Priority is claimed based on Federal Republic of Germany patent application No. 20 2008 017 059.1, filed: Dec. 23, 2008, the entire disclosure of which is incorporated herein by reference.
The invention concerns a filter device, in particular an air filter for internal combustion engines.
EP 1 509 311 B1 concerns an air filter with a wound filter medium. The air filter according to EP 1 509 311 B1 comprises a housing with an inlet end and an outlet end opposite thereto and a sidewall that extends between the inlet end and the outlet end. The sidewall comprises an access opening as an access to the interior of the housing. The access opening, in turn, is arranged between the inlet end and the outlet end. The air filter comprises furthermore a filter element with a sealing element that is operatively mounted in the housing. This sealing element separates the clean air from the raw air side. The housing is constructed and arranged such that it may receive the filter element through the access opening in the sidewall. A servicing cover is provided that is detachably mounted on the access opening between the inlet end and the outlet end.
The filter element comprises a first flow surface and an opposed second flow surface. The filter element comprises several fold chambers wherein each of the fold chambers comprises, adjacent to the first flow surface, a portion that is positioned upstream and, adjacent to the second flow surface, a flow portion that is positioned downstream.
The filter element is arranged such that the air flows via the inlet end of the housing through the first flow surface and the second flow surface and exits the housing through the outlet end. The filter element comprises a terminal disk about a periphery of the first flow surface. A portion of the frame projects into the periphery of the first flow surface. The servicing cover comprises a shoulder that extends in the direction of the interior of the housing and supports the filter element when the filter element is installed in the housing. The shoulder of the servicing cover engages the frame and rests against the first flow surface in order to secure the filter element.
The invention has the object to realize a simple handling of the filter element and to transfer it in a way as simply as possible into its operating position within the filter housing of a filter device, in particular to provide in a very simple way a sealing action of the filter element.
According to the invention, this object is solved by the features of the independent claims.
The dependent claims relate to advantageous further embodiments of the principle upon which the invention is based.
According to the invention, it is proposed to design a servicing cover for closing a housing compartment of a filter housing of a filter device in such a way that, when closing the servicing cover, the filter element that has been inserted before into the housing compartment of the filter housing will be positioned properly and, by closing the servicing cover, a sealing force is generated with which the filter element that is pre-mounted in its proper position in the housing compartment is moved against a lateral surface of the housing compartment in the filter housing.
The filter device proposed according to the invention is advantageously one that comprises several components, for example, a prefilter stage in the form of a cyclone preseparator, the already mentioned main filter element as well as a secondary or safety filter element that is arranged in axial direction, i.e., in the flow direction of the fluid to be filtered, downstream thereof. The cyclone preseparator that is upstream of the main filter element or the housing compartment of the filter housing comprises a discharge opening through which coarse particles of the fluid to be filtered are discharged. The cyclone preseparator can be connected in an advantageous way by a screw connection that extends from the end face of the cyclone preseparator along the side walls of the housing compartment to the filter housing. In this way, a seal-tight connection along a butt joint between the cyclone separator and the housing compartment of the filter housing is provided so in that no foreign air can be taken in that has not passed through the cyclone preseparator. Moreover, the screw connection provides a possibility for servicing the cyclone separator.
The secondary filter element that is arranged downstream of the exchangeable filter element arranged in the housing compartment can be secured on the rib-shaped or cupola-shaped projections within a funnel-shaped compartment at the outlet side of the filter housing without this requiring additional fixation elements. In an advantageous way, the secondary filter element downstream of the main filter element can be changed without tools, in particular by a simple one-hand operation.
The main filter element that is exchangeably received in the housing compartment of the filter housing is preferably a multi bellows filter, in particular a double bellows filter. It comprises a first radially inwardly positioned filter bellows that is cylindrical or conical relative to its outer diameter and is surrounded with formation of an optionally conical or cylindrical flow space by a further second radially outwardly positioned filter bellows. Both filter bellows of the multi filter bellows are embodied advantageously so as to be glued at the front edges. The individual filter folds extend preferably in axial direction, i.e., parallel to the flow path of the fluid to be cleaned that is passing through the filter housing.
