clean air line 12 is received and is preferably for charging in the exhaust gas turbocharger 13 guided.

4 and 5 show a possible position of the filter system according to the invention in the rear air intake. For commercial vehicles, the filter housing 1 with the therein cartridge-shaped filter elements not shown in detail, for example in front of the front wheel (not shown separately) or in the region of the wheel arch 15 be arranged, wherein the filter housing 1 preferably in its shape to the wheel arch 15 is adjusted. This adjustment is made possible by the special arrangement of the filter elements in the filter housing 1 allows, in which these offset in the flow direction against each other, but parallel to each other in the filter housing 1 are arranged, similar to in 2 shown. This is due to the flexible arrangement of the cartridge-shaped filter elements 4 . 8th , an adaptation of the filter housing 1 to the different space in the vehicle in an advantageous manner possible. The direction of flow is also indicated here by the corresponding arrows: The raw air to be cleaned is via the inlet opening 2 aspirated and leaves after filtering through the outlet opening 3 the filter housing 1 as clean air in the direction of the turbocharger (not shown separately).

As in 5 shown is the inlet opening 2 with one end 21 a pipeline 19 , here as raw air line 19 designated, connected, the other end 16 in the roof area 17 of the vehicle ends. The intake of raw air via the suction point 16 is especially for commercial vehicles, especially for construction vehicles, above the roof 17 of the cab 18 preferred because of the lower dust input. Preferably, the raw air line runs 19 along the cab rear wall 20 down and then flows into the inlet opening 2 of the filter housing 1 , The transition between pipeline, here Rohluftführung 19 , in the filter housing 1 is through a bellows 22 realized, located between inlet opening 2 and pipe end 21 located. Due to the close proximity to the vehicle's tipping axle, the air flow in this area need not be separated; the bellows 22 is only stretched.

In the 1 to 6 shown filter systems according to the invention need due to the axial arrival, flow and outflow conveniently no air settling chamber in the region of the inflow side 10 the filter elements 4 . 8th ,

Claims (13)

Filter system for a motor vehicle, in particular an air filter ( 7 ) for a commercial vehicle, with a filter housing ( 1 ) with an inlet opening ( 2 ) for the fluid to be cleaned, wherein the interior of the filter housing ( 1 ) at least two receiving devices for receiving in each case a filter element ( 4 ) and wherein at least one receiving device with a filter element ( 4 ), characterized in that the filter elements ( 4 ) are axially flowed through and wherein at the same fluid flow rates by the variation of the number of filter elements ( 4 ) The cleaning performance of the filter system is changeable. Filter system according to claim 1, characterized in that the receiving devices in the flow direction parallel to each other in the filter housing ( 1 ) are arranged. Filter system according to claim 2, characterized in that the receiving means transversely to the flow direction in a plane in the filter housing ( 1 ) are arranged. Filter system according to claim 2, characterized in that the receiving devices offset in the flow direction for better fluid distribution against each other in the filter housing ( 1 ) are arranged. Filter system according to one of the preceding claims, characterized in that the outer shape of the filter housing ( 1 ) is adapted to the space conditions of the motor vehicle. Filter system according to one of the preceding claims, characterized in that at least one receiving device no filter element ( 4 ) having. Filter system according to claim 6, characterized that the unoccupied receiving device with a sealing material is closed. Filter system according to claim 6, characterized in that by the at least one missing filter element ( 4 ) resulting void space can be used as resonance volume. Filter system according to one of the preceding claims, characterized in that the filter elements ( 4 ) as cartridges ( 8th ) are formed. Filter system according to one of the preceding claims, characterized in that the filter elements ( 4 ) are pluggable. Vehicle with a filter system according to one of the preceding claims, characterized in that the filter housing ( 1 ) in the area of a wheel well ( 15 ) is arranged. Vehicle according to claim 11, characterized in that the filter housing ( 1 ) in its shape to the wheel arch ( 15 ) is adjusted. Vehicle according to claim 11 or 12, characterized in that the inlet opening ( 2 ) with one end ( 21 ) of a pipeline ( 19 ) whose other end ( 16 ) in the floor area, in the roof area ( 17 ) of the vehicle or in an area between (roadway) floor and roof ends.