DE102016208791A1 - filtering device - Google Patents

Abstract

The present invention relates to a filter device (1) for filtering a fluid with a filter housing pot (4), in which a filter element (5) is arranged exchangeably for filtering the fluid, and with a filter housing cover (10) for closing the filter housing pot (4), wherein a valve (13) prevents the flow of fluid through the filter device (1) in the absence of filter element (5). Essential to the invention here is that the valve (13) has a valve body (14) and a valve slide (15) displaceable thereon, which is biased by a spring (19) against an upper side (26) of the filter element (5), wherein on one of Filter housing cover (10) facing away from underside (27) of the filter element (5) an axial seal (21) is provided which is pressed by the spring (19) via the filter element (5) sealingly against the filter housing pot (4). This results in a simplified structure of the filter device (1) and / or increased reliability.

Description

The present invention relates to a filter device for filtering a fluid with a filter housing pot and a filter element arranged therein and with a filter housing cover and a valve, according to the preamble of claim 1. The invention further relates to a filter element of such a filter device.

Filtering devices usually include a filter element for filtering a fluid disposed in a filter housing pot of the filter device, which is closable with a filter housing cover. In many applications of the filter device, it is desirable to prevent the flow of the fluid to be filtered by the filter device when no such filter element is arranged in the filter device.

From the EP 1 937 962 B1 it is known to provide a valve for this purpose, which is adjustable between an open position and a closed position, wherein the valve is adjusted when the filter device is ready and in a position of use of the filter element in the open position, in which the valve allows the flow of fluid through the filter device and wherein the valve is displaced in the absence of a filter element in the closed position in which the valve prevents the flow of fluid through the filter device. Thus, in particular, it is ensured that fluid to be filtered by the filter element is used only in a filtered form in the corresponding application, for example in a motor vehicle in which the filter device is used as a fuel filter or as an oil filter.

Other such filter devices with such valves are known from US 2011/0024344 A1 as well as the US 2010/0224530 A1 known.

However, such filter devices often have a structurally complex construction and / or an improved operational reliability.

The present invention therefore has the object of providing improved or at least alternative embodiments for a filter device of the aforementioned type and for an associated filter element, which are distinguished by a simplified structure and / or increased operational reliability.

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

The present invention is based on the general idea, in a filter device with a filter element to bias a valve of the filter device via a spring against the filter element and to dimension the spring so that it presses an axial seal for sealing the filter element tightly against a filter housing pot of the filter device. The spring in this case ensures both the sealing pressing of the axial seal against the filter housing pot and that the valve is adjusted in the absence of a filter element in a closed position in which the valve flows through a filter to be filtered by the filter device or with the filter element fluid through the filter device prevented. Accordingly, the structure of the filter device is simplified. In addition, the reliability of the filter device is improved, in particular because the pressing of the axial seal against the filter housing pot has a sufficient seal of the filter element result and / or the fluid can not flow through the filter device in the absence of a filter element. According to the concept of the invention, the filter element is arranged interchangeably in the filter housing pot, wherein the filter housing pot is closable with a filter housing cover. The valve is adjustable between the closed position and an open position, wherein the valve in the open position allows the flow of fluid through the filter device. In this case, the valve is adjusted in ready-to-use filter device and in a position of use of the filter element in the open position and in the absence of filter element in the closed position. According to the invention, the valve has a valve body and a valve slide which can be displaced thereon, wherein the valve slide is pretensioned by the spring against an upper / end disk of the filter element which faces the filter housing cover. In addition, the axial seal is provided on a side facing away from the filter housing cover underside / end plate of the filter element, wherein the spring is dimensioned such that it presses operable filter device and / or befindlichem in the use position filter element, the axial seal on the filter element tight against the filter housing pot.

The filter device may be used in any application for filtering any fluid. The filter device is used in particular for filtering fuel or oil and is accordingly designed as a fuel filter or as an oil filter. The filter device can in this case be used in particular in a motor vehicle.

The filter element can in principle be designed as desired. Preferred are embodiments in which the filter element is designed as a ring filter element.

The top and bottom of the filter element are preferably in one Axially spaced apart. In this case, the valve spool is biased by the spring axially against the top of the filter element, wherein the spring is dimensioned such that it presses the axial seal over the filter element tight against the filter housing pot with ready filter device and / or in the use position of the filter element.

The use of the spring for adjusting the valve in the closed position and for pressing the axial seal against the filter housing pot also allows tolerance compensation in the filter device. In this way, in particular when mounting the filter element in the filter housing pot by a corresponding adjustment of the filter element to the spring, a predetermined starting position of the filter element can be defined. Alternatively or additionally, therefore, a predetermined position of the axial seal, in particular a predetermined axial compression of the axial seal against the filter housing pot, can be defined.

