DE102017211537A1 - Filtering means and heating, ventilation or air conditioning with a filter medium - Google Patents

Abstract

The invention relates to a filter means (1,31,51,71,91), in particular for use in a heating, ventilation or air conditioning system of a motor vehicle, having at least a first filter region (2,32,52,72,92), which serves as an air filter for filtering an outside air and / or an inside air and with at least a second filter area (3,33,53,73,93,94), which serves as a pre-filter for an air quality sensor (211). The invention also relates to a heating, ventilation or air conditioning, in particular for a motor vehicle, with a filter means (1,31,51,71,91).

Description

Technical area

The invention relates to a filter means and a heating, ventilation or air conditioning with a filter means, in particular for a motor vehicle.

Background of the invention

Motor vehicles are operated worldwide. In some cases, motor vehicles also move in regions in which the air quality is at least temporarily not very good. It happens that the air quality is partially burdened by fine dust in part. Accordingly, the air surrounding the motor vehicle may be formed with an impaired air quality, which is sucked by the heating, ventilation or air conditioning of the motor vehicle by a blower and used to supply the motor vehicle interior.

Due to the sometimes very poor air quality, the need for monitoring and representation of the air quality of the outside air surrounding the motor vehicle, as well as the cabin air in the motor vehicle interior grows.

For the definition or differentiation of fine dust, fine dust and ultrafine dust, the following is known according to Wikipedia:

The PM categorization introduced with the US standard represents a fundamental change in the assessment of immissions: whereas previously the total immission was considered, the focus is now on the respirable portion of the immissions. This is taken into account the fact that fine particles are only partially retained by the mucous membranes in the nasal cavity / pharynx or the hairs in the nasal area, while coarser particles do not represent a burden on the respiratory tract, therefore, in connection with particulate matter and inhalable particulate matter or thoracic particulate matter spoken.

The first version of the American directive defined the standard PM10, which has been subject to a limit in the EU since the beginning of 2005. In contrast to the definition given above, PM10 does not present a sharp distribution of emissions at an aerodynamic diameter of 10 micrometers (10 μm); Rather, an attempt was made to simulate the deposition behavior of the upper respiratory tract: particles with an aerodynamic diameter of less than 1 μm are fully included, with larger particles a certain percentage is evaluated, which decreases with increasing particle size and finally reaches 0% at approx. 15 μm. Technically, this corresponds to the application of a weighting function to the immissions. From the course of this weighting function, the term PM10 is derived in the end as exactly half of the particles are included in the weighting at approx. 10 μm.

In 1997, the American guideline was supplemented by PM2.5, which corresponds to the respirable (respirable) fine dust (also called fine dust). The definition is analogous to PM10, but the weighting function is much steeper (100% weighting <0.5 μm, 0% weighting> 3.5 μm, 50% weighting at about 2.5 μm).

In addition, ultra-fine particles (UP or UFP, "ultrafine dust") are defined as particles with a thermodynamic diameter of less than 0.1 μm. The thermodynamic diameter describes a spherical particle with an identical diffusion behavior as the considered particle.

Air quality sensors for fine and ultrafine dust, as well as gas sensors are currently known for measuring the air quality or the fine dust, fine dust or ultrafine dust content of the air. With the fine dust sensors particle sizes << 1μm can be reliably detected, as these have the greatest health relevance. Fine dust sensors and fine dust sensors work primarily on the basis of optical scattered light methods using laser beams or infrared light beams, electrical induction effects or tribological charge effects.

Such sensors based on the scattered light effect are already used in building technology, in commercial indoor air purifiers for rooms. For example, the sensor Sharp GP2Y1010AU0F is known as a fine dust sensor. The fine dust measurement is carried out optically by means of an integrated IR diode and with an integrated phototransistor.

When used in a motor vehicle, such sensors are intended to work reliably over the entire product service life of the motor vehicle.

