Filter Element of a Filter for Liquid, Filter and Filter Housing

Abstract

An exchangeable filter element of a liquid filter has a filter medium surrounding circumferentially a virtual axis of the filter element. A discharge closure element is arranged eccentrically at an axial end face of the filter element. The discharge closure element closes off a discharge opening of a discharge channel of the filter housing when the filter element is installed in the filter housing. The discharge channel serves to empty liquid from the filter when the filter element is removed. The discharge closure element has a limited circumferential expansion with respect to the virtual axis. The discharge closure element has a closure surface arranged at an axial end face of the discharge closure element. The closure surface is at least partially axially oriented. The closure surface rests so as to seal axially at a sealing section of the filter housing that surrounds the discharge opening of the filter housing.

Claims

1. A filter element of a filter for a liquid, the filter element configured to be arranged exchangeably in a filter housing of the filter, the filter element comprising: at least one filter medium surrounding circumferentially a virtual axis of the filter element; at least one discharge closure element arranged eccentrically at an end face of the filter element, wherein the end face is axial with respect to the virtual axis, wherein the at least one discharge closure element is configured to close off a discharge opening of a discharge channel of the filter housing in an installed state of the filter element in the filter housing, wherein the discharge channel serves to empty the liquid from the filter when the filter element is removed from the filter housing; wherein the at least one discharge closure element comprises a limited circumferential expansion with respect to the virtual axis; wherein the at least one discharge closure element comprises at least one closure surface arranged at an axial end face of the at least one discharge closure element, wherein the at least one closure surface is at least partially axially oriented with respect to the virtual axis; wherein the at least one closure surface is configured to rest so as to seal axially with respect to the virtual axis at a sealing section of the filter housing that surrounds the discharge opening of the filter housing.

2. The filter element according to claim 1, wherein the at least one discharge closure element is bell-shape or cup-shaped at least in sections thereof.

3. The filter element according to claim 1, wherein the at least one discharge closure element is elastic at least in sections thereof.

4. The filter element according to claim 1, further comprising a holding device, wherein the at least one discharge closure element is fastened with the holding device to an end body of the filter element, wherein the end body is arranged at an end face with respect to the virtual axis.

5. The filter element according to claim 4, wherein the holding device is fastened by a quick connect connection to the end body.

6. The filter element according to claim 4, wherein the at least one discharge closure element is connected to the holding device so as to be separable from the holding device.

7. The filter element according to claim 4, wherein the at least one discharge closure element is connected to the holding device so as to be separable only by being destroyed.

8. The filter element according to claim 1, further comprising at least one part of at least one positioning device configured to unequivocally predefine a rotational orientation of the filter element in the filter housing with respect to the virtual axis.

9. The filter element according to claim 8, wherein the at least one part of the at least one positioning device comprises an element-associated positioning element that interacts with at least one housing-associated positioning element arranged at the filter housing.

10. The filter element according to claim 9, wherein the element-associated positioning element comprises a raised portion configured to engage the housing-associated positioning element comprising a depression.

11. A filter comprising: a filter housing; a filter element exchangeably arranged in the filter housing; wherein the filter housing comprises at least one inlet for a liquid to be purified; at least one outlet for purified liquid; at least one discharge channel configured to empty the liquid from the filter when the at least one filter element is removed from the filter housing; and at least one closable installation opening for installation and removal of the at least one filter element; wherein the filter element comprises at least one filter medium surrounding circumferentially a virtual axis of the filter element; wherein the filter element comprises at least one discharge closure element arranged eccentrically at an end face of the filter element, wherein the end face of the filter element is axial with respect to the virtual axis, wherein the at least one discharge closure element closes off a discharge opening of the discharge channel when the filter element is installed in the filter housing; wherein the at least one discharge closure element and the discharge opening each have a limited circumferential expansion with respect to the virtual axis; wherein the at least one discharge closure element comprises at least one closure surface arranged at an axial end face of the at least one discharge closure element, wherein the at least one closure surface is at least partially axially oriented with respect to the virtual axis; wherein the at least one closure surface is configured to rest so as to seal axially with respect to the virtual axis against a sealing section of the filter housing that surrounds the discharge opening.

12. The filter according to claim 11, further comprising at least one positioning device configured to unequivocally predefine a rotational orientation of the filter element in the filter housing with respect to the virtual axis, wherein the at least one positioning device includes at least one positioning element arranged at the filter housing.

13. The filter according to claim 12, wherein the at least one positioning device includes at least one positioning element arranged at the filter element and configured to interact with the at least one positioning element arranged at the filter housing.

14. The filter according to claim 13, wherein the at least one positioning element arranged at the filter housing comprises a depression and the at least one positioning element arranged at the filter element comprises a raised portion engaging the depression.

15. The filter according to claim 13, wherein the at least one positioning element arranged at the filter element comprises a depression and the at least one positioning element arranged at the filter housing comprises a raised portion engaging the depression.