The design of the spring is advantageous such that the filter element during replacement, in particular when opening the filter housing cover, remains in the filter housing cover.

The design of the spring is effected in particular by a corresponding dimensioning of the spring and / or by a corresponding design of the spring force.

For a desired operation of the filter device, it is not only important that the filter element is arranged in the filter device, but also that the correct type of filter element is used. In this way, it is particularly avoided that an insufficient filtering of the fluid takes place through the use of a wrong filter element, which in particular can lead to damage to an associated internal combustion engine.

It is preferred in this case to allow the filter element to interact with the valve in such a way that only a predetermined type of filter element can be mounted in the filter device. This is implemented, for example, by the interaction of the filter element with the valve in the manner of a key-lock principle. In this case, a shadow mask can be provided on the valve or on the upper side or the upper end disk of the filter element which cooperates with corresponding pins on the valve, in particular on the valve slide or on the upper side of the filter element. This means that the selection of the suitable filter element is simplified by a corresponding design of the filter element, in particular by providing the upper side with such a shadow mask and / or such pins, and / or a correct mounting of the filter element in the filter device is only possible if Interlocking hole mask and pins in the given way. The reliability is thus also increased because no inappropriate filter elements are used in the filter device and their assembly is at least difficult.

Also preferred are embodiments in which the spring and the filter element are matched to one another such that a correct installation of the filter element in the filter housing pot is possible only with adapted to the spring filter elements or that at least the assembly of not adapted to the spring filter elements is difficult.

It is advantageous here if at least one radially projecting bayonet wing is provided on the upper side or the upper end disk of the filter element, which cooperates with a recess in the filter housing pot in the manner of a bayonet closure. The filter housing cover is connectable by rotation in a circumferential direction with the filter housing pot, wherein provided on the upper side or on the upper end plate of the filter element an axially projecting mounting member that cooperates with an axially projecting driver of the filter housing cover such that upon rotation of the filter housing cover a corresponding co-rotation of the filter element takes place in the circumferential direction. In the circumferential direction is called below, for example, in a clockwise direction. The recess has an axially extending insertion section for inserting the bayonet wing into the recess and a closure section connected to the insertion section and branching off from the insertion section in the circumferential direction, in which the bayonet wing is arranged in the position of use of the filter element. The filter element is axially adjustable in the insertion between a first axial position and a second axial position, wherein in the first axial position, the adjustment of the bayonet wing is blocked in the closure portion and in the second axial position of the bayonet wing from the insertion into the closure portion is adjustable. The filter element is adjustable in the circumferential direction between a first rotational position and a second rotational position, wherein the first rotational position corresponds in the circumferential direction of the second axial position. This means that the first rotational position of the filter element is the position in which the bayonet wing is adjustable between the insertion section and the closure section when the filter element is in the second axial position. The second rotational position of the filter element corresponds in the circumferential direction of the use position of the filter element. This means that the bayonet wing is arranged in the second rotational position in the closure portion of the recess. The spring and the filter element are in this case matched to one another such that the spring the filter element at Closing the filter housing cover from the first axial position adjusted to the second axial position. If the filter element is thus not adapted to the spring, there is no adjustment of the filter element in the second axial position, in which the bayonet wing is adjustable in the closure portion of the recess. The assembly, in particular a closing of the filter housing cover, is therefore blocked or at least made more difficult if an unsuitable, not adapted to the spring filter element is used. Also, thus, the reliability of the filter device can be increased.

The axial seal can in principle be separate from the filter element. Preferred embodiments are those in which the axial seal is attached to the filter element, in particular on the underside or on the lower end disk of the filter element, and is exchanged with the filter element.

The valve can in principle be formed separately from the filter housing cover. It is also conceivable to attach the valve to the filter housing cover. The valve, at least the spring, is formed separately from the filter element. Thus, by a corresponding design of the filter element, in particular by a corresponding adaptation of the filter element to the spring, the use of unsuitable filter elements in the filter device can be prevented or at least reduced.

Such a configuration of the filter device also makes it possible, of course, to mount the filter element with the filter housing cover open in the filter housing pot by the filter element is manually, that is mounted by hand and / or a tool in the filter housing pot, for which purpose the bayonet wing inserted into the insertion section , Adjusted axially in the second axial position and then adjusted by rotation in the circumferential direction in the second rotational position. Such assembly is simplified by the at least one mounting element of the filter element.

According to an advantageous embodiment, the recess has a securing section, which runs from the insertion section against the circumferential direction defined in the previous sense. That is, the closure portion and the securing portion of the recess extