DE102014225272A1 - Cabin air filter device - Google Patents

Abstract

The present invention relates to an interior air filter device (1) for an air conditioning system for air conditioning an interior of a vehicle, in particular a road vehicle, comprising a filter housing (2) having an air inlet (3) and an air outlet (4) with at least two separate filter elements for Filtering an airflow (7) guided through the filter housing (2), namely at least one first filter element (5) and at least one second filter element (6), which are arranged in the filter housing (2) and which are characterized by different filtration and / or adsorption capacities With at least one air quality sensor (8) for sensing an air quality upstream of the filter elements (5, 6), with a guide means (9) for guiding the air flow (7) through the filter housing (2), such that the air flow (7 ) either only through the first filter element (5) or only through the second filter element (6) or at least partially e by the first filter element (5) and the second filter element (6) is guided, and with a control device (12) for driving the guide means (9) coupled to the at least one air quality sensor (8) and with the guide means (9) is and which is programmed and / or configured such that it controls the guide device (9) in dependence of the current air quality.

Description

The present invention relates to an indoor air filter device for an air conditioning system for air conditioning an interior of a vehicle, in particular a road vehicle. The invention also relates to a method for filtering an air flow for an interior of a vehicle. The invention further relates to a use of a filter element in an interior air filter device.

An interior air filter device, which is used in an air conditioning system with the aid of which an interior of a vehicle can be conditioned, usually comprises a filter housing, which has an air inlet and an air outlet. In the filter housing usually a filter element is arranged, which is characterized by a certain filtration performance and optionally by a specific adsorption performance for odors and / or pollutants.

The filter device is designed for a predetermined average air pollution or air quality, so that the respective filter element reaches a predetermined service life in order to realize certain maintenance intervals. In areas with particularly high air pollution, which results in particular by a high particulate matter pollution, the storage capacity of the filter element is achieved comparatively quickly, so that relatively short maintenance intervals are required. Furthermore, comfort losses can result if, for example, an adsorption filter is exhausted, so that odors can pass unhindered into the vehicle interior.

From the DE 603 06 128 T2 It is known to arrange two filter elements in series in the filter housing, whereby a total of more filtration capacity or storage capacity can be provided. In the known air filter device, the two separate air filters are each realized with folded filter material and thereby shaped so that the folds of a filter element can be inserted into the folds of the other filter element. In this way, a particularly compact arrangement of the two filter elements can be realized, within which they are flowed through successively.

The present invention is concerned with the problem of providing for an indoor air filter device of the type mentioned in an improved embodiment, which is characterized in particular by relatively large maintenance intervals.

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 invention is based on the general idea to provide at least two separate filter elements in the filter housing, which differ from each other by different filtration and / or sorption, wherein the air flow to be filtered is guided in dependence on the current air quality of the air to be filtered through the separate filter elements. For example, depending on the current air quality, the air flow to be cleaned can be guided either only through the first filter element or only through the second filter element or at least partially through the first filter element and the second filter element. The invention is based on the idea of assigning the different filter elements different filtration tasks or sorption tasks and depending on the Filtrationsbzw required due to the monitored air quality. Sorption effect to flow through. If, for example, the first filter element has a higher sorption effect for odorous substances than the second filter element, the first filter element can be spared if the air flow is conducted exclusively or predominantly through the second filter element, namely in the event that the air flow currently has no or only small proportions Contains odorous substances. In return, a filter element which has a particularly high filtration effect for particulate matter can then be used specifically, ie flowed through, if the air to be cleaned contains a correspondingly high proportion of fine dust. As a result of the proposal according to the invention, the filtration capacity or the sorption capacity of the filter device can be divided into different filter elements as needed. This inevitably results in phases in which one of the filter elements is not flowed through or only with a significantly reduced flow rate. As a result, the respective filter element is less stressed, so that overall the maintenance intervals for the filter elements and for the filter device are extended.

Although the filter properties "fine dust separation" and "odor absorption" mentioned above by way of example are preferred for the applications provided here, other or similar properties are also conceivable which can be used additionally or alternatively. For example, the various filter elements can also be designed specifically for different solid or gaseous pollutants and / or undesired particles or allergens. It is conceivable, for example, that the one filter element is specifically designed for an anti-allergenic effect and is preferably used in spring when there is a higher risk of allergies due to the increased pollen density in the air. The other filter element then has no or only a reduced anti-allergenic effect and instead a better sorption effect for gaseous pollutants, in particular odors. It is clear that the two filter elements can each have several of these different properties, but in different composition and / or expression. In this way, it is possible to optimally adapt the cabin air filter device to the respective requirement profile with the two different filter elements which can be flowed through as required, which results from the operating conditions provided for the vehicle equipped with the cabin air filter device. The term "sorption" forms the generic term for the terms "adsorption" and "absorption". During the adsorption, an attachment or adhesion of two substances to one another takes place, which are present in two different states of aggregation. For example, during adsorption, liquid or gaseous substances can be deposited on the surface of a solid. During absorption, the substance with the energetically higher state of aggregation can penetrate into the substance with the energetically lower state of matter and can be absorbed or incorporated therein. For example, upon absorption, a gaseous substance may enter a liquid or solid. Likewise, during absorption, a liquid substance can penetrate into a solid substance.

The presented here indoor air filter is expediently equipped with at least one air quality sensor, with the aid of the air quality upstream of the filter elements can be measured. Thus, the air quality of the air flow to be filtered is determined. The air quality may in particular include information on the current loading of the air stream with dust and / or fine dust and / or odors.

In addition or as an alternative to such an air quality sensor, the air quality can also be determined on the basis of other parameters. In particular, the control device can be accessed in this case on in-vehicle devices, ie on devices that are already present on the vehicle, so that the effort to implement the presented functionality, namely the automatic switching between different filter modes, is reduced. These embodiments are based on the consideration that, in particular, a fine dust concentration within a city is greater than outside. Corresponding considerations then apply to an odor load. It is therefore conceivable, for example, the consideration of location data that reflect the current location of the vehicle so that the controller can easily detect whether the vehicle is inside or outside a city. For example, such location data can be easily read from a navigation device of the vehicle. Also, location data may be derived via an internet connection or a telephone connection that may be provided in modern vehicles. Additionally or alternatively, the current vehicle speed can be taken into account. The controller may determine from the current vehicle speed whether the vehicle is in a more urban or rural environment. In addition or as an alternative, air quality information that the control device receives via an Internet connection, Ethernet connection, telephone connection, radio connections or radio connection provided by the vehicle can also be taken into account in a targeted manner. Such air quality information is, for example - analogous to current traffic reports - current reports on pollen, ozone pollution and smog hazards. In conjunction with the current vehicle position, the control device can then detect whether the vehicle is affected by the respective air quality information so that it can react accordingly. The above variants are thus characterized essentially in that the control device estimates the current air quality based on the current vehicle position, or in that the control device receives location-dependent air quality information about a provided by the vehicle communication link and the current air quality based on this air quality information in conjunction with the current vehicle position estimates.

Furthermore, the filter device can be equipped with a guide device, by means of which the air flow can be guided through the filter housing. The guide device works in such a way that the air flow with the aid of the guide device is guided either only through the first filter element or only through the second filter element or at least partially through the first filter element and the second filter element. Thus, at least three different flow states can be set with the aid of the guide device. In the first flow state, only the first filter element with the entire air flow is flowed through. In the second flow state, only the second filter element is flowed through with the entire air flow. In the third flow state, the air flow is split between the two filter elements. In a simple embodiment, the total air flow is divided between the two elements, with a predetermined distribution, which may be 50:50, for example. In an advantageous development, it can be provided that with the aid of the guide device, the distribution of the total flow to the two filter elements in several stages or quasi arbitrarily can be set.

Furthermore, the air filter device may be equipped with a control device which serves to drive the guide device and this is coupled to both the at least one aforementioned air quality sensor and with the guide device. Furthermore, the control device is programmed or designed such that it controls the guide device as a function of the current air quality. Accordingly, depending on the current air quality, the respectively most suitable flow state can be set with the guide device.

According to an advantageous embodiment it can be provided that the one filter element is designed for a higher particulate matter load of the air stream than the other filter element. Additionally or alternatively, it can be provided that the one filter element is designed for a higher odor load of the air flow than the other filter element. As a result, different air qualities, which show a different filtration requirement, can be supplied as needed to the various filter elements. For example, an embodiment in which the first filter element is designed for a higher odor load, while the second filter element is designed for a higher particulate matter load, is preferred.