As already mentioned, in an advantageous way on the housing compartment that is formed within the filter housing a servicing cover is provided. The latter is supported by means of hinges such that the servicing cover can be gripped by a grip and can be pivoted about the hinges positioned opposite the grip. As a result of the sizing of the diameter of the hinges the servicing cover can be locked in its open position, can simply be moved out of this position for closing and positionally secured by a locking action, in particular, a locking action provided on the cyclone preseparator. For this purpose, the grip member of the servicing cover engages a grip depression at the top side of the cyclone preseparator that is preferably manufactured by plastic injection molding and locks thereat. By a simple pressing action against the grip member that is substantially oriented perpendicularly to the servicing cover, the locking action within a depression at the end face of the cyclone preseparator can be canceled and the servicing cover can be opened, in particular by a one-hand operation.
After the servicing cover has been opened, the main filter element mounted in the housing compartment of the filter housing can be removed easily. For this purpose, the main filter element is provided with a grip tab so that a one-hand action is possible. This seal of the main filter element is released in axial direction so that the main filter element can be removed in the upward direction. As a result of the design of the hinges the servicing cover after having been opened remains in its open position so that the operator who has possibly only one hand available can grip the main filter element at the grip tab or the grip member while, with the other hand, he holds onto a grip, for example, above the engine compartment of a tractor or a construction machine.
After removing a spent main filter element a new main filter element can be simply inserted into the housing compartment. The main filter element can also be cleaned off and after cleaning can be reinstalled and can thus be used several times. For this purpose, the two oppositely positioned lateral surfaces of the housing compartment receiving the main filter element each can be provided with ramp-shaped projections. The ramp-shaped projections that are preferably integrally injection-molded with a reinforcement structure onto the lateral surfaces of the housing compartment ensure insertion of the main filter element into the housing compartment of the filter housing in correct orientation. Moreover, a wrong insertion of the filter element is prevented in that through the housing compartment the screw guides extend that represent a further safety detail with regard to mounting the main filter element in the housing compartment of the filter housing in the proper position.
As soon as the main filter element with its upper circumferentially extending rim has been inserted into the housing compartment along the ramps, the servicing cover can be closed. For this purpose, the servicing cover that is open is gripped at the grip member and pivoted about the hinges. On the inner side the servicing cover advantageously comprises at least one, preferably two spaced apart shoulders. Upon closing of the servicing cover these shoulders engage the circumferentially extending collar on the topside of the main filter element that is already pre-positioned by the ramp-shaped stays integrally injection-molded on the lateral surfaces of the housing compartment. When closing the servicing cover, the sealing force in the filter device according to the invention is generated because by means of the preferably two shoulders that are integrally injection-molded on the inner side of the servicing cover a circumferentially extending collar on the main filter element is engaged and sealed against a complementary sealing surface on the inner side of the filter housing on that side that is facing the secondary filter element. In the filter device proposed according to the invention the sealing force is generated upon closing the servicing cover. The sealing force that acts preferably in axial direction is maintained in the closed state of the servicing cover and is released only when opening the servicing cover. The sealing force is advantageously maintained in the already mentioned locking action between the grip member of the servicing cover and a depression, formed, for example, on the cyclone preseparator, during the closed state of the servicing cover.
In an advantageous embodiment of the principle upon which the invention is based, the servicing cover is manufactured by injection molding of plastic material wherein the grip member is integrally injection-molded onto the front side of the servicing cover, opposite to at least one hinge. The grip member is advantageously designed such that a one-hand operation is possible. For this purpose, the grip member may comprise an opening, but it can also be designed without an opening. The grip member is advantageously provided with a contour that forms a depression-like recess that interacts with a counter member of the locking action—formed in the depression—and thus ensures the locking action of the servicing cover in the closed state and maintaining the sealing force in relation to the main filter element in the housing compartment of the filter housing by the shoulders contacting a circumferentially extending collar of the main filter element in the closed state of the servicing cover. Alternatively, the grip member can also be of a multi-part configuration.
