DE102017211090A1 - Filter element for cleaning intake air and a suction arrangement - Google Patents

Abstract

The invention relates to a filter element (1) for cleaning intake air, in particular an internal combustion engine. The filter element (1) has a plate-shaped filter body (2) made of a folded filter material with a raw side (3a) and with a clean side (3b), wherein each two adjacent folds (4) via a fold (5) are interconnected. Further, the filter element (1) at least one on the filter body (2) peripherally encircling sealing ring (6). According to the invention, the filter element (1) has at least one sealing web (7a, 7b) which extends substantially parallel to the folds (5) of the filter body (2) and is arranged fluid-tight at least at one fold (5) of the filter body (2) The invention also relates to an alternatively embodied filter element (20), wherein the filter element (20) has at least one sealing wall (21) and a sealing web (7c) arranged fluid-tight on the sealing wall (21). Furthermore, the invention relates to a suction arrangement (10) with the filter body (1, 20).

Description

The invention relates to a filter element for cleaning intake air, in particular an internal combustion engine according to the preamble of claim 1 and a suction arrangement with the filter element.

Filter elements are used in a motor vehicle to clean the intake air of an internal combustion engine. The filter element in this case has a plate-shaped body made of a folded porous material, wherein each two adjacent folds are connected to each other via a fold. An outside air inlet and an air outlet are connected to one another in an air-conducting manner by the filter element, wherein the intake air flows through the porous material from a raw side to a clean side of the filter element and is thus freed from dust particles. In order for the filter element to withstand a higher differential pressure, it can be additionally stabilized, such as in DE 201 12 440 U1 is described.

In the case of icing or heavy snow, the outside air intake can become clogged and the filter element temporarily loses its function due to the snow reaching the raw side. Through an internal air intake - for example, from a warm engine compartment - then the intake air can be sucked directly from the engine compartment in case of failure of the outside air intake. The outside air inlet and the inside air inlet are suitably fluid-tightly separated from each other on the raw side of the filter element, so that the filter element remains functional at least in some areas when the outside air inlet fails.

For a fluid-tight separation of the inside air inlet from the outside air inlet, some solutions are known from the prior art. For example, describe DE 10 2004 036 083 A1 and DE 103 32 453 A1 each a fluid-tight partition, which separates the filter element into two sub-filters. However, the expense of constructing a two-part filter element and the fluid-tight separation of the two sub-filters from each other leads to an undesirable cost increase.

The object of the invention is therefore to provide a filter element and a suction arrangement, which overcome the mentioned disadvantage.

This object is achieved by the subject of independent claim 1. Advantageous embodiments are the subject of the dependent claims.

A filter element for cleaning intake air, in particular an internal combustion engine, has a plate-shaped filter body with a raw side and with a clean side. The filter body consists of a folded filter material, wherein each two adjacent folds are connected to each other via a fold. The filter element also has at least one sealing ring encircling the edge of the filter body. According to the invention, the filter element has at least one sealing web, which extends substantially parallel to the folds of the filter body and is arranged fluid-tight at least at one fold of the filter body.

The raw side is separated from the clean side by the folded filter material of the filter body. The side of the filter body is fluid-tightly sealed by means of a pocket adhesive, for example, by an adhesive bead or a glued side strip of filter material, paper or cardboard, so that the intake air can flow from the raw side to the clean side exclusively through the folded filter material. Through the sealing ring, the filter element can be fixed fluid-tight to a housing, so that a cold air inlet and a warm air inlet from a clean air outlet in the housing are fluid-conductively connected only by the filter material. The sealing ring can be arranged laterally adjacent to the raw side or on the clean side or between the raw side and the clean side - for example, in the middle. According to the invention, the sealing web can be fixed to the raw side or to the clean side of the filter body and divides the filter body into two filter regions in a fluid-tight manner, in that according to the invention the sealing web is arranged in a fluid-tight manner on at least one of the folds of the filter body. The sealing web can cover the respective fold at least in some areas, so that the sealing web is fixed securely to the respective fold - for example by material bonding or clamping. The sealing web extends substantially parallel - ie with a deviation of less than 5 ° - to the folds of the filter body.

By the sealing web according to the invention, the filter body can be made in one piece, whereby the manufacturing cost can be reduced. In addition, can be stabilized by the sealing web of the filter body, so that even with a higher differential pressure between the raw side and the clean side, the folds of the filter body do not adhere to each other.

In a particularly preferred embodiment of the filter element according to the invention it is provided that the sealing web is integrally formed on the sealing ring. Suitably, the sealing ring is then arranged laterally adjacent to the raw side or on the clean side, so that the sealing web is integrally formed on both sides of the sealing ring. In this way, the filter body can be additionally stabilized and separated in two filter areas fluid-tight.

Advantageously, it is provided that the sealing web has a Festlegnut on a folded side, wherein in the Festlegnut at least one fold is arranged fluid-tight. The sealing web sheathed in this way the fold of the filter body and separates fluid-tight in a particularly secure manner the filter body on the raw side or on the clean side in two filter areas.

It is provided that the sealing ring and / or the sealing web consist of a foam. The foam is preferably a polyurethane foam. By the foam, the sealing ring and the sealing web can be made comparatively cheap. Further, in the manufacture of the sealing ring and the sealing web can be foamed together, whereby the manufacturing cost can be further reduced.

In order to fluid-tightly separate the cold air inlet from the warm air inlet, it is provided that the sealing web has a separating wall for a dividing wall on a separating side opposite the folding side. In the separation groove, the dividing wall can be fluid-tightly fixed, which fluid-tightly separates the cold air inlet from the warm air inlet within the housing. The partition may for example be integrally formed on the housing and fixed fluid-tight to the sealing web, in this embodiment, the sealing web is set appropriately on the raw side of the filter body.

The object of the present invention is also achieved by a filter element according to the preamble of claim 1, wherein the filter element has at least one sealing wall and a fluid-tight sealing web arranged on the sealing wall. In this case, the sealing wall and the sealing web lie in a parting plane which connects the filter body from the raw side to the clean side perpendicularly through the filter body and has an angle to the folds of the filter body.

The sealing wall separates the filter body fluid-tight in two filter areas and can be formed, for example, by gluing the facing wrinkles on the raw side or on the clean side of the filter body along the partition. The sealing web is then arranged fluid-tight on the sealing wall, so that the filter body is separated on the raw side or on the clean side in two fluid-tightly separated filter areas. The angle formed by the parting plane and the folds of the filter body can vary between 90 ° and 0 °, whereby advantageously different geometries of the filter element can be realized. Also in this embodiment of the filter element, the sealing web can be integrally formed on the sealing ring.

The invention also relates to an intake arrangement for purifying an intake air, in particular in an internal combustion engine, wherein a housing of the intake arrangement has a warm air inlet and a cold air inlet on a housing upper side and a clean air outlet on a housing side. In this case, the housing upper side and the housing side are separated by a filter element described above and fixed in the housing.

It is provided that the housing has a circumferential seal receptacle, in which the sealing ring is arranged and between a housing upper part and a lower housing part axially or radially non-positively fixed .. This allows the sealing ring of the filter element to be fixed to the housing fluid-tight, so that the housing side of the housing upper side is fluidly connected only through the filter material of the filter body. In this way, the intake air from the cold air inlet or from the warm air inlet can only flow through the filter material of the filter element to the clean air outlet. Furthermore, the filter element can be removed from the housing with reduced wall costs and replaced.

Advantageously, it is provided that the housing has a partition wall on the housing upper side. The partition separates the cold air inlet and the hot air inlet fluid-tight from each other and is fixed fluid-tight to a arranged on the raw side of the filter body sealing bar. The partition may be integrally formed on the housing.

Advantageously, the housing may have on the housing side at least one supporting bridge for at least one fold or for at least one sealing web of the filter element. In this way, the filter body can be supported in the housing on the housing side, so that a higher differential pressure between the raw side and the clean side of the filter body can be sustained by the filter element. The support bridge can be designed to be fluid-permeable, so that the purified intake air can flow unhindered on the housing side to the clean air outlet.

