EP1962991A1

EP1962991A1 - Oil filter device for an internal combustion engine

Info

Publication number: EP1962991A1
Application number: EP06828684A
Authority: EP
Inventors: Valentin Ruffet; Hans-Martin Ruppert
Original assignee: Mahle International GmbH
Current assignee: Mahle International GmbH
Priority date: 2005-12-21
Filing date: 2006-12-14
Publication date: 2008-09-03
Also published as: KR101269730B1; CN101340965B; WO2007076810A1; US7727390B2; US20090001010A1; CN101340965A; DE102005061186A1; KR20080080431A

Abstract

The invention relates to an oil filter device (1) for an internal combustion engine, comprising a support element (2) and a substantially cylindrical filter cartridge (3) which can be connected, especially screwed, to the support element (2). The invention is characterized in that the filter cartridge is arranged essentially in an upright position while an annular duct (4) which surrounds the filter cartridge (3) in the screwed-on state is embodied inside the support element (2). The duct (4) is fluidically separated from the interior of the filter cartridge (3) when the filter cartridge is screwed on while said separation is eliminated when the filter cartridge (3) is removed. Furthermore, the duct (4) is configured as a drainage duct and is fluidically connected to an oil reservoir when the filter cartridge (3) is removed such that the filter cartridge is easy to replace while no oil is spilled, preventing pollution of the environment.

Description

Ölfiitereinrichtung for an internal combustion engine

The present invention relates to an oil filter device for an internal combustion engine according to the preamble of claim 1. The invention also relates to a filter cartridge with a cover for such a filter device and a cover for a filter cartridge.

Due to ever-increasing environmental regulations and the associated obligation to handle carefully with pollutants, such as waste oil, it has become necessary to make the maintenance or replacement of oil filters such that, if possible, no oil enters the environment and pollutes them. In screw-on filter cartridges known type, there is the problem that oil still in the system when unscrewing the filter cartridge, which is arranged hanging down, can get into the environment. This is normally avoided by draining or sucking off all the oil through a drain plug located in an oil sump before replacing the filter cartridge and placing an oil sump under the filter cartridge during unscrewing of the filter cartridge so that any remainder Suction or sucking non-removable residual oil can drip down and is collected by the oil pan. However, it is also problematic here that the residual oil still remaining in the filter device already runs out of the filter device during the unscrewing of the filter cartridge and, under certain circumstances, contaminates the hands and / or tools of a mechanic. Since frequent contact of the skin with contaminated waste oil should be avoided if possible, the mechanics use to unscrew the filter cartridges appropriate protective gloves.

The present invention is concerned with the problem of providing an improved embodiment for an oil filter device of an internal combustion engine of the type mentioned, which is particularly characterized in that the exchange of the filter cartridge, the oil in the system does not have to be drained and replaced when replacing the filter cartridge anyway not get into the environment.

This problem is solved according to the invention by the subject matters of the independent claims. Advantageous embodiments are the subject of the dependent claims.

The invention is based on the general idea, in an oil filter device for an internal combustion engine, which essentially comprises a support member and a filter cartridge screwed thereto to arrange the latter standing and to provide a drain system in the support element, which the running out of the filter cartridge residual oil when unscrewing the same reliably. The drainage system is designed in the form of an annular channel which encloses the filter cartridge in the screwed-on state. When the filter cartridge is screwed on, the channel is fluidically separated from a filter cartridge interior, whereas this separation is canceled when the filter cartridge is loosened. When unscrewing the filter cartridge thus the fluidic separation is released and still befindlicher in the filter cartridge residual oil can flow into the channel, which is so dimensioned that it is able to absorb all, still in the filter cartridge residual oil. According to the invention, the channel is designed as an idling channel and, when the filter cartridge is detached, is fluidically connected to an oil reservoir, for example an oil collection tray. This offers the advantage that when loosening, that is unscrewing the filter cartridge, which flows from this effluent oil through the channel back into the oil reservoir and can be collected there. The invention thus offers the great advantage that on the one hand a previous draining the oil to replace the filter cartridge is unnecessary and on the other hand by the annular channel according to the invention still located in the filter cartridge residual oil is reliably collected so that it does not get into the environment and this can pollute. By eliminating the discharge or suction of the oil before disassembly of the filter cartridge and the refilling or filling of the oil after the replacement of the filter cartridge considerable cost advantages in the maintenance of the internal combustion engine can be achieved. At the same time, neither a mechanic nor a tool or Direction residual oil endangered, which runs out when replacing the filter cartridge down from the filter device.