In an advantageous further embodiment of the principle upon which the invention is based, the secondary filter element that is arranged downstream of the main filter element, embodied preferably as a multi bellows filter element, is exchangeably arranged in a funnel-shaped recess of the filter housing. For this purpose, in the funnel-shaped recess in the filter housing several cupola-shaped projections can be formed. Between these cupola-shaped projections that are formed, for example, on the bottom side and topside of the funnel-shaped openings, the secondary filter element is inserted; this can also be done with one hand. No further fixation elements are needed for the secondary filter element that is to be positioned downstream of the main filter element in the funnel-shaped area of the filter housing at the outlet side.
In an advantageous manner the main filter element is embodied as a multi bellows filter, in particular as a double bellows filter, in which the axial end faces at the inlet side each are closed off by cover. While, for example, the radially outwardly positioned filter bellows is cylindrical or conical, the inwardly positioned inner bellows can have a conical shape so that between the inner diameter of the radially outwardly positioned filter bellows and the conically extending outer diameter of the radially inwardly positioned filter bellows a conically extending flow space is provided. This flow space that has the aforementioned conical shape is filled by a support structure that has a rib-shaped structure that extends in axial direction as well as in circumferential direction. By means of the support structure, in particular for other sizes of the filter device proposed according to the invention, it is ensured that the configuration of the geometry of the flow space of the main filter element is maintained even after extended operation and that outflow is ensured. The radially inwardly positioned filter bellows delimits an interior that, in turn, is closed off by a cover disk. As a result of the selected positioning of the cover disks or the cover disk on the outlet side or the annular ring at the inlet side, it is ensured that the fluid to be filtered that has passed the cyclone preseparator flows into the interior of the main filter element that is closed off at the outlet side by the cover disk. In this way, a radial deflection is imparted onto the fluid to be filtered so that the first radially inwardly positioned filter bellows is flowed through in the radial direction. Cleaned fluid thus enters the conically extending flow space. Since the axial end face of the radially outwardly positioned filter bellows is also closed off by the annular cover, flow-through of the radially outwardly positioned filter bellows is done from the exterior side. The fluid to be cleaned enters the flow space coming from the outer surface of the radially outwardly positioned filter bellows in radial direction and passing through it. The flow space that has a conical configuration comprises an outlet opening from which the cleaned fluid flows into the secondary filter element.
The main filter element is in particular in the form of the aforementioned multi bellows filter, preferably a double bellows filter. Its cover at the inlet side can be made from a plastic material, for example, as a PUR ring and can be circular or oval. The axial end faces of the inwardly positioned conically shaped filter bellows and of the outwardly positioned cylindrically embodied filter bellows can be integrated therein by foaming. Downstream on the main filter element, formed on the circumferentially extending rim, the grip member is provided as well as a blade-shaped structure for stabilization of a seal. The circumferentially extending rim as well as the blade-shaped contour that is preferably provided with penetrations, are injection-molded of a harder plastic material and serve for stabilization of the seal that can also be produced by foaming of PUR. Advantageously, the blade-shaped structure of the frame is provided with penetrations so that the plastic material, for example, PUR, of which the seal is preferably produced by foaming, is reliably secured on the blade and stabilized. This increases the service life and sealing action of the seal that is circumferentially foamed onto the frame. Instead of the aforementioned plastic material PUR, other easily processable plastic materials that generate a high sealing force and have elastic properties can also be integrally injection-molded onto the blade-shaped structure. In an alternative possible embodiment variant on the ramps, integrally injection-molded onto the lateral surfaces of the housing compartment of the filter housing and interrupted by reinforcement ribs, shoulders can be provided also into which leaf springs can snap. The leaf springs, in turn, are connected to the bottom side of the circumferentially extending injection molded frame of the main filter element. When the main filter element is inserted into the housing compartment with one hand, the operator will sense haptically that upon reaching the first locking position a correct insertion process has been realized and upon exertion of greater insertion force and overcoming a second spring force when reaching the second shoulder haptically a correct position of the filter element.