In another embodiment, the first filter element and the second filter element may be arranged in the filter housing so that they are flowed through in parallel by the air flow when the guide means of the air flow through the first filter element and through the second filter element. In a parallel flow through the two filter elements can be filtered very large volume flows. Likewise, this measure leads to the flow resistance of the filter housing is reduced. For example, such a flow can be used to generate a sufficient volume flow even with strongly added filter elements.

In another embodiment, the first filter element and the second filter element may be arranged in the filter housing, that they are flowed through by the air flow in series, that is sequentially, when the guide device guides the air flow through the first filter element and through the second filter element. With such a series connection, the filtration or adsorption capacities of the individual filter elements accumulate, as a result of which a particularly efficient cleaning effect can be achieved.

In another embodiment, the guide means may comprise at least one adjustable guide element arranged in the filter housing, which in a first position, in which it releases a first air path leading through the first filter element and blocks a second air path leading through the second filter element, into a second position in that it releases the second air path and locks the first air path, and is adjustable in at least one intermediate position in which it at least partially releases the first air path and the second air path. In this way, the abovementioned three different flow states can be realized particularly easily with the aid of the guide device.

In another embodiment, the respective air quality sensor may be arranged in or on the filter housing. As a result, the air quality sensor belongs to the scope of the air filter device. At the same time, this achieves the result that always comparable measured values can be detected, as a result of which the filter device has increased reliability.

In a further embodiment, the first filter element and the second filter element can be arranged interchangeable in the filter housing independently of one another. This makes it possible, depending on demand, to replace either only one filter element or only the other filter element or both filter elements. This can reduce maintenance costs.

In another embodiment, an evaluation device may be provided, which is configured such that it can determine a current loading of the first filter element and a current loading of the second filter element. Furthermore, the evaluation device is designed such that it can signal a need for maintenance or an exchange requirement for the first filter element or for the second filter element. The evaluation device knows, for example, the storage capacity of the respective filter element as well as the adsorption capacity of the respective filter element. Furthermore, the evaluation device knows the volume flows through the first filter element and the second filter element via a corresponding coupling with the aforementioned control device. Via a further coupling, either indirectly via the control device or directly with the air quality sensor, the evaluation device also knows the air quality associated with the respective air flow. The evaluation device can therefore monitor its exhaustion state depending on the actual filtration performance or adsorption capacity of the individual filter elements.

An inventive use of filter elements is characterized in that the respective filter element is used in a cabin air filter device of the type described above as a first filter element or as a second filter element.

Further important features and advantages of the invention emerge from the subclaims, from the drawings and from the associated description of the figures 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.

Preferred embodiments of the invention are illustrated in the drawings and will be described in more detail in the following description, wherein like reference numerals refer to the same or similar or functionally identical components.

Show, in each case schematically,

1 to 3 in each case a greatly simplified schematic diagram of an interior air filter device in longitudinal section in different flow states.

According to the 1 to 3 includes an interior air filter device 1 a filter housing 2 that has an air intake 3 as well as an air outlet 4 having. The cabin air filter device 1 , which in the following also abbreviates as air filter device 1 or filter device 1 can be designated, is intended for use in an air conditioning system, not shown here, with the aid of an interior of a vehicle, preferably a road vehicle, can be air-conditioned. The filter device 1 serves to filter the air ultimately supplied to the respective interior to the air conditioning. In the filter housing 2 has the filter device 1 two separate filter elements, namely a first filter element 5 and a second filter element 6 on, each to filter one through the housing 2 guided airflow 7 serve, which is indicated in the figures by arrows. The two filter elements 5 . 6 are not identical but designed differently, such that they have different filtration capacities and / or different adsorption capacities. By way of example only, the first filter element 5 be equipped with a larger adsorption than the second filter element 6 , Due to the greater adsorption capacity is the first filter element 5 For example, for a higher odor load of the air flow 7 designed. The second filter element 6 For example, it may have a greater filtration performance than the first filter element 5 , For example, the second filter element 6 Accordingly, for a higher particulate matter load of the air flow 7 be designed. Additionally or alternatively, it may be provided, for example, the first filter element 5 for a typical air quality, as it usually occurs outside of a big city. It is conceivable that outside of a large city, the air contains less fine dust, but more disturbing odors. In contrast, the second filter element 6 designed for a typical air quality, as it usually occurs in a large city. For example, the air in a city may have a relatively high particulate matter load, but less disturbing odors.

The filter device 1 is with at least one air quality sensor 8th equipped with the help of an air quality of the air to be filtered or cleaned can be determined. This is the air quality sensor 8th upstream of the filter elements 5 . 6 arranged. Furthermore, the air filter device knows 1 a leadership facility 9 on, with whose help the air flow 7 through the filter housing 2 can be performed.

In this case, the guide device 9 at least three different flow states I . II . III to adjust. The first flow state I is in 1 played. In the first flow state I the entire air flow through the first filter element 5 guided. In this case follows the air flow 7 a first air path 10 who in 1 indicated by a broken line. In 2 is the second flow state II played. In the second flow state II the air stream flows 7 exclusively through the second filter element 6 , This is followed by the air flow 7 a second air path 11 who in 2 indicated by a broken line. The third flow state III is in 3 shown. In the third flow state III becomes the airflow 7 parallel through both filter elements 5 . 6 passed through. The airflow 7 is split, so that two partial streams the two air paths 10 . 11 consequences. The management device 9 can be designed for a single predetermined flow distribution, which in the third flow state III is set. It is conceivable for the third flow state III However, also a gradual adjustable division or even an ungraded and thus virtually arbitrarily adjustable division of the air flow 7 on the two filter elements 5 . 6 ,

According to the 1 to 3 includes the filter device 1 also a control device 12 for driving the guide device 9 serves. For this purpose, the control device 12 for example via a signal line 13 with the air quality sensor 8th and for example via a control line 14 with the guide device 9 coupled. The control device 12 is programmed and / or designed to be the guiding device 9 depending on the current, with the help of the air quality sensor 8th measured air quality of the air flow 7 controls. As already in connection with the third flow state III has been indicated, in the preferred embodiment shown here are the two filter elements 5 . 6 in the filter housing 2 arranged so that they are from the airflow 7 in the third flow state III to be flowed through in parallel. Theoretically, an embodiment is possible in which the two filter elements 5 . 6 in an alternative third flow state or in an additional fourth flow state successively, so flowed through in series.

To the different flow conditions I . II . III to be able to realize the guide device 9 in the case of the particularly simple example shown here, at least one guide element 15 in the filter housing 2 is arranged. For example, it is the guide element 15 around a single flap 16 around a pivot axis 17 swiveling in the filter housing 2 is arranged. In 1 takes the guide element 15 a first flow state I associated first position A, in which it through the first filter element 5 leading first air path 10 releases it while passing through the second filter element 6 leading second air path 11 locks. In 3 takes the guide element 15 a second flow state II assigned second position B, in which there is the second air path 11 releases and the first air path 10 locks. In 3 takes the guide element 15 a third flow state III assigned intermediate position C in, in which there is the first air path 10 and the second air path 11 each partially releases.

In the embodiment shown here is the air quality sensor 8th directly on the filter housing 2 arranged so that it is the scope of construction of the filter device 1 belongs.

The filter elements 5 . 6 are in the filter housing 2 independently interchangeable, so they can be replaced as needed. To a demand-dependent replacement of the individual filter elements 5 . 6 To facilitate, the filter device 1 with an evaluation device 18 be equipped, which expediently in the control device 12 can be integrated. The evaluation device 18 can be the current loading of the first filter element 5 and the current loading of the second filter element 6 determine. Furthermore, the evaluation device 18 a maintenance or replacement requirement of the first filter element 5 and the second filter element 6 signal independently. For example, via the evaluation device 18 a maintenance signal is generated on an instrument panel of the vehicle. In particular, the control device 12 For this purpose, communicate for example via a bus system with other control devices of the vehicle.

The here presented air filter device 1 works as follows:
During operation of the air filter device 1 or the air conditioning system equipped therewith by means of the air quality sensor 8th the air quality of the filter elements 5 . 6 supplied air flow 7 sensed. Depending on the air quality determined, it is now possible, as needed, to choose between the three different flow states shown here I . II and III the most suitable flow state I . II . III be selected and set. Thus, the air flow 7 depending on the current air quality according to 1 corresponding to the first position A and corresponding to the first flow state I only through the first filter element 5 or according to 2 in accordance with the second position B or according to the second flow state II only through the second filter element 6 or according to 3 according to the intermediate position C or according to the third flow state III parallel through both filter elements 5 . 6 be guided.

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 60306128 T2 [0004]

Claims (14)

An interior air filter device for an air conditioning system for air conditioning an interior of a vehicle, in particular a road vehicle, comprising - a filter housing ( 2 ), which has an air intake ( 3 ) and an air outlet ( 4 ), - with at least two separate filter elements for filtering one through the filter housing ( 2 ) guided air flow ( 7 ), namely at least a first filter element ( 5 ) and at least one second filter element ( 6 ) in the filter housing ( 2 ) are arranged and which differ from each other by different filtration and / or sorption capacities, - with a guide device ( 9 ) for guiding the air flow ( 7 ) through the filter housing ( 2 ), such that the air flow ( 7 ) either only through the first filter element ( 5 ) or only through the second filter element ( 6 ) or at least partially through the first filter element ( 5 ) and the second filter element ( 6 ), - with a control device ( 12 ) for driving the guide device ( 9 ) with the management body ( 9 ) and which is programmed and / or configured such that it controls the guidance device ( 9 ) depending on the current air quality. Device according to claim 1, characterized by at least one air quality sensor ( 8th ) for sensing the current air quality upstream of the filter elements ( 5 . 6 ) connected to the control device ( 12 ) is coupled to transmit a signal correlated with the current air quality. Device according to one of the preceding claims, characterized in that the control device ( 12 ) estimates the current air quality based on the current vehicle position. Device according to one of the preceding claims, characterized in that the control device ( 12 ) receives location-dependent air quality information via a communication connection provided by the vehicle and estimates the current air quality on the basis of this air quality information in conjunction with the current vehicle position. Device according to one of the preceding claims, characterized in that the one filter element ( 5 . 6 ) for a higher particulate matter load of the air stream ( 7 ) is designed as the other filter element ( 5 . 6 ). Device according to one of the preceding claims, characterized in that the one filter element ( 5 . 6 ) for a higher odor load of the air flow ( 7 ) is designed as the other filter element ( 5 . 6 ). Device according to one of the preceding claims, characterized in that the first filter element ( 5 ) and the second filter element ( 6 ) so in the filter housing ( 2 ) are arranged so that, when the guiding device ( 9 ) the airflow ( 7 ) through the first filter element ( 5 ) and through the second filter element ( 6 ), by the air flow ( 7 ) are flowed through in parallel. Device according to one of claims 1 to 6, characterized in that the first filter element ( 5 ) and the second filter element ( 6 ) so in the filter housing ( 2 ) are arranged so that, when the guiding device ( 9 ) the airflow ( 7 ) through the first filter element ( 5 ) and through the second filter element ( 6 ), by the air flow ( 7 ) are flowed through in series. Device according to one of the preceding claims, characterized in that the guide device ( 9 ) at least one in the filter housing ( 2 ) arranged, adjustable guide element ( 15 ) in a first position (A), in which a through the first filter element ( 5 ) leading first air path ( 10 ) and one through the second filter element ( 6 ) leading second air path ( 11 ) locks, in a second position (B), in which it the second air path ( 11 ) and the first air path ( 10 ) is locked, and in at least one intermediate position (C) is adjustable, in which it the first air path ( 10 ) and the second air path ( 11 ) at least partially releases. Device according to one of the preceding claims, characterized in that the air quality sensor ( 8th ) in or on the filter housing ( 2 ) is arranged. Device according to one of the preceding claims, characterized in that the first filter element ( 5 ) and the second filter element ( 6 ) are independently interchangeable in the filter housing ( 2 ) are arranged. Device according to one of the preceding claims, characterized by an evaluation device ( 18 ) for determining a current loading of the first filter element ( 5 ) and a current loading of the second filter element ( 6 ) and for signaling a maintenance and / or replacement requirement of the first filter element ( 5 ) and / or the second filter element ( 6 ). Method for filtering an air stream ( 7 ) for an interior of a vehicle, - in which the air quality of the air flow to be filtered ( 7 ) is determined - in which the air flow ( 7 ) depending on the current air quality either only by a first filter element ( 5 ) or only by a second filter element ( 6 ) or at least partially through the first filter element ( 5 ) and the second filter element ( 6 ) to be led. Use of a filter element ( 5 . 6 ) in an indoor air filter device ( 1 ) according to one of claims 1 to 12 as a first filter element ( 5 ) or as a second filter element ( 6 ).

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