In a further advantageous embodiment of the solution according to the invention, the channel is covered with screwed filter cartridge by sealant. As a result, the channel is protected from dirt and / or moisture, so that contamination of the channel can be avoided during operation of the filter device. This has the advantage that no dirt can accumulate in the channel, which is flushed when unscrewing the filter cartridge from then out of this exiting oil into the oil sump, thereby causing contamination of the oil.

Suitably, the sealing means comprise a cover which is held on the filter cartridge. Thus, the cover can be easily removed and screwed together with the filter cartridge and does not need to be removed or re-installed in an extra operation. This has a particularly favorable effect on the maintenance costs.

In a further advantageous embodiment, the cover is rotatably mounted on the filter cartridge. Such a rotatable mounting allows a relative movement between the filter cartridge and the cover, whereby, for example, the cover is easy to position with respect to a predefined position to the carrier element. According to a favorable development of the invention, a cover designed as a collar has an inner contour which bears against the filter cartridge and has a latching contour which acts on the filter cartridge and engages in a complementary catching contour formed on the filter cartridge and wherein the counter-latching contour Fangsnut is formed and thereby allows a rotatable mounting of the collar on the filter cartridge via engaging in the circumferential groove locking contour. Such a locking contour on the cover or a counter-locking contour on the filter cartridge is a particularly simple way of axially fixed, rotatable mounting of the cover on the filter cartridge. At the same time allows the locking contour depending on the training, the removal of the cover of the filter cartridge, so that at a Replacing the filter cartridge only this needs to be replaced while the cover can continue to be used. In particular, this embodiment also allows the distribution of only one of the two components, whereby a particularly interesting for the spare parts business situation can be achieved. In addition, a reduction in waste is achieved because the cover, depending on the training, often has a longer life than the filter cartridge and therefore can be used longer and does not necessarily have to be replaced at the same time with the replacement of the filter cartridge. Of course, thereby reduce the maintenance costs, since only the filter cartridge must be replaced or replaced, while the cover can be used. In a further advantageous embodiment, the carrier element has a first pure-channel connecting piece with an external thread and the filter cartridges a complementary thereto formed second pure-channel connection piece with an internal thread, wherein in the first clean-channel connection piece, the external thread-interrupting recesses are provided by which located in the filter cartridge residual oil during the Unscrew the filter cartridge from this can flow into the channel. In this way, it can be achieved that even during unscrewing and not until the filter cartridge is removed, the residual oil still present in it can flow into the channel, so that a certain period of time required for the oil to drain out of the filter cartridge can be advanced. The flow of oil thus begins already with the release of the screw and is most favorable if the complete unscrewing of the filter cartridge already finished, whereby a waiting time after unscrewing the filter cartridge for emptying the same can be avoided. As a result, the replacement time of the filter cartridge can be reduced and thereby the maintenance costs are reduced.

Suitably, the cover is made of plastic. As a result, such covers can be produced simply and inexpensively, for example by injection molding, and can be adapted to almost any shape requirement. At the same time, depending on the nature of the art fabric a robust and durable cover can be created.

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 explained in more detail in the following description.

Show, each schematically

1 is a perspective view of an inventive oil filter device,

2 is a perspective view of a support member of the oil filter device,

3 shows a cross section through the oil filter device in the region of the connection of the filter cartridge to the carrier element with the filter cartridge dissolved,

4 is a view as in Fig. 3, but with screwed filter cartridge,

5 is an enlarged sectional view of the area A of FIG. 4,

Fig. 6 is a view of a cover according to the invention. 1, an inventive oil filter device 1, for example, for an internal combustion engine, a support member 2 and a connectable, in particular screw-on, and substantially cylindrical filter cartridge 3. The carrier element 2 is designed as a filter base and is preferably made of cast pressure, in particular die-cast aluminum. In contrast to conventional, hanging filter cartridges in the oil filter device 1 according to the invention, the filter cartridge 3 is arranged substantially standing above the support element 2. This makes it possible to exchange the filter cartridge 3 from above, which makes it unnecessary to lift a vehicle by means of a lift or to crawl underneath.

2, an annular channel 4 is formed in the carrier element 2, which surrounds the filter cartridge 3 in the screwed state (see also Fig. 3 and 4). For connecting the filter cartridge 3 to the carrier element 2, the carrier element 2 has a first pure-channel connecting piece 5 with an external thread and the filter cartridge 3 has a second pure-channel connecting piece 6 with an internal thread (see FIG. About the two clean channel connection pieces 5 and 6, the filter cartridge 3 is screwed to the support element 2. When screwing the filter cartridge 3 is pressed against the support member 2 such that a seal 7 on the filter cartridge 3, for example, a sealing ring, firmly on a support member 2 formed on the sealing surface 8 applies. As shown in FIGS. 2 to 4, the channel 4 is circumferentially bounded by a channel circumferential wall 9, wherein the filter cartridge 3 is sealed / covered with respect to this channel peripheral wall 9 by sealing means 10. When the filter cartridge 3 is screwed on, the channel 4 is covered or closed by the sealing means 10. The sealing means 10 may comprise a cover 11, which is held on the filter cartridge 3. In this case, the cover 11 is preferably rotatably mounted on the filter cartridge 3.

In order to realize the rotatable mounting, the cover 11 has on its inner contour, which rests circumferentially on the filter cartridge 3, an axially acting catch contour 12 directed towards the filter cartridge 3. The locking contour 12 engages in a complementary thereto formed on the filter cartridge 3 Gegenrastkontur 13, which is for example formed as a circumferential groove, so that the cover 11 is rotatably supported on the filter cartridge 3 via the engaging in the circumferential groove 12 locking contour. The latching contour 12 is preferably designed as a latching ring or as a latching web. The interaction between locking contour 12 on the one hand and counter-locking contour 13 on the other hand not only secures the rotatable mounting of the cover 11 on the filter cartridge 3, but also fixes them in the axial direction of the filter cartridge 3. At the same time allows the locking between the filter cartridge 3 and cover 11 a removal or attachment the cover 11 of / on the filter cartridge. 3 FIG. 3 shows the filter cartridge 3 in a state released or unscrewed from the carrier element 2, wherein the first clean channel connection 5 does not yet interact with the second pure channel connection 6. The seal 7 is also not yet on the sealing surface 8 of the support element 2, so that the channel 4 is still open. The cover 11 is latched via its latching contour 12 with the filter cartridge 13 and checks the channel 4th

FIG. 4 shows the filter cartridge 3 screwed tightly to the carrier element 2, the seal 7 sealingly abutting the associated sealing surface 8 of the carrier element 2. The channel 4 is covered at the top by the cover 11 and thus reliably protected from contamination. When replacing the filter cartridge 3, this is unscrewed starting from the state shown in FIG. 4 by turning, with any upcoming residual oil volumes 14, characterized by correspondingly edged surfaces, when unscrewing the filter cartridge 3 in the channel 4 occur, and wherein in a further unscrewing the filter cartridge 3, the seal 7 from the associated sealing surface 8 solves and establishes a connection between the channel 4 and a flow channel 15, which is fluidly connected to an oil reservoir, not shown. In order to accelerate any run-off in the filter cartridge still pending residual oil, can in the. first clean channel connecting piece 5, the external thread interrupting recesses 16 may be provided, through which oil during the unscrewing of the filter cartridge 3 can flow from this into the channel 4 (see Fig. 3). Around to prevent turning of the cover 11 when screwing the filter cartridge 3, a stop, not shown, may be provided on the carrier element 2, which prevents relative rotation of the cover 11 to the carrier element 2.

In general, the cover 11 can be formed in many different ways, wherein an embodiment is shown by way of example as a collar according to FIGS. 1 to 6. It is also conceivable, however, to design the cover 11 as a sealing ring arranged on the filter cartridge 3, which abuts the carrier element 2 on an inner side of the circumferential wall 9 when the filter cartridge 3 is screwed on, thereby sealing the channel 4 upwards. Furthermore, it is conceivable that the cover 11 or the sealing means 10 is formed as arranged on the peripheral wall 9 of the support member 2 sealing ring, wherein a sealing lip extends inwardly toward the filter cartridge 3 and sealing when screwing it to the support member 2 to the filter cartridge 3 invests. Regardless of the configuration of the sealing means 10, for example as a collar or as a sealing ring, it is always ensured that the channel 4 and the drain channel 15 are sealed up and thus pollution of the oil contained in the channel 4 and drain channel 15 can be avoided.

In order to be able to produce the sealing means 10 or the cover 11 in the most cost-effective and flexible manner in the mold, they are preferably made of plastic, while the carrier element 2 is preferably made of die-cast, in particular die-cast aluminum.