Embodiments of the filter device according to the invention for an internal combustion engine will be explained in more detail with the aid of the Figures in the drawing. It is shown in;
Same parts in the following Figures are identified with identical reference numerals.
The illustration according to
The filter device 10 according to the perspective illustration in
In
The servicing cover 18 comprises a grip member 22 on the side opposite the at least one hinge 20. The grip member 22 in the illustration according to
The illustration according to
As can be seen also in the perspective illustration according to
The servicing cover 18 has a projection 32 that as illustrated in
The cyclone preseparator 26 illustrated in
The illustration according to
The servicing cover 18 comprises in addition to the projection 32 a circumferential collar 34 and the grip member 22 on the side opposite the at least one hinge 20. The grip member 22 comprises according to the embodiment of the servicing cover 18 of
In the illustration according to
The grip member 22 in the illustration according to
As shown in
At the inlet side the first filter bellows 40 and the second filter bellows 42 are closed off by an annular cover 46 while the interior 44 is closed off in axial direction by the cover disk 48. In this way, the filter bellows 40 and 42 of the main filter element 36 are substantially flowed through in radial direction and the filtered fluid flows out through the space that opens conically at the outlet side and in which the support structure 50 that also has a conical shape is received.
Preferably, the annular cover 46 and the cover disk 48 of the main filter element 36 are connected by foaming to the axial end faces of the filter bellows 40 and 42. This has advantages with regard to manufacturing technology.
As also illustrated in the illustration of
As can be seen in the perspective illustration according to
The perspective illustration according to
The main filter element 36 that is gripped with one hand by the grip tab 62 is inserted along the insertions stays 64 into the housing compartment 68 of the filter housing 12 of the filter device 10. The farther the circumferential rim 72 extending about the topside of the main filter element 36 is inserted along the insertion stays 64 in the insertion direction, the farther the circumferential rim 72 on which the seal 76 is formed is positioned on the contact surface 66 of the filter housing 12 facing the secondary filter element 68. The geometry of the insertion stays 64 prevents false mounting of the main filter element 36 because upon rotation of the filter element 36 about 180, in comparison to the illustration according to
The illustration according to
The secondary filter element 38 can be inserted simply into integrally injection-molded cupola-shaped projections in the funnel-shaped area of the filter housing 12 at the outlet side 16 and can be secured therein without further measures. The cupola-shaped projections serve as a defined terminal stop for the secondary filter elements 38.
As a result of the oversize of the streamy injection-molded parts in the funnel-shaped area of the filter housing 12 at its outlet side 16 the secondary filter element 38 is secured therein.
The illustration according to
After complete insertion of the main filter element 36 into the housing compartment 68 of the filter housing 12 as illustrated in
Wrong premounting of the main filter element 36 is prevented, on the one hand, by the configuration of the insertion stays 64 on the lateral surfaces of the housing compartment 68 and, on the other hand, in that the screw guides 86 extend horizontally on the lateral surfaces of the housing compartment 68 below the insertion stays 64. The screw guides 86 serve for receiving screws with which the cyclone preseparator 26, with formation of a seal-tight butt joint 28, is screw-connected to the filter housing 12 of the filter device 10 proposed according to the present invention. By means of the axial pretension generated by the screw connection, the butt joint 28 between the cyclone preseparator 26 and the filter housing 12 is achieved.
The illustration according to
In the illustration according to
The illustration according to
In the illustration according to
The illustration according to
Number | Date | Country | Kind |
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20 2008 017 059 U | Dec 2008 | DE | national |
Number | Name | Date | Kind |
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7004986 | Kopec et al. | Feb 2006 | B2 |
7740678 | Gunderson et al. | Jun 2010 | B2 |
Number | Date | Country | |
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20100186353 A1 | Jul 2010 | US |