In a fluid filter with a housing and a filter element replaceably located in said housing, and with a filter by pads valve having a valve body held in the housing that is movable against the action of a spring from the closed position in which it cooperates with a sealing surface, into an open position in which it permits a fluid flow to bypass the filter element. The invention proposes that the sealing surface associated with the valve body be formed by the replaceable filter element.
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1. A fluid filter, comprising
a housing,
a replaceable filter element positioned within said housing, said filter element including first and second ends and a filtering surface positioned therebetween, and
a filter bypass valve including a valve body, mounting means for integrally mounting said valve body within said housing so as to remain mounted within said housing when the replaceable filter is replaced, said valve body being movable between a closed position, in which said valve body sealingly engages a sealing surface, and an open position in which said valve body permits fluid flow to bypass said filter element,
wherein said first end of said filter element forms said sealing surface for said valve body.
0. 28. A method of providing a fluid filter for an engine, comprising the steps of
disposing a replaceable filter element within a housing, said filter element having first and second ends and a filtering surface positioned therebetween,
providing a filter bypass valve having a valve body within the housing, the valve body adapted to remain within the housing when the filter element is removed from the housing,
the valve body adapted to move between a closed position where the valve body sealingly engages a sealing surface, and an open position where the valve body permits fluid flow to bypass the filter element, and
providing said first end of said filter element with said sealing surface for said valve body and said valve body engages said sealing surface by said step of disposing such that said sealing surface is adapted to remain with said filter element when said filter element is removed from said housing.
0. 33. A method of removing and replacing a filter element suitable for use with a fluid filter of an engine, the fluid filter having a housing, a dome coupled to the housing for supporting the filter element, and a filter bypass valve disposed within the housing and having a valve body secured to the support dome, the valve body being movable against the action of a resistance element mounted between said valve body and said support dome wherein said valve body is disposed between a closed position where the valve body engages a sealing surface to form a fluid tight seal and an open position where the valve body disengages the sealing surface to permit fluid to bypass the filter element, the method comprising the steps of
removing said filter element from said fluid filter such that said sealing surface is separated from said valve body, and
positioning the filter element to engage the valve body such that an end plate of the filter element forms the sealing surface.
12. A fluid filter for an engine, comprising
a carrier engagable with the engine,
a removable lid matable with said carrier,
a support dome attached to said carrier and extending along a longitudinal axis,
a replaceable filter element positioned around said support dome, said filter element including first and second ends and a filtering surface positioned therebetween, and
a filter bypass valve including a valve body, mounting means for integrally mounting said valve body within said support dome such that said valve body remains mounted within the support dome when the replaceable filter element is replaced and movable between a closed position, in which said valve body sealingly engages a sealing surface, and an open position in which said valve body permits fluid flow to bypass said filter element, said valve body being positioned within said support dome for movement along the longitudinal axis of said support dome between said closed position and said open position,
wherein said first end of said filter element is separable from said lid and forms said sealing surface for said valve body, and whereby removal of said lid from said carrier permits said filter element and thus said sealing surface to be removed from the carrier and support dome attached thereto.
0. 35. A filter element suitable for use with a fluid filter of an engine, the fluid filter having a housing, a dome coupled to the housing for supporting the filter element, and a filter bypass valve disposed within the housing and having a valve body secured to the support dome, the valve body being movable against the action of a resistance element mounted between said valve body and said support dome wherein said valve body is disposed between a closed position where the valve body engages a sealing surface of a valve seat to form a fluid tight seal and an open position where the valve body disengages the sealing surface to permit fluid to bypass the filter element, wherein the filter element comprises a lower end disk, an upper end disk having a tubular portion defining an open middle area, wherein said tubular portion extends toward the lower end disk and terminates at a free end, a filter surface disposed between the lower end disk and upper end disk, wherein said free end of said tubular portion forms said valve seat having said sealing surface positioned and adapted to engage, in use, the valve body, said upper end disk having a housing engaging surface in the form of upwardly extending clips formed on the upper end disk and wherein the filter element is adapted to be removably and replaceably mounted within the housing.
0. 24. A filter element suitable for use with a fluid filter of an engine, the fluid filter having a housing, a dome coupled to the housing for supporting the filter element, and a filter bypass valve disposed within the housing and having a valve body secured to the support dome, the valve body being movable against the action of a resistance element mounted between said valve body and said support dome wherein said valve body is disposed between a closed position where the valve body engages a sealing surface of a valve seat to form a fluid tight seal and an open position where the valve body disengages the sealing surface to permit fluid to bypass the filter element, wherein the filter element comprises a lower end disk, an upper end disk having a tubular portion defining an open middle area, wherein said tubular portion extends toward the lower end disk and terminates at a free end, an annular filter media disposed between the lower end disk and upper end disk, wherein said free end of said tubular portion forms said valve seat having said sealing surface positioned and adapted to engage, in use, the valve body, and wherein the filter element is adapted to be removably and replaceably mounted within the housing and excludes any tubular support members non-removably positioned within the annular filter media and between the upper and lower end disks.
0. 34. A filter element suitable for use with a fluid filter of an engine, the fluid filter having a housing, a dome coupled to the housing for supporting the filter element, and a filter bypass valve disposed within the housing and having a valve body secured to the support dome, the valve body being movable against the action of a resistance element mounted between said valve body and said support dome wherein said valve body is disposed between a closed position where the valve body engages a sealing surface of a valve seat to form a fluid tight seal and an open position where the valve body disengages the sealing surface to permit fluid to bypass the filter element, wherein the filter element comprises a lower end disk, an upper end disk having a tubular portion defining an open middle area, wherein said tubular portion extends toward the lower end disk and terminates at a free end, a filter surface disposed between the lower end disk and upper end disk, wherein said free end of said tubular portion forms said valve seat having said sealing surface positioned and adapted to engage, in use, the valve body, said upper end disk having a housing engaging surface co-located with said tubular portion in the form of a circumferential, radially inwardly-facing rib arranged around said tubular portion and wherein the filter element is adapted to be removably and replaceably mounted within the housing.
2. The fluid filter of
3. The fluid filter of
4. The fluid filter of
5. The fluid filter of
6. The fluid filter of
an elongated shaft which is guided by said guide means along the longitudinal axis of the support dome, and wherein said first end includes an end portion which is sealingly engagable with said sealing surface when said valve body is disposed in said closed position.
9. The fluid filter of
10. The fluid filter of
11. The fluid filter of
13. The fluid filter of
14. The fluid filter of
15. The fluid filter of
16. The fluid filter of
18. The fluid filter of
19. The fluid filter of
21. The fluid filter of
22. The fluid filter of
23. The fluid filter of
0. 25. A filter element according to
0. 26. A filter element according to
0. 27. A filter element according to
0. 29. The method of
0. 30. The method of
0. 31. The method of
0. 32. The method of
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The present invention relates to a fluid filter according to the preamble of claim 1.
Filters of this type are known for example from DE 42 14 500 A1 and U.S. Pat. No. 2,533,266. DE 42 14 500 A1 has a much more economically manufactured filter than the older U.S. Pat. No. 2,533,266. However, installation of the filter bypass valve is comparatively complicated since the sealing body of the valve must be guided together with a sealing body carrier through nearly the entire length of a supporting dome and then anchored in the supporting dome. Both of the above patents teach valves with a sealing body that has an elongate shaft.
A fluid filter of a different species is known from DE 43 10 234 C1, in which the entire filter bypass valve is provided inside the replaceable filter element, with the filter bypass valve comprising a sealing body made in the form of a circular disk.
Fluid filters that do not belong to the foregoing species are known from EP 0 254 776 B 1 and DE 39 04 701 A1. These filters typically do not include any replaceable filter elements, and are themselves replaced completely, i.e. including the entire filter housing.
The goal of the invention is to improve on a fluid filter according to the foregoing species in such fashion that the manufacturing costs of the filter are lowered by reducing the number of parts and assembling them as economically as possible.
This goal located in a recess 20 sufficiently sized for seating the supporting dome 7 that prevents filter element 3 from collapsing and allows filter element 3 to have a design that includes only the folded filter surface itself and the two end disks 4 and 5. A filter bypass valve 8 is located in the upper part of supporting dome 7. This valve includes a mushroom-shaped valve body 8 with a head area and a shaft 9, said shaft forming spring-elastic tongues in its lower part, said tongues having gripping claws 11 directed radially outward and bent backward barbwise.
By virtue of this design, the entire fluid filter can be manufactured economically: a comparatively small number of parts is used, since no separate valve body support is required. Assembly is also facilitated and can be performed in a shorter time since the valve body can be inserted from the readily accessible upper end of supporting dome 7 and need not be inserted through nearly the entire length of supporting dome 7. Since valve body 8 does not have to be located behind a sealing surface, an easily accessible mounting location of this kind is possible.
Shaft 9 is surrounded areawise by a coil spring 12, merely indicated by shading, which contacts the head area of valve body 8 and presses upward against a sealing surface 14 formed by a middle area 5a of upper end disk 5 that tapers downward.
Coil A resistance element, in the form of coil spring 12, abuts a support plate 15 having at least one through opening 16 for the medium when the latter, with the filter bypass valve open, flows through a central opening of middle area 5a of downwardly tapered upper end disk 5 and flows downward through supporting dome 7, or when this medium, with the filter bypass valve closed, moves from the outside to the inside through filter element 3 and flows downward after being filtered.
In its middle edge area adjacent to the opening through which valve body 8 extends, supporting plate 15 has a greater material thickness. For this purpose, supporting plate 15 is bent downward flangewise, i.e. in the direction away from sealing surface 14.
As a result of this material reinforcement, a guide is provided for valve body 8, since its shaft 9 is guided for a comparatively greater length. In addition, reinforcement of the material in this area results in stabilization of supporting plate 15 at the points where coil spring 12 abuts it. Finally, this flange-shaped material reinforcement offers a grip for barbed retaining claws 11 that can grip behind the flange, so that valve body 8 is securely fastened even when filter element 3 is removed and the counterpressure for the upper head portion of valve body 8 is removed as a result.