16. A filter housing of a filter for liquid configured to accommodate exchangeably a filter element, the filter housing comprising: at least one inlet for the liquid to be purified; at least one outlet for purified liquid; at least one discharge channel configured to empty the liquid from the filter when the filter element is removed from the filter housing; at least one closable installation opening for installation and removal of the filter element; at least one part of at least one positioning device configured to unequivocally predefine a rotational orientation of the filter element in the filter housing with respect to a virtual axis, wherein the at least one part of the at least one positioning device is arranged spatially separate from the at least one discharge channel.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0061] Further advantages, features, and details of the invention result from the following description in which embodiments of the invention will be explained in more detail with the aid of the drawing. A person of skill in the art will also consider the features disclosed in the drawing, the description, and the claims in combination expediently individually and combine them to expedient further combinations.

[0062] FIG. 1 shows schematically a longitudinal section of a detail of a filter for liquid according to a first embodiment, with a filter housing in which a filter element is exchangeably arranged.

[0063] FIG. 2 shows schematically a cross section of the filter of FIG. 1 along the section line II-II indicated in FIG. 1.

[0064] FIG. 3 shows schematically a longitudinal section of a detail of a filter for liquid according to a second embodiment.

[0065] FIG. 4 shows schematically a cross section of the filter of FIG. 3 along the section line IV-IV shown in FIG. 3.

[0066] FIG. 5 shows schematically a longitudinal section of a detail of a filter for liquid according to a third embodiment.

[0067] In the Figures, same components are provided with same reference characters.

DESCRIPTION OF PREFERRED EMBODIMENTS

[0068] In FIGS. 1 and 2, a filter 10 for purifying liquid, for example, motor oil, according to a first embodiment is shown. The filter 10 can be, for example, arranged in a motor oil circuit of an internal combustion engine of a motor vehicle for purifying the motor oil.

[0069] The filter 10 comprises an openable filter housing 12 in which a filter element 14 is exchangeably arranged.

[0070] The filter housing 12 comprises an inlet, not illustrated in the Figures, for the liquid to be purified, an outlet 16 for purified liquid, a discharge channel 18 for emptying the filter 10 upon removal of the filter element 14, and an installation opening, not illustrated in the Figures, for installation and removal of the filter element 14 in a receptacle 28 for the filter element 14 in the interior of the filter housing 12. The installation opening is closable with a non-illustrated housing cover which, for example, can be open for exchange of the filter element 14.

[0071] The outlet 16 is realized in a cylinder section 20. The cylinder section 20 extends from a bottom section 24 of the filter housing 12 coaxially to a virtual axis 22 in the receptacle 28. The cylinder section 20 is connected as one piece with the bottom section 24. The bottom section 24 is positioned at the side which is axially oppositely located with respect to the installation opening and the housing cover.

[0072] The axis 22 coincides in the embodiment with a housing axis of the filter housing 12, an installation/removal axis of the filter element 14 into or out of the filter housing 12, and an element axis of the filter element 14. For improved clarity, in the following the element axis, the housing axis, and the installation/removal axis are provided with the same reference character 22 and are referred to for short as axis 22. It is understood that when the filter element 14 is removed, depending on the context, the housing axis, the element axis and/or the installation/removal axis is intended. When in the following radial, coaxial, axial, tangential, circumferential, concentric, eccentric or the like is referred to, this relates to the axis 22, if nothing else is mentioned.

[0073] The discharge channel 18 is arranged with respect to the axis 22 eccentrically in the bottom section 24. For example, a virtual axis of the discharge channel 18 extends parallel to the axis 22. The discharge channel 18 opens with a discharge opening 26 into the receptacle 28. Alternatively, the axis of the discharge channel 18 can also extend at a slant to the axis 22.

[0074] Moreover, in the bottom section 24 a housing-associated positioning element 30 in the form of a blind bore is arranged. The housing-associated positioning element 30 is part of a positioning device which is identified as a whole by 32, with which a rotational orientation of the filter element 14 in the receptacle 28 of the filter housing 12 with respect to the axis 22 can be unequivocally predefined. The housing-associated positioning element 30 is realized spatially separate from the discharge channel 18 and from the discharge opening 26. For example, the housing-associated positioning element 30 is located at the side of the axis 22 radially opposite relative to the discharge channel 18. A virtual axis of the blind bore of the positioning element 30 extends with its axis parallel to the axis 22.

[0075] The filter element 14 is embodied in an exemplary fashion as a so-called round filter element. The filter element 14 comprises a filter medium 34 which, for example, is folded in a zigzag shape and circumferentially closed. The filter medium 34 continuously surrounds circumferentially an element interior 36 of the filter element 14. At its axial end faces, the filter element 34 is connected respectively with a so-called end disc of which in FIG. 1 only the end disk 38 at the outlet side is shown which is facing the bottom section 24. The outlet side-associated end disc 38 comprises a central coaxial opening through which the housing-associated cylinder section 20 is passed.

[0076] At the outlet side-associated end disc 38, a discharge closure element 42 is attached by a ring-shaped holding device 40. The discharge closure element 42 serves for closing the discharge opening 26 when the filter element 14 is correctly installed.

[0077] The holding device 40 in an exemplary fashion is connected by means of a clip connection with the outlet side-associated end disk 38. For this purpose, the holding device 40 comprises a plurality of locking hooks 44 distributed in circumferential direction at the radially outer circumferential side. The locking hooks 44 engage respectively a radially outer coaxial cylindrical circumferential wall of the end disc 38 from the exterior and lock at the side which is axially facing away from the bottom section 24 behind the circumferential wall of the end disc 38.

[0078] At its side which is axially facing away from the outlet side-associated end disc 38, the holding device 40 comprises a receptacle 46 into which the discharge closure element 42 is buttoned.

[0079] At the side which is radially oppositely positioned with respect to the axis 22, an element-associated positioning element 48 in the form of a pin is arranged at the side of the holding device 40 which is axially facing away from the outlet side-associated end disc 38. The element-associated positioning element 48 is thus realized spatially separate from the drainage closure element 42. A virtual axis of the element-associated positioning element 48 extends parallel to the axis 22. The element-associated positioning element 48 is arranged with respect to the discharge closure element 42 in the same way as the housing-associated positioning element 30 with respect to the discharge opening 26. In the correct rotational orientation of the filter element 14 in which the element-associated positioning element 48 engages the housing-associated positioning element 30, the discharge closure element 42 closes off the discharge opening 26. In other incorrect rotational orientations, the element-associated positioning element 48 prevents that the filter element 14 can be installed completely in the filter housing 12 so that the housing cover cannot be closed.

[0080] The discharge closure element 42 comprises a closure section 50 with the shape similar to a bell. The free rim of the closure section 50 is facing away from the filter element 14 and facing the discharge opening 26. The free rim of the closure section 50 forms an axially oriented closure surface 51. The closure surface 51 is continuous in circumferential direction with respect to a virtual axis of the discharge closure element 42. The closure element 50 is made of an elastic material so that by corresponding axial pressure of the filter element 14 in the direction toward the bottom section 24 it can elastically deform and thus can improve a sealing effect. When the filter element 14 is correctly installed, the closure surface 51 is resting so as to seal axially the corresponding sealing section 52 of the bottom section 24. The sealing section 52 continuously surrounds circumferentially the discharge opening 26 with respect to its axis.

[0081] In operation of the filter 10, the liquid to be purified is introduced through the inlet into the filter housing 12 and passes into an annular inlet chamber 54 which radially surrounds the filter element 14. The liquid to be purified flows from the exterior to the interior in the radial direction through the filter medium 34 into the element interior 36. By means of the filter element 34 the liquid is purified. The purified liquid passes from the element interior 36 into the outlet 16 and exits in this way the filter housing 12.

[0082] For exchange of the filter element 14, the housing cover which is not illustrated in the Figures is opened. The filter element 14 is pulled out in axial direction from the receptacle 28. The discharge opening 26 is opened by the discharge closure element 42 so that the liquid contained in the filter housing 12 can drain through the discharge channel 18 and the filter housing 12 is thus emptied.

[0083] For installation of a new filter element 14, the latter is inserted with the holding device 40 leading in axial direction into the receptacle 28. As needed, the filter element 14 must be rotated about the axis 22 relative to the filter housing 12 such that the element-associated positioning element 42 can glide into the housing-associated positioning element 30. In this rotational orientation, the discharge closure element 42 is positioned above the discharge opening 26. By a corresponding axial force on the filter element 14, for example, when closing the housing cover, the closure surface 51 of the discharge closure element 42 is pushed in axial direction seal-tightly against the housing-associated sealing section 52 and, in this way, the discharge opening 26 is seal-tightly closed. The filter 10 is operational after completely closing the housing cover.

[0084] In FIGS. 3 and 4, a filter 10 according to a second embodiment is illustrated. Those elements that are similar to those of the first embodiment of FIGS. 1 and 2 are provided with the same reference characters. In contrast to the filter 10 according to the first embodiment of FIGS. 1 and 2, in the second embodiment a housing-associated positioning element 130, as shown, for example, in FIG. 4, is realized as a radial depression in the radial inner circumferential side of a circumferential wall of the filter housing 12. A corresponding element-associated positioning element 148 is realized as a corresponding projection at the radially outer circumferential side of the holding device 40 which extends radially in outward direction. As in the first embodiment, the positioning elements 130, 148 are positioned at the side that is radially opposite to the discharge closure element 42 and to the discharge opening 26 with respect to the axis 22 and spatially separate from them.

[0085] In FIG. 5, a filter 10 according to a third embodiment is illustrated. Those elements that are similar to those of the second embodiment of FIGS. 3 and 4 are provided with the same reference characters. In contrast to the filter 10 according to the second embodiment of FIGS. 3 and 4, in the third embodiment two housing-associated positioning elements 230 in the form of radial depressions are arranged in the radially outer circumferential wall of the cylinder section 20. Corresponding element-associated positioning elements 248 are realized as corresponding radial projections at the radially inner circumferential side of the holding device 40.

[0086] Also, instead of the locking hooks 44 at the radially outer circumferential side as in the first and the second embodiment, corresponding locking hooks 244 are arranged at the radially inner circumferential side of the holding device 40. These locking hooks 244 lock behind a corresponding radially inner cylindrical coaxial circumferential wall of the end disc 38.