The DE 10 2008 014 401 A1 discloses a motor vehicle with a particulate matter filter and with an internal sensor and with an outdoor sensor, which measure the fine dust concentration of the sucked outside air and the inside air.

However, there is the disadvantageous effect that the large particles in the air, which are irrelevant, however, for the fine dust assessment, would pollute the sensor, so that the polluted sensor would no longer reliably detect the particulate matter.

Presentation of the invention, object, solution, advantages

It is the object of the invention to provide a filter means and a heating, ventilation or air conditioning with a filter means by which or in which air quality sensors could be used, on the one hand a good air quality and / or a good measurement of fine dust, fine dust and / or ultrafine dust, while still being protected from contamination by large particles that are not relevant to the measurement of the sensor.

In this case, "large particles" are defined in such a way that they are considered to be of no relevance with a particle size of about 20 μm or more or 50 μm or more than for the measurement of the sensor because they are no longer regarded as fine dust from this size , Alternatively, a size of 100 μm or more can be used as the limit for the definition of the large particles.

The object of the filter medium is achieved with the features of claim 1.

An embodiment of the invention relates to a filter means, in particular for use in a heating, ventilation or air conditioning system of a motor vehicle, with at least a first filter area, which serves as an air filter for filtering an outside air and / or an inside air and with at least a second filter area, which serves as a pre-filter for an air quality sensor. In this case, the first filter area is used to filter the outside air and / or an inside air such that not only large particles are filtered, but in particular also fine dust, fine dust and / or ultrafine dust, so that the particles of the large particles and the particles of fine dust, the finest dust and / or ultrafine dust are filtered as effectively as possible and as completely as possible from the air, so that the air can be admitted into the passenger compartment. The pre-filter, however, only serves to filter the large particles, so that the prefilter is as transparent as possible for particles of fine dust, fine dust and / or ultrafine dust, so that the air quality sensor downstream of the pre-filter in the air flow the air quality with respect to the load of fine dust, particulate matter and / or Ultrafine dust can be measured without the air quality sensor is permanently contaminated by the large particles.

In principle, a first filter region can be provided, or a plurality of first filter regions can also be provided, in particular two, three or four or more than four. Particularly advantageously, these first filter areas can also be assigned to air conditioning zones of a heating, ventilating or air conditioning system.

In principle, a second filter region may be provided or it may also be provided a plurality of second filter regions, in particular two, three or four or more than four. Particularly advantageously, these second filter regions can also be assigned to different air quality sensors, in particular in the direction of air flow before and / or after the respective air quality sensor.

Thus, it is particularly advantageous if the at least one first filter region filters particulate matter and / or ultrafine dust and / or ultra-fine dust from the air flowing through the first filter region. This achieves good air quality for the passenger compartment or vehicle interior.

Furthermore, it is particularly advantageous if the at least one first filter region also filters particles from the air flowing through the first filter region, which has a particle size below 20 μm, in particular below 10 μm, 5 μm, 1 μm, 0.5 μm or 0, 1 μm. Thus, the first filter area is also the fine dust filter or fine dust and fine dust filter or filters optionally also ultrafine dust.

Furthermore, it is also advantageous if the at least one second filter area for fine dust and / or ultrafine dust and / or ultrafine dust is substantially permeable and essentially filters only particles from the air flowing through the second filter area, which have a particle size which is greater than 20 μm , 50 μm or 100 μm. Thus, the fine dust, fine dust and / or ultrafine dust to be measured is essentially not impaired and filtered, but supplied to the downstream air quality sensor. Thus, the air quality sensor can be protected from contamination and still be kept free with respect to the particles to be measured.

So it is also advantageous if the at least one second filter area for particles having a particle size below 20 .mu.m, in particular below 10 .mu.m, 5 .mu.m, 1 .mu.m, 0.5 .mu.m or 0.1 .mu.m, is substantially permeable and im Essentially only filters particles from the air flowing through the second filter area, which have a particle size that is greater than 20 microns, 50 microns or 100 microns.

