EP1400685A2 - Combined resonator and air filter - Google Patents

Abstract

The air filter has an air filter (13) arranged between an inlet (11) and an outlet (12). A connecting collar (15) for a resonator tube (16) is ranged on the air filter housing (14a,14b). At least part of the connecting collar forms at least part of the external wall of a resonant acoustic damper. Independent claims are included for a modular system for constructing an air filter, and for a method of manufacturing an air filter.

Description

State of the art

The invention relates to an air filter, in particular an air filter of an internal combustion engine, according to the preamble of claim 1. The invention also relates to a modular system with parts for this air filter and a method of making the above Air filter.

An air filter of the aforementioned type has been disclosed by EP 0 894 190 B1. there becomes a Helmholtz resonator in the flow path after an air filter element in one Air filter housing arranged. The outer wall of the air filter housing forms the outer wall the resonator chamber. However, the air filter disclosed also results some disadvantages. The attachment of the resonator tube is technically difficult to implement, the resonator tube will also tend to vibrate. Furthermore, the Sound attenuation on a rigid, covering only a small frequency range, System. The Helmoltz resonator has only one chamber and cannot be differentiated Adjust operating states.

Furthermore, a silencer of the aforementioned type is disclosed by DE 199 43 246 A1 Service. This silencer is also based on the principle of a Helmholtz resonator. Here, a silencer is proposed, which has an inlet, an outlet and a resonator housing arranged between them, wherein the resonator housing has a circular cross section and in the resonator housing a charge air tube with a plurality of continuous recesses, which are used as resonance holes act, is used. The resonance holes are all over Circumference of the circular cross section of the charge air pipe distributed. In one embodiment According to the invention, the space between the resonator housing and the charge air pipe is formed by segmentation walls divided into individual resonator chambers. Furthermore, the resonator housing executed as a casting and resonator housing and charge air tube have a same curved shape. On the one hand, there is the disadvantage of one increased space requirements, since the charge air pipe is completely enclosed by the resonator housing becomes. On the other hand, the production due to the large number of parts and used materials complex, complicated and expensive.

The object of the invention is to provide an air filter which has the possibility if necessary, a silencer based on the principle of the Helmholtz resonator integrate and thereby the possibility of varying the frequency range to be attenuated to give. Furthermore, this air filter should take up little space, be compact and easy and economical to manufacture. additionally the task is to develop a method for producing such a silencer to develop.

Advantages of the invention

The invention relates to an air filter with an inlet and an outlet, which is preferably in Internal combustion engines is used. An air filter element seals between the inlet and outlet arranged, which consist of fleece or zigzag folded paper can or also from other filter media known in the prior art. The Air filter housing is divided into at least two housing parts, which are detachable Lanyards are connected together. At least one of the housing parts has a receptacle integrated into the geometry of the housing part, which can accommodate a perforated resonator tube. This intake port is preferred at least partially tubular and preferably has a slightly conical shape. Furthermore, this receptacle forms at least part of the outer wall Resonatorschalldämpfers. This means that here between inserted resonator tube and receiving socket at least one resonator chamber is formed. Because of this Receptacle is integrated in one of the air filter housing parts and therefore no additional Manufacturing or assembly costs involved, this results in a large economic and assembly technology advantage over the previous state of Technology. Because, despite the receptacle, the effective cross-section of the outlet does not change, there are no disadvantages in the possible air volume flow and thereby also in the performance of the air filter. Because of this fact the air filter can operate with or without a resonator tube in order to connect to various internal combustion engines to be adapted, in which different demands on the Noise developments are made. The number of inlet and outlet openings on Air filter housing has no influence on the design of the receptacle.

In an advantageous embodiment of the invention, the receptacle for the resonator tube arranged inside the air filter housing. Because of the ever lower space in the engine compartments of new cars supports this compact design efficient use of the available space. In the invention Air filter, the receptacle is arranged so that the dimensions do not change the outer housing of the air filter compared to an air filter without a resonator and also the air filter element can be retained.

Another embodiment of the invention is that the resonator tube in the clean air outlet is arranged. Furthermore, it is also possible for the resonator tube To be arranged in the raw air inlet, the sound insulation is given in both cases and the effective frequency range remains the same. Here the arrangement of the Filter element in the air filter housing and the resulting internal installation space, be it on the outlet or inlet side, a role.

According to a further embodiment of the air filter, the air filter remains effective Cross-sectional area, be it from the inlet or outlet, in the receptacle inserted resonator tube the same. This means that the flow resistance from Air filter with or without a resonator tube remains the same. This results in a constant one Air filter performance even after retrofitting with a resonator silencer.

In a further advantageous embodiment, the air filter is characterized in that that the resonator tube is made of an injection-moldable material, e.g. PA 6.6. This also results in easy and economical manufacture of the resonator tube like an air filter including resonator silencer that is recyclable in accordance with the end-of-life vehicle regulation, provided both are made of an injection-moldable, thermoplastic material consist.

According to a further embodiment of the resonator tube from an injection-moldable, Thermoplastic material are partitions on the resonator tube and on the radial outer diameter the partition walls sealing lips arranged. By means of these partitions and The outside sealing lips are different resonator chambers in the receptacle sealed off from each other. The partitions also serve for sealing the resonator chambers outwards or inwards into the installation space of the filter housing. Accordingly, the partitions with the sealing lips adapted to the inner shape of the receptacle to create the seal there to be able to. The flexible sealing lips are based on the 2-component process molded partitions.

Another embodiment of the air filter includes that the resonator tube is non-destructive is detachably arranged in the filter housing. This means that the resonator tube can be retrofitted in the intake port of an air filter housing can and is connected to this via a detachable connection. The detachable connection is conceivable as a screw connection or clip connection or other in the stand the types of connection known in the art.

In a further advantageous embodiment of the air filter, the configuration of the Resonatorrohres in connection with the receptacle a two-chamber resonator. For this purpose, there is essentially one on the resonator tube at one axial end annular partition wall surrounding the resonator tube with molded parts in the outer area Sealing lip arranged, whereby in the further course of the resonator tube the circumference annular recesses are arranged and in the further Then, in turn, an essentially circular partition is arranged with molded sealing lips in the outer region. In the axial course this second partition are in turn circular recesses over the circumference arranged, which of a last, essentially surrounding the resonator tube circular partition with sealing lips molded onto the outer area becomes. Here, however, the recesses are freely selectable, which is advantageous Design, however, as an annular recess, since this increases the tool costs reduce. However, the geometry of the recess has no significant influence on the quality of sound absorption. The geometry of the partitions with that in the outer The area of the molded sealing lip must be adapted to the geometry of the socket be so as to seal the chambers from each other and from the outside to realize. So there are two resonator chambers in connection with at least part of the receptacle, which by a different Wall thickness of the resonator tube and a different volume of the resonator chamber can cover different frequency ranges. This allows a wider frequency range lower soundproofing.

In a further embodiment of the invention, the air filter can be integrated with an air filter element adapt to different internal combustion engines, depending on the Requirement profile, a modified resonator tube is used. This has the advantage that not a complete for every new engine variant or every new vehicle model new filter housing must be constructed, but it can be made with a constant Air filter housing only different by replacing the resonator tube Internal combustion engines or engine variants are covered.

According to claim 12 is a modular system for the assembly of an air filter proposed for the intake air of internal combustion engines. This modular system contains an air filter housing consisting of at least two housing parts, whereby at least one housing part has a receptacle for a resonator tube, an in the housing arranged filter element and a corresponding to the receptacle designed resonator tube to form a multi-chamber resonator. This Modular system with the matching parts has the advantage in different Internal combustion engines with different frequency ranges to be damped to be able to. The simple structure also includes simple swapping individual air filter components. So z. B. when the noise requirement changes by changing the resonator tube of the air filter to the new requirements be adjusted. In addition, such a modular system also meets the requirement economical production and low expenditure for warehouse logistics.

In one embodiment of the modular system, the resonator tube is via detachable connecting means connected to the receptacle. The releasable connection means include e.g. B. a screw connection or a clip connection or other im Connection means known in the art.

The method according to the invention for manufacturing the air filter includes manufacturing of the air filter housing in the injection molding process, with at least part of the walls the air filter housing forms a receptacle of a resonator tube. in this connection is determined by the tool geometry at the inlet or outlet of the air filter housing Receptacle formed, which neither impedes the air flow nor the size of the air filter element to be used afterwards. The so made Air filter housing is sealed between the inlet and outlet with an air filter element provided and can then if necessary in the receptacle with a resonator tube be equipped with a resonator silencer. The air filter produced in this way can without any restriction either with resonator silencer or without resonator silencer be used. This gives the advantage of cheaper manufacturing, because only one tool has to be used and lower storage costs, because two different air filter housings are not kept in stock have to.

An advantageous embodiment of the method for producing the air filter in particular An internal combustion engine is given in that the partitions of the resonator tube Sealing lips are added, which in the releasable connection of the air filter housing and resonator tube a sealing effect between the resulting Effect resonator chambers and to the environment. The resonator tube is also in the Injection molding process and so the partitions can be made directly in the injection molding process be produced with. The attached to the radial outside of the partitions Sealing lips can be attached there via adhesive or welded connections become. These sealing lips are preferably made of a softer thermoplastic Material such as Sanchoprene, a thermoplastic elastomer (TPE) to certain To guarantee deformations with a very high degree of sealing.

An embodiment of this method is characterized in that the sealing lips be injected onto the partitions of the resonator tube using the 2-component process. This results in an extremely intimate connection between the partition and the sealing lip and the risk of a leak in the area between the sealing lip and the partition is minimized, if not excluded.

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

drawing

Figur 1

eine schematische Ansicht des erfindungsgemäßen Luftfilters ohne Resonatorrohr,

Figur 2

eine schematische Ansicht des Resonatorrohres,

Figur 3

eine schematische Ansicht des erfindungsgemäßen Luftfilters mit Resonatorrohr und

Figur 4

ein relevanter Ausschnitt des Resonatorrohres in eingebautem Zustand.

Further details of the invention are described in the drawing using schematic exemplary embodiments. Here shows

Figure 1

2 shows a schematic view of the air filter according to the invention without a resonator tube,

Figure 2

1 shows a schematic view of the resonator tube,

Figure 3

a schematic view of the air filter according to the invention with resonator tube and

Figure 4

a relevant section of the resonator tube in the installed state.

Description of the embodiments

FIG. 1 shows an air filter 10 with an inlet 11 and an outlet 12. Between An air filter element 13 is arranged sealingly at inlet 11 and outlet 12. The air filter 10 consists of two air filter housing parts 14a, 14b, which sealingly releasably together are connected. Inlet 11 and outlet 12, the arrows indicate the direction of flow offer the possibility of additional lines or components on the air filter housing to join. The housing walls on the air filter housing part 14b Area of the outlet 12 continued convexly into the interior of the air filter 10 and thereby form a receptacle 15. This means that the passage area starting from the outer end of the outlet 12 inwards towards the interior of the air filter 10 enlarged. The receptacle 15 has a substantially circular Footprint on. This air filter 10 is in the configuration shown here Can be used directly in an internal combustion engine.

FIG. 2 shows a resonator tube intended for reception in the receiving connection 15 16. Components corresponding to the previous figure have the same reference numerals Mistake. The resonator tube 16 has a slight curvature to the To be able to follow the contour of the receiving connector 15. Partitions are on the resonator tube 16 17 arranged, which have sealing lips 18 in the outer radial region. Likewise, between the partition walls 17 over the circumference of the resonator tube 16 several circular recesses arranged. The number of recesses 19 and their shape and arrangement have one with the wall thickness of the resonator tube 16 decisive influence on the frequency range to be damped. The resonator tube 16 together with the partition walls 17, the sealing lips 18 and the recesses 19th can be manufactured using the thermoplastic injection molding process. While the resonator tube 16 and the partitions 17 made of a solid, hard material such. B. polyamide 66 (glass fiber reinforced) or similar thermoplastic known in the art Plastic materials is manufactured, the sealing lip consists of a soft, elastic material. This is applied to the partitions 17 in the two-component process molded.

FIG. 3 shows the air filter 10 according to the invention with a resonator tube inserted 16. Components corresponding to the previous figures have the same reference numerals Mistake. Here it can be clearly seen in what way the resonator tube 16 is integrated into the receptacle 15. The different diameters of the Partitions 17 including the sealing lips 18 correspond to that of inside expanding receptacle 15 two from each other and with the interior and the outer region sealed resonator chambers. Here is clearly too recognize that with a suitable design of the resonator tube 16, the effective Passage diameter of the outlet 12 despite the resonator tube 16 inserted not changed. The resonator tube 16 can now be a welded connection or a Clip connection not detachable with the air filter housing part 14b and the associated Receptacle 15 are connected or releasably sealing in which the inner Cutting disc 17 is provided with receiving tabs, not shown, and this Recording tabs with the air filter housing part 14b z. B. screwed.