Overall, the intake air can be cleaned both from the cold air inlet and from the warm air inlet by the filter element according to the invention and the intake arrangement according to the invention, wherein the cold air inlet from the hot air inlet is securely separated fluid-tight. Compared to the solutions known from the prior art, the filter element according to the invention and the inventive intake advantageously and can be produced with a reduced effort.

Other important features and advantages of the invention will become apparent from the dependent claims, from the drawings and from the associated figure description 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.

• 1 eine Schnittansicht eines erfindungsgemäßen Filterelements mit Dichtungsstegen;
• 2 eine Draufsicht auf das in 1 gezeigte Filterelement;
• 3 eine Schnittansicht einer erfindungsgemäßen Ansaugvorrichtung mit einem erfindungsgemäßen Filterelement;
• 4 eine Ansicht eines alternativ ausgestalteten erfindungsgemäßen Filterelement;
• 5 eine Draufsicht auf das in 4 gezeigte Filterelement.

It show, each schematically

• 1 a sectional view of a filter element according to the invention with sealing webs;
• 2 a top view of the in 1 shown filter element;
• 3 a sectional view of a suction device according to the invention with a filter element according to the invention;
• 4 a view of an alternative embodiment of the invention filter element;
• 5 a top view of the in 4 shown filter element.

1 shows a sectional view and 2 shows a plan view of a filter element according to the invention 1 , The filter element 1 is suitable for cleaning intake air in particular an internal combustion engine and has a plate-shaped filter body 2 with a raw side 3a and with a clean side 3b on.

The filter body 2 consists of a folded filter material, with two adjacent folds 4 about a fold 5 connected to each other. The filter element 1 also has a on the filter body 2 edge peripheral sealing ring 6 on. The sealing ring 6 is fluidly tight and in particular firmly connected to the filter body 2. Furthermore, the filter element 1 a sealing bar 7a on the raw side 3a and a sealing bar 7b on the clean side 3b on. The sealing bar 7a is on the sealing ring 6 integrally formed. The sealing webs 7a and 7b extend substantially parallel to the folds 5 of the filter body 2 and are each at a fold 5 the filter body 2 fixed fluid-tight. For this purpose, the respective sealing web 7a and 7b on a fold page 8th each a Festlegnut 9 on, in which the respective fold 5 is determined cohesively.

3 shows a schematic sectional view of a suction device according to the invention 10 with the filter element according to the invention 1 , A housing 11 the intake arrangement 10 points to a housing upper side 12a a cold air inlet 13 and a warm air inlet 14 and on a case side 12b a clean air outlet 15 on. Here are the housing top 12a and the case side 12b through the filter element 1 separated, wherein the filter element 1 appropriately with the raw side 3a the case top 12a and with the clean side 3b the housing side 12b facing in the housing 11 seconded. Through the sealing ring 6 is the filter element 1 in the housing 11 laterally fixed fluid-tight, wherein the sealing ring 6 in a gasket holder 6a arranged and between an upper housing part 11a and a housing lower part 11b is trapped. Further, the filter element 1 laterally sealed by means of a pocket bonding, for example by a bead of adhesive. In this way, the intake air from the housing upper side 12a to the housing side 12b exclusively through the filter material of the filter element 1 flow through.

The cold air inlet 13 is from the warm air intake 14 in the case 11 through a partition 16 fluid-tight, the partition 16 on the upper housing part 11a is integrally formed. The filter body 2 and the partition 16 the intake arrangement 10 are through the sealing bar 7a fluid-tightly connected to each other, wherein the partition wall 16 in the sealing bar 7a in a separation groove 17 on one of the fold side 8th opposite separation side 18 is fixed. Furthermore, the housing has 11 on the inside of the case 12b in the housing lower part 11b a support bridge 19 for a the sealing bar 7b of the filter element 1 on. In this way, the filter body 2 in the housing 11 on the clean side 3b be supported, so that a higher differential pressure between the raw side 3a and the clean side 3b is reachable.