It is likewise expedient if the filter means has a filter body which has an edge region, wherein the at least one second filter region is arranged at the edge region of the filter body. As a result, an air stream can be divided into a main air stream and a partial air stream in a suitable manner, the main air stream, in particular, being filtered as completely as possible and the partial air stream for the air quality sensor only being prefiltered.

It is particularly advantageous if the filter means has at its edge region at least one top and / or side rail on which the second filter region is arranged or provided. Thus, a simple division of the filter function in the first filter area and the prefilter function in the second filter area can be achieved.

In an alternative embodiment, it is also advantageous if the filter means is formed with at least one nonwoven element, wherein in the first filter region a first nonwoven and in the second filter region a second nonwoven is provided, wherein the first nonwoven compared to the second nonwoven a different filter ability or Permeability to be filtered particles. Thus, the choice of nonwoven materials in the two filter areas can easily set the desired filter capabilities.

It is also advantageous if the filter medium is formed with at least one nonwoven element, wherein a second nonwoven element is provided on the header and / or sidebar, wherein the first nonwoven element in comparison to the second nonwoven element has a different filterability or permeability to be filtered particles having. Thus, the choice of nonwoven materials of the nonwoven elements in the two filter areas can easily set the desired filter capabilities.

It is also particularly advantageous if the top and / or side strip is formed from plastic or a nonwoven material which is formed with regions of a second nonwoven material or a second filter element as a second filter region.

The task of heating, ventilation or air conditioning is achieved with the features of claim 1.

An embodiment of the invention relates to a heating, ventilation or air conditioning, in particular for a motor vehicle, having an air guide housing with a receptacle for a filter medium, in which a filter means is used to filter at least one main air flow of the air flow in the housing air flow and with at least an air quality sensor, which detects the air quality of the air at least a partial air flow of the air stream flowing in the air duct, wherein in the air flow direction of the partial air flow before and / or after the air quality sensor, a pre-filter is arranged. Due to the interchangeability of the filter means or the filter means, in particular in a maintenance or service routine, the protection of the air quality sensor can be achieved permanently.

In one embodiment, it is achieved that the filter means is formed with at least a first filter region and with at least one second filter region, wherein the at least one first filter region filters a main air flow of the air flow flowing in the air guide housing, in particular for filtering an outside air and / or an inside air, and wherein the at least one second filter region forms a prefilter for filtering the at least one partial air flow of the air stream flowing in the air duct. In this case, the partial air flow advantageously flows to the air quality sensor in order to determine the air quality by means of the air quality sensor.

It is also advantageous if at least one first filter means having at least one first filter area and at least one further filter means having at least one second filter area is formed, wherein the at least one first filter area filters a main air flow of the air flow flowing in the air guide housing, in particular for filtering an outside air and / or an internal air, and wherein the at least one second filter region forms a prefilter for filtering the at least one partial air flow of the air stream flowing in the air duct. In this case, the partial air flow advantageously flows to the air quality sensor in order to determine the air quality by means of the air quality sensor.

It is also particularly advantageous if the air guide housing has a wall which delimits an air duct through which the main air flow leads, wherein a recess or a wall-side channel is formed on the wall, into which a partial air flow leads, wherein the air quality sensor is arranged such that he detected the air quality of the air in the recess or in the wall-side channel. Thus, the partial air flow can be suitably divided or delimited from the main air flow.

It is also advantageous if the air quality sensor is directly fluid-connected or engaged in the recess or in the wall-side channel or is indirectly fluid-connected to the recess or to the wall-side channel via an auxiliary channel.

Further advantageous embodiments are described by the following description of the figures and by the subclaims.

list of figures

The invention will be explained in more detail on the basis of several embodiments with reference to the figures of the drawings.

• 1 eine schematische, perspektivische Darstellung eines ersten Ausführungsbeispiels eines erfindungsgemäßen Filtermittels,
• 2 eine schematische, perspektivische Darstellung eines zweiten Ausführungsbeispiels eines erfindungsgemäßen Filtermittels,
• 3 eine schematische, perspektivische Darstellung eines dritten Ausführungsbeispiels eines erfindungsgemäßen Filtermittels,
• 4 eine schematische, perspektivische Darstellung eines vierten Ausführungsbeispiels eines erfindungsgemäßen Filtermittels,
• 5 eine schematische, perspektivische Darstellung eines fünften Ausführungsbeispiels eines erfindungsgemäßen Filtermittels,
• 6 eine schematische Schnittdarstellung eines sechsten Ausführungsbeispiels eines erfindungsgemäßen Filtermittels in einem Filterschacht einer Heizungs-, Belüftungs- oder Klimaanlage,
• 7 eine Aufsicht auf das Filtermittel nach 6,
• 8 eine Seitenansicht eines Ausführungsbeispiels eines erfindungsgemäßen Filtermittels im unteren Teil der 8 und eine Aufsicht auf von oben auf das Filtermittel im oberen Teil der 8,
• 9 eine Seitenansicht eines weiteren Ausführungsbeispiels eines erfindungsgemäßen Filtermittels im unteren Teil der 9 und eine Aufsicht auf von oben auf das Filtermittel im oberen Teil der 9,
• 10 eine Seitenansicht eines weiteren Ausführungsbeispiels eines erfindungsgemäßen Filtermittels im unteren Teil der 10 und eine Aufsicht auf von oben auf das Filtermittel im oberen Teil der 10.

Show it:

• 1 a schematic, perspective view of a first embodiment of a filter medium according to the invention,
• 2 a schematic, perspective view of a second embodiment of a filter medium according to the invention,
• 3 a schematic, perspective view of a third embodiment of a filter medium according to the invention,
• 4 a schematic, perspective view of a fourth embodiment of a filter medium according to the invention,
• 5 a schematic, perspective view of a fifth embodiment of a filter medium according to the invention,
• 6 1 is a schematic sectional view of a sixth exemplary embodiment of a filter medium according to the invention in a filter shaft of a heating, ventilating or air conditioning system,
• 7 a view of the filter medium after 6 .
• 8th a side view of an embodiment of a filter according to the invention in the lower part of the 8th and a top view of the filter medium in the upper part of the 8th .
• 9 a side view of another embodiment of a filter medium according to the invention in the lower part of 9 and a top view of the filter medium in the upper part of the 9 .
• 10 a side view of another embodiment of a filter medium according to the invention in the lower part of 10 and a top view of the filter medium in the upper part of the 10 ,

Preferred embodiment of the invention

The 1 to 5 each show different embodiments of a filter means 1 . 31 . 51 . 71 . 91 , in particular for use in a heating, ventilating or air conditioning system of a motor vehicle. The filter media 1 . 31 . 51 . 71 . 91 , have an approximately cuboid shape and are typically in a direction of insertion 100 or an insertion direction 101 be inserted or used in a housing of a heating, ventilation or air conditioning, in particular in a filter shaft or in a filter compartment. The arrows 100 . 101 are shown only as an example, so that the insertion or insertion can also be done otherwise.

The filter medium 1 . 31 . 51 . 71 . 91 has at least a first filter area 2 . 32 . 52 . 72 . 92 on, which serves as an air filter in particular for filtering an outside air and / or an inside air when the filter means 1 . 31 . 51 . 71 . 91 For example, as intended used in a housing of a heating, ventilation or air conditioning and is flown by an air flow.

The filter medium 1 . 31 . 51 . 71 . 91 has at least a second filter area 3 . 33 . 53 . 73 . 93 . 94 on, which serves or serve as a pre-filter for a Luftgütesensor.

The embodiment of 1 shows that the first filter area 2 about the entire filter surface 4 takes up, except for one, in particular narrow, strip 5 at the lateral edge area 6 of the filter medium 1 , Here is the strip 5 in the direction of the arrow 100 formed extending and extends from the upper edge 7 to the lower edge 8th along the edge area 6 , In the side strip 5 is the second filter area 3 trained or arranged. The stripe 5 is in 1 arranged on the right side of the filter means. In principle, the strip can alternatively or additionally also on the left side 9 of the filter medium 1 be arranged.

The embodiment of 2 shows that the first filter area 32 about the entire filter surface 34 takes up, except for one, in particular narrow, strip 35 at the upper edge area 36 of the filter medium 31 , Here is the strip 35 approximately across the direction of the arrow 100 formed extending and extends from the left edge 37 to the right edge 38 along the upper edge area 36 , In the upper strip 35 is the second filter area 33 trained or arranged. The stripe 35 is in 1 on the upper side of the filter medium 31 arranged. In principle, the strip can alternatively or additionally also on the lower side 39 of the filter medium 1 be arranged, see also 3 , 3 basically shows the same structure of the filter medium 51 like the filter medium 31 from 2 except for the difference that the strip 55 with the second filter area 53 is arranged below.

The embodiment of 4 shows that the first filter area 72 about the entire filter surface 74 occupies, except for one, in particular narrow, block-like area 75 at the lower area of the lateral edge area 76 of the filter medium 71 , This is the area 75 approximately rectangular in the view or cuboid and extends from the lower edge 77 about up to the middle. In the side area 75 is the second filter area 73 trained or arranged. The area 75 is in 4 on the right side of the filter medium 71 arranged. Basically, the area 75 alternatively or additionally on the left side 79 of the filter medium 71 be arranged. Also is the area 75 formed arranged on the lower side. It may alternatively or additionally be arranged on the upper side.

The embodiment of 5 shows that the first filter area 92 about the entire filter surface 102 takes up, except for one, in particular narrow, strip 95 at the lateral edge area 96 of the filter medium 91 , Here is the strip 95 in the direction of the arrow 100 formed extending and extends from the upper edge 97 to the lower edge 98 along the edge area 96 , In the side strip 95 are two second filter areas 93 . 94 trained or arranged. The stripe 95 is in 5 on the right side of the filter medium 91 arranged. Basically, the strip 95 alternatively or additionally on the left side 99 of the filter medium 91 be arranged.

According to the inventive design of an embodiment of the at least one first filter area 2 . 32 . 52 . 72 . 92 designed so that it contains fine dust and / or fine dust and / or ultrafine dust from the first filter area 2 . 32 . 52 . 72 . 92 flowing air 110 filters. Accordingly, the at least one first filter area 2 . 32 . 52 . 72 . 92 also particles from the first filter area 2 . 32 . 52 . 72 . 92 flowing air 110 filter, having a particle size below 20 microns, in particular below 10 microns, 5 microns, 1 micron, 0.5 microns or 0.1 microns. Also, the first filter area 2 . 32 . 52 . 72 . 92 advantageously also filter large particles having an overlying particle size, which is particularly greater than 20 microns, 50 microns or 100 microns.

According to the embodiment of the invention an embodiment is the at least one second filter area 3 . 33 . 53 . 73 . 93 for particulate matter and / or particulate matter and / or ultrafine dust substantially permeable, wherein it is in particular substantially only particles from the second filter area 3 . 33 . 53 . 73 . 93 flowing air 111 filters that have a particle size greater than 20 microns, 50 microns or 100 microns.

Accordingly, the at least one second filter area 3 . 33 . 53 . 73 . 93 for particles having a particle size below 20 .mu.m, in particular below 10 .mu.m, 5 .mu.m, 1 .mu.m, 0.5 .mu.m or 0.1 .mu.m, substantially permeable and it essentially filters only particles from the second filter region 3 . 33 . 53 . 73 . 93 flowing air 111 having a particle size greater than 20 microns, 50 microns or 100 microns. The second filter area therefore serves as a pre-filter for an air quality sensor for the detection of particulate matter, fine dust and / or ultrafine dust pollution of the air. Here is the airflow 110 a main airflow and the airflow 111 a partial air flow of the entire air flow, in particular in a heating, ventilation or air conditioning o.Ä.

In the embodiments of the 1 to 5 the filter medium can be a filter body 150 having an edge region, wherein the at least one second filter region 3 . 33 . 53 . 73 . 93 at the edge of the filter body 150 is arranged.

In a preferred embodiment, the filter medium is formed with at least one nonwoven element, wherein a first nonwoven fabric is provided in the first filter region and a second nonwoven fabric in the second filter region, wherein the first nonwoven fabric has a different filterability or permeability to be filtered particles compared to the second nonwoven fabric having. As a result, the design of the filterability of the two filter regions can be determined by the choice of the nonwoven material of the respective nonwoven.

Similar is also in the 8th to 10 shown. There, the filter body 150 a border area 151 . 152 . 153 on, on which at least one header 154 and / or sidebar 155 is provided, on which the second filter area 160 is arranged or provided while the filter body 150 forms the first filter area.

In 8th is the second filter area by a sidebar 155 formed, which extends along a lateral edge region from top to bottom.

In 9 is the second filter area through an upper header 154 formed extending along the upper edge region from left to right.

In 10 is the second filter area through a lower header 154 formed extending along the lower edge region from left to right.

The filter body 150 is narrower in the depth direction than the header or sidebar 154 . 155 so the header or sidebar 154 . 155 preferably on both sides or on one side over the filter body 150 survives.

In a preferred embodiment, the filter means is formed with at least one nonwoven element, wherein on the header and / or sidebar 154 . 155 a second nonwoven element is provided, wherein the first nonwoven element in comparison to the second nonwoven element has a different filter capability or permeability to be filtered particles. This allows the design of the filterability of the two filter areas by the choice of Nonwoven material of the respective nonwoven be determined.

The embodiment of 6 and 7 shows a use of a filter means 200 in an air duct 201 in a housing 202 a heating, ventilation or air conditioning. The housing 202 forms the air duct housing the heating, ventilation or air conditioning. The filter medium 200 can be used in a filter shaft or a filter holder.

You can see a filter body 203 , which is the first filter area 205 trains to filter a main air flow 204 through the air duct 201 , On the filter body is a side or header 206 arranged, which are on a wall 207 of the air duct 201 applies and which two second filter areas 208 having. In the wall 207 are two recesses or wall-side channels 209 provided, in which air of a partial air flow 210 can flow in. At the respective recess or at the respective wall-side channel 209 is in each case an air quality sensor 211 arranged, which monitors the air, which in the region of the recess or the wall-side channel 209 flows in and detects the fine dust, particulate matter and / or ultra-fine dust pollution. The second filter area 208 each serves as a pre-filter to filter out large particles, so that even with fine dust, fine dust and / or ultrafine dust polluted air to the air quality sensor 211 can flow.

According to the 6 or similar, the air duct housing 202 a wall 207 which delimits an air duct through which the main air flow 204 leads, taking on the wall 207 a recess or a wall-side channel 209 is formed, in which a partial air flow 210 leads, the air quality sensor 211 is arranged such that it the air quality of the air in the recess or in the wall-side channel 209 detected.

In this case, the air quality sensor 211 in the recess or in the wall-side channel 209 be inserted or projected to directly with the recess or the wall-side channel 209 to be fluidly connected or intervene in these. Alternatively, the respective air quality sensor could also be with the recess or with the wall-side channel 209 be indirectly fluidly connected via an auxiliary channel. This could be the recess or the wall-side channel 209 by means of an additional connecting channel or hose as an auxiliary channel with the air quality sensor 211 be connected.

Here is the header and / or sidebar 206 made of plastic or a nonwoven material, which with areas of a second nonwoven material or a second filter element as the second filter area 208 is trained. This header or sidebar 206 is with the filter body 203 connected formed and can with the filter body 203 as a total filter medium 200 be shared.

The heating, ventilation or air conditioning, in particular for a motor vehicle, advantageously has an air guide housing 202 with a recording 250 for a filter medium 200 in which a filter medium 200 is used to at least one main air flow 204 in the air duct housing 202 to filter flowing airflow. Furthermore, at least one air quality sensor 211 , Preferably also provided two or more such air quality sensors. The respective intended air quality sensor 211 monitors the air quality of the air at least a partial air flow 210 of the air stream flowing in the air duct and detects the load of the air, wherein in the air flow direction of the partial air flow 210 before and / or after the air quality sensor 211 a pre-filter is arranged. As a pre-filter is used in 8th the second filter area 208 ,

Particularly preferred is the filter medium 200 with at least a first filter area 205 and at least a second filter area 208 formed, wherein the at least one first filter area 205 a main airflow 204 in the air duct housing 202 flowing air flow filters, in particular for filtering an outside air and / or an inside air, and wherein the at least one second filter area 208 a prefilter is formed for filtering the at least one partial air flow 210 in the air duct 201 flowing airflow.

Alternatively, the first filter region and the second filter region may also be formed as independent elements which can be exchanged separately. Thus, at least one first filter means with at least one first filter area and at least one further filter means with at least one second filter area can be provided, wherein the at least one first filter area filters a main air flow of the air flow flowing in the air guide housing, in particular for filtering an outside air and / or an inside air, and wherein the at least one second filter region forms a prefilter for filtering the at least one partial air flow of the air stream flowing in the air duct.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102008014401 A1 [0012]

Claims (15)