FIG. 4 shows an enlargement of the resonator tube 16 used in the receptacle 15. Components corresponding to the previous figures are the same Provide reference numerals. The resulting resonator chambers are clearly shown in FIG 20 recognizable. In the example shown, two resonator chambers 20 are sealed from one another separately, these two chambers also being sealed off from the outside are. This measure creates a two-chamber broadband resonator. Due to the flexible design of the sealing lips 18, the seal is also small Manufacturing tolerances still exist. The essentially cylindrical embodiment of the resonator tube 16 results in the essentially cylindrical conversion the respective resonator chamber volume through the receptacle. An enlargement or reducing this volume also has an impact on the damping frequencies.

Claims (16)

Air filter (10), in particular an internal combustion engine, with an inlet (11), a Outlet (12), a sealingly arranged between inlet (11) and outlet (12) Air filter element (13) and a receptacle arranged on the air filter housing (14a, 14b) (15) for a resonator tube (16), at least a part of the receptacle (15) of the air filter housing (14a, 14b) at least part of the outer wall of a resonator silencer. Air filter (10) according to claim 1, characterized in that the receptacle for the resonator tube (16) is arranged in the interior of the air filter housing (14a, 14b). Air filter (10) according to one of Claims 1 to 2, characterized in that the resonator tube (16) is arranged in the outlet (12) on the clean air side. Air filter (10) according to one of Claims 1 to 2, characterized in that the resonator tube (16) is arranged in the inlet (11) on the raw air side. Air filter (10) according to one of claims 3 or 4, characterized in that the effective cross-sectional area of inlet (11) or outlet (12) remains the same with the resonator tube (16) inserted. Air filter (10) according to one of the preceding claims, characterized in that the resonator tube (16) consists of an injection-moldable material. Air filter (10) according to claim 6, characterized in that the resonator tube (16) contains partition walls (17) and on the radial outer diameter of the partition walls (17) sealing lips (18). Air filter (10) according to one of the preceding claims, characterized in that the resonator tube (16) is arranged in the air filter housing (14a, 14b) so that it can be detached without being destroyed. Air filter (10) according to one of the preceding claims, characterized in that the resonator tube (16) contains at one axial end a substantially annular partition wall (17) surrounding the resonator tube (16) with sealing lips (18) molded on in the outer region , wherein in the further course of the resonator tube (16) annular recesses (19) are arranged over the circumference, in the further course a further substantially annular partition wall (17) surrounding the resonator tube (16) with injection molded sealing lips () 18) is arranged, whereupon a further region with annular recesses (19), which is sealed off by the second partition (17), is arranged, and the resonator tube (16) has a last one, the resonator tube, at its other end (16) surrounding, essentially circular, partition (17) with molded sealing lips (1 8) contains. Air filter (10) according to claim 9, characterized in that the areas of the resonator tube (16) in a sealing, corresponding connection with at least a part of the receptacle (15) form two resonator chambers to form a broadband resonator. Air filter (10) according to one of the preceding claims, characterized in that, with the air filter housing (14a, 14b) remaining the same, an adaptation to different internal combustion engines is possible by exchanging the resonator tube (16). Modular system for assembling an air filter (10) for the intake air of internal combustion engines, the modular system comprising the following elements: an air filter housing (14a, 14b) consisting of at least two individual housing parts,
at least one housing part having a receptacle (15) for a resonator tube (16), a filter element (13) arranged in the housing, a resonator tube (16) designed to correspond to the receptacle (15) to form a multi-chamber resonator, different frequency ranges being dampable by varying the resonator tube (16). Modular system according to claim 12, characterized in that the resonator tube (16) is connected to the receiving connector (15) via releasable connecting means. Method for producing an air filter (10), in particular an internal combustion engine, with an inlet (11), an outlet (12), a seal between the inlet (11) and outlet (12) arranged air filter element (13), the air filter housing (14a, 14b) is produced in the injection molding process, at least part of the Walls of the air filter housing a receptacle for a resonator tube (16) and the air filter is optionally equipped with a resonator silencer becomes. A method for producing an air filter (10), in particular an internal combustion engine, characterized in that sealing lips (18) are attached to partitions (17) of the resonator tube (16), which lips are used for the detachable connection of the air filter housing (14a, 14b) and resonator tube (16 ) cause a sealing effect between the resulting resonator chambers (20) and the environment. Method according to claim 15, characterized in that these sealing lips (18) are injection molded onto the partition walls (17) of the resonator tube (16) in a two-component process.

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