Of course, it is conceivable that the cover 11, in particular in an arrangement on the carrier element 2, also remains during an exchange of the filter cartridge 3 on the carrier element 2. For the embodiment in which the cover 11 is arranged on the filter cartridge 3, this can be easily solved by releasing the locking contour 12 from the counter-latching contour 13 of the filter cartridge 3 and connected to a new filter cartridge 3 in a simple manner again. Thus, an exchange of only the filter cartridge 3 is possible while the cover 11 remains on the oil filter device 1 over several life cycles of the filter cartridges 3. A single cover 11 detached from the filter cartridge 3 is shown in FIG.

In the following, a replacement of the filter cartridge 3 will be briefly described:

With reduced filter performance, the filter cartridge 3 should be replaced, which is initiated by unscrewing them from the carrier element 2. During unscrewing, the sealing ring 7 of the filter cartridge 3 is released from the sealing surface 8 on the carrier element 2 and thus opens a connection between the channel 4 and a drain channel 15. At the same time can already during unscrewing oil from the filter cartridge 3 via the external thread interrupting recesses 16th drain into the channel 4. Until completely unscrewed Ben the filter cartridge 3, the channel 4 and the drain channel 15 is covered by the cover 11 and thus protected from contamination. By a not shown stop on the support element 2, a co-rotation of the cover 11 is avoided during the Ab- or screwing the filter cartridge 3. The latching contour 12, which holds the cover 11 in the axial direction on the filter cartridge with the counter-latching contour 13, at the same time allows a relative rotation of the filter cartridge 3 relative to the cover 11.

Screwing on the new filter cartridge is done in a similarly simple way, without the oil getting into the environment during the entire exchange process or leaving the system.

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Claims

claims

1. Oil filter device (1) for an internal combustion engine with a carrier element (2) and a connectable thereto, in particular screw-on, and substantially cylindrical filter cartridge (3), characterized by the features, the filter cartridge (3) is arranged substantially standing, in the support element (2) an annular channel (4) is formed, which is the filter cartridge. (3) encloses in the screwed state, the channel (4) is fluidly separated from the interior thereof with the filter cartridge (3), while this separation is released when the filter cartridge (3) is released, the channel (4) is designed as an idle channel and dissolved Filter cartridge (3) fluidly connected to an oil reservoir.

2. Oil filter device according to claim 1, characterized in that the channel (4) is covered with screwed filter cartridge (3) by sealing means (10).

3. Oil filter device according to claim 2, characterized in that the sealing means (10) comprise a cover (11) held on the filter cartridge (3).

4. Oil filter device according to claim 3, characterized in that the cover (11) is rotatably mounted on the filter cartridge (3).

5. Oil filter device according to claim 3 or 4, characterized in that on the carrier element (2) a stop is provided, which prevents rotation of the cover (11) relative to the carrier element (2) when screwing / unscrewing the filter cartridge (3).

6. Oil filter device according to one of claims 3 to 5, characterized in that the cover (11) is formed of plastic.

7. Oil filter device according to one of claims 3 to 6, characterized in that the cover (11) as on the filter cartridge (3) arranged collar or sealing ring is formed.

8. Oil filter device according to claim 1, characterized in that the collar (11) has an inner contour bearing against the filter cartridge (3) and an outer contour encompassing the peripheral wall (9) of the channel (4), that the collar (11) has a contour formed on the inner contour and directed towards the filter cartridge (3), axially acting latching contour (12), which engages in a complementary thereto on the filter cartridge (3) formed Gegenrastkon- tur (13), that the counter-latching contour (13) is formed as a circumferential groove, wherein the collar (11) via the in the circumferential groove engaging latching contour (12) is rotatably mounted on the filter cartridge (3).

9. Oil filter device according to one of claims 1 to 8, characterized in that when screwed filter cartridge (3) an inner side of the outer contour of the collar (11) tightly against an outer side of the peripheral wall (9) of the channel (4).

10. Oil filter device according to one of claims 1 to 9, characterized in that the carrier element (2) has a first clean channel connection piece (5) with an external thread and the filter cartridge (3) a complementary thereto formed second pure channel connection piece (β) with a Having internal thread, wherein in the first clean-channel connection piece (5), the external thread-interrupting recesses (16) are through which oil during the unscrewing of the filter cartridge (3) can flow from this into the channel (4),

11. Oil filter device according to one of claims 1 to 10, characterized in that the carrier element (2) is formed of die-cast aluminum.

12. Filter cartridge with a cover for a filter device according to one of claims 3 to 10.

13. Cover for a filter cartridge of a filter device according to one of claims 3 to 10.

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