4 shows a schematic view of an alternative embodiment of the invention filter element 20 , In 5 is a plan view of the filter element 20 shown. The filter element 20 here has a sealing wall 21 and one on the sealing wall 21 fluid-tight sealing web 7c on. Here are the seal wall 21 and the sealing bar 7c in a dividing plane 22 that the filter body 2 from the raw side 3a to the clean side 3b perpendicularly connects the filter body 2 and an angle α to the folds 5 of the filter body 2 has. The one of the dividing plane 22 and the folds 5 of the filter body 2 formed angle α is in this embodiment 90 °. The sealing wall 21 For example, by gluing the facing wrinkles 4 on the raw side 3a be formed of the filter body 2.

Overall, by the filter element according to the invention 1 or 20 in the aspirator 10 the cold air inlet 13 from the warm air inlet 14 be securely separated fluid-tight, wherein the filter body 2 in the filter elements 1 or 20 can be made in one piece and comparatively cheap.

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 20112440 U1 [0002]
• DE 102004036083 A1 [0004]
• DE 10332453 A1 [0004]

Claims (12)

Filter element (1) for cleaning intake air, in particular an internal combustion engine, - wherein the filter element (1) has a plate-shaped filter body (2) with a raw side (3a) and with a clean side (3b), - wherein the filter body (2) consists of a folded Filter material consists, wherein each two adjacent folds (4) via a fold (5) are interconnected, and - wherein the filter element (1) at least one on the filter body (2) peripherally encircling sealing ring (6), characterized in that the Filter element (1) at least one sealing web (7a, 7b) which extends substantially parallel to the folds (5) of the filter body (2) and at least at a fold (5) of the filter body (2) is arranged fluid-tight. Filter element (1) after Claim 1 , characterized in that the sealing web (7a, 7b) is integrally formed on the sealing ring (6). Filter element (1) after Claim 1 or 2 , characterized in that the sealing web (7a, 7b) on a folding side (8) has a Festlegnut (9), wherein in the Festlegnut (9) at least one fold (5) is arranged fluid-tight. Filter element (1) according to one of the preceding claims, characterized in that the sealing ring (6) and / or the sealing web (7a, 7b) made of a foam, preferably made of a polyurethane foam. Filter element (1) according to one of the preceding claims, characterized in that the sealing web (7a, 7b) has a separation groove (17) for a dividing wall (16) on a separating side (18) opposite the folding side (8). Filter element (20) after the upper grip of the Claim 1 , characterized in that the filter element (20) has at least one sealing wall (21) and a sealing web (7c) arranged fluid-tight on the sealing wall (21), wherein the sealing wall (21) and the sealing web (7c) are arranged in a parting plane (22). lie, which connects the filter body (2) from the raw side (3a) to the clean side (3b) perpendicular to the filter body (2) and an angle (a) to the folds (5) of the filter body (2). Filter element (20) after Claim 6 , characterized in that the sealing wall (21) by an adhesion of the facing folds (4) on the raw side (3a) or on the clean side (3b) of the filter body (2) along the partition (16) is formed. Filter element (20) after Claim 6 or 7 , characterized in that the sealing web (7c) is integrally formed on the sealing ring (6). An intake arrangement (10) for cleaning an intake air, in particular in an internal combustion engine, wherein a housing (11) of the intake assembly (10) on a housing side (12a) a cold air inlet (13) and a warm air inlet (14) and on a housing side (12b) a clean air outlet (15), wherein the housing upper side (12a) and the housing side (12b) by a in the housing (11) fixed filter element (1, 20) according to one of Claims 1 to 8th are separated fluid-tight. Suction arrangement (10) according to Claim 9 , characterized in that the housing (11) has a circumferential seal receptacle (6a), in which the sealing ring (6) is arranged and between a housing upper part (11a) and a lower housing part (11b) is fixed axially and / or radially non-positively. Suction arrangement (10) according to Claim 9 or 10 , characterized in that the housing (11) on the housing upper side (12a) has a partition wall (16), the cold air inlet (13) and the hot air inlet (14) fluid-tightly separated from each other and at one on the raw side (3a) of the filter element ( 1, 20) arranged sealing web (7a, 7c) is fixed fluid-tight. Suction arrangement (20) according to one of Claims 9 to 11 , characterized in that the housing (11) on the housing side (12a) at least one supporting bridge (19) for at least one fold (5) or at least one sealing web (7a, 7b, 7c) of the filter element (1, 20).

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