Filter means (1,31,51,71,91), in particular for use in a heating, ventilation or air conditioning system of a motor vehicle, having at least a first filter region (2,32,52,72,92), which as an air filter for filtering an external air and / or an internal air is used and with at least a second filter region (3,33,53,73,93,94), which serves as a pre-filter for a Luftgütesensor (211). Filtering agent (1,31,51,71,91) after Claim 1 , characterized in that the at least one first filter region (2, 32, 52, 72, 92) fine dust and / or ultrafine dust and / or ultrafine dust from the air flowing through the first filter region (2, 32, 52, 72, 92) (110, 111 ) filters. Filtering agent (1,31,51,71,91) after Claim 1 or 2 , characterized in that the at least one first filter region (2, 32, 52, 72, 92) also filters particles from the air flowing through the first filter region (2, 32, 52, 72, 92) (110, 111), which has a particle size below of 20 .mu.m, in particular below 10 .mu.m, 5 .mu.m, 1 .mu.m, 0.5 .mu.m or 0.1 .mu.m. Filtering agent (1,31,51,71,91) after Claim 1 . 2 or 3 , characterized in that the at least one second filter region (3, 33, 53, 73, 93, 94) for particulate matter and / or ultrafine dust and / or ultrafine dust is essentially permeable, and essentially only particles from the second filter region (3, 33, 53, 73, 93, 94) which have a particle size greater than 20 μm, 50 μm or 100 μm. Filtering agent (1,31,51,71,91) after Claim 1 . 2 . 3 or 4 , characterized in that the at least one second filter region (3,33,53,73,93,94) for particles having a particle size below 20 .mu.m, in particular below 10 .mu.m, 5 .mu.m, 1 .mu.m, 0.5 .mu.m or 0.1 microns, is substantially permeable and substantially only particles from the second filter region (3,33,53,73,93,94) through which air filters (110,111) having a particle size which is greater than 20 microns , 50 μm or 100 μm. Filter means (1,31,51,71,91) according to any one of the preceding claims, characterized in that the filter means (1,31,51,71,91) comprises a filter body having an edge region (6,36,76,96,151 , 152, 153), wherein the at least one second filter region (3, 33, 53, 73, 93, 94) is arranged at the edge region (6, 36, 76, 96, 151, 152, 152) of the filter body. Filter means (1,31,51,71,91) according to one of the preceding claims, characterized in that the filter means (1,31,51,71,91) at its edge region (6,36,76,96,151,152,153) at least one head - And / or sidebar (154,155,206), on which the second filter region (3,33,53,73,93,94) is arranged or provided. Filter means (1,31,51,71,91) according to any one of the preceding claims, characterized in that the filter means (1,31,51,71,91) is formed with at least one non-woven element, wherein in the first filter region (2,32 , 52, 72, 92) a first fleece and in the second filter area (3, 33, 53, 73, 93, 94) a second fleece is provided, the first fleece having a different filterability or permeability compared to the second fleece having particles to be filtered. Filter means (1,31,51,71,91) according to any one of the preceding claims, characterized in that the filter means (1,31,51,71,91) is formed with at least one nonwoven element, wherein at the head and / or Sidebar (154,155,206) is provided a second nonwoven element, wherein the first nonwoven member in comparison to the second nonwoven member has a different filtering ability or permeability to be filtered particles. Filtering agent (1,31,51,71,91) according to one of the preceding Claims 7 to 9 , characterized in that the head and / or side strip (154,155,206) is formed of plastic or a nonwoven material, which with regions of a second nonwoven material or a second filter element as a second filter region (3,33,53,73,93,94) is trained. Heating, ventilation or air conditioning, in particular for a motor vehicle, having an air guide housing with a receptacle for a filter medium (1,31,51,71,91), in which a filter means (1,31,51,71,91) used in that at least one main air flow (204) of the air flow flowing in the air duct housing is filtered and with at least one air quality sensor (211) which detects the air quality of the air at least a partial air flow (210) of the air flow flowing in the air duct (201), wherein in the air flow direction of Partial air flow (210) before and / or after the air quality sensor (211) a pre-filter is arranged. Heating, ventilation or air conditioning after Claim 11 , characterized in that the filter means (1,31,51,71,91) having at least a first filter region (2,32,52,72,92) and at least a second filter region (3,33,53,73,93 , 94), wherein the at least one first filter region (2, 32, 52, 72, 92) filters a main air flow (204) of the air flow flowing in the air guide housing, in particular for filtering an outside air and / or an inside air, and wherein the at least one a second filter section (3,33,53,73,93,94) a pre-filter is formed for filtering the at least one partial air flow (210) of the air flow flowing in the air duct (201). Heating, ventilation or air conditioning after Claim 11 , characterized in that at least a first filter means (1,31,51,71,91) with at least a first filter region (2,32,52,72,92) and at least one further filter means (1,31,51,71, 91) is formed with at least a second filter region (3, 33, 53, 73, 93, 94), wherein the at least one first filter region (2, 32, 52, 72, 92) has a main air flow (204) of the air flow flowing in the air guidance housing filters, in particular for filtering an outside air and / or an inside air, and wherein the at least one second filter region (3,33,53,73,93,94) forms a pre-filter for filtering the at least one partial air flow (210) of the in the air duct (201 ) flowing airflow. Heating, ventilation or air conditioning after Claim 11 . 12 or 13 , characterized in that the air guide housing has a wall (207) which defines an air channel (201) through which the main air flow (204) leads, wherein on the wall a recess or a wall-side channel (209) is formed, in which a partial air flow (210), wherein the air quality sensor (211) is arranged to detect the air quality of the air in the recess or in the wall-side channel (209). Heating, ventilation or air conditioning after Claim 14 characterized in that the air quality sensor (211) is directly fluidly connected or engaged in the recess or wall-side channel (209) or indirectly fluidly connected to the recess or wall-side channel (209) via an auxiliary channel.

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