Valve body 8 can initially be fitted with coil spring 12 and then inserted from above into supporting dome 7, with the conically shaped outer surface of retaining claws 11 initially permitting easy insertion of valve body 8 into the central opening of supporting plate 15, thus permitting valve body 8 to be clipped to supporting dome 7. Valve body 8 can be assembled in this fashion in a very short time since no additional prefabricated assemblies, possibly with a separate valve body support, need to be produced or assembled, and since the installation location and supporting dome 7 are optimally accessible and reachable.
Depending on the installation situation, in contrast to using a separate valve carrier, the height of the filter device can be reduced as well so that a more compact design for the entire fluid filter 1 is obtained overall. This means both that material can be saved and that there are more installation possibilities, for example under restricted space conditions like those prevailing in the engine compartment of an automobile.
An annular seal is located on lower end disk 4, the seal in
In a version of this embodiment with a convexly bent sealing end of the valve body or with a flat valve body made in the form of a plate, provision can be made, especially in the design of upper end disk 5 with an area that is drawn inward and serves as a support as in the three embodiments shown, to provide the valve body with a collar-like or funnel-shaped upper end abutting sealing surface 14 and gripping the latter externally.
The idea of the invention, not to have the parts required for the filter bypass valve always assembled, but to make one part integral with the filter and another part on the interchangeable filter element, can also be implemented by reversing these embodiments and providing the valve body as a filter element and making the sealing surface facing the valve body integral with the filter. This results in a comparatively expensive design for the fluid filter, however, since the sealing body must always be replaced along with the filter element and consequently represents a part that is subject to wear.
According to one embodiment of the invention, a method of providing a fluid filter for an engine includes a step of disposing a replaceable filter element within a housing. The filter element has first and second ends and a filtering surface positioned therebetween. Another step of the method provides a filter bypass valve having a valve body within the housing. The valve body is adapted to move between a closed position where the valve body sealingly engages a sealing surface and an open position where the valve body permits fluid flow to bypass the filter element. The first end of the filter element is provided with a sealing surface for the valve body. In this embodiment, the disposing step engages the valve body with the sealing surface. According to this embodiment, if the filter element were removed from the housing, the sealing surface is adapted to remain with the filter element.
The method may optionally include the step of mounting a support dome within the housing. In such a case, the dome extends along a longitudinal axis, and the valve body is positioned within the support dome for movement along the longitudinal axis between the closed and open positions. Optionally, a further step may include guiding the valve body along the longitudinal axis of the support dome between the closed position and the open position.
The method may alternatively optionally include the step of configuring the first end of the filter element as an annular disk.
Furthermore, the method may alternatively optionally include the step of biasing the valve body into the closed position.
According to another embodiment of the invention a method is provided for removing and replacing a filter element suitable for use with a fluid filter of an engine. In this method, the fluid filter has a housing, a dome coupled to the housing for supporting the filter element, and a filter bypass valve. The filter bypass valve is disposed within the housing and has a valve body secured to the support dome. The valve body is movable against the action of a resistance element mounted between the valve body and the support dome. The valve body is disposed between a closed position where the valve body engages a sealing surface to form a fluid tight seal and an open position where the valve body disengages the sealing surface to permit fluid to bypass the filter element. The method includes the step of removing the filter element from the fluid filter such that the sealing surface is separated from the valve body. Another step of the method involves positioning the filter element to engage the valve body such that an end plate of the filter element forms the sealing surface.
According to another embodiment of the invention, a filter element is provided to be suitable for use with a fluid filter of an engine, the fluid filter having a housing, a dome coupled to the housing for supporting the filter element, and a filter bypass valve disposed within the housing and having a valve body secured to the support dome. The valve body is movable against the action of a resistance element mounted between the valve body and the support dome, wherein the valve body is disposed between a closed position where the valve body engages a sealing surface of a valve seat to form a fluid tight seal and an open position where the valve body disengages the sealing surface to permit fluid to bypass the filter element. The filter element includes a lower end disk, an upper end disk having a tubular portion defining an open middle area. The tubular portion extends toward the lower end disk and terminates at a free end. A filter surface is disposed between the lower end disk and upper end disk, wherein the free end of the tubular portion forms the valve seat having the sealing surface positioned and adapted to engage, in use, the valve body. The upper end disk 5 has a housing engaging surface co-located with the tubular portion in the form of a circumferential, radially inwardly-facing rib 5b arranged around the tubular portion and wherein the filter element is adapted to be removably and replaceably mounted within the housing.
According to a further embodiment of the invention, the upper end disk 5 has a housing engaging surface 5c in the form of upwardly extending clips formed on the upper end disk 5 and wherein the filter element is adapted to be removably and replaceably mounted within the housing.
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Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
Apr 28 2000 | Firma Ing. Walter Hengst GmbH & Co. KG | (assignment on the face of the patent) | / | |||
Aug 02 2013 | HENGST GMBH & CO KG | HENGST OF NORTH AMERICA, INC | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 030962 | /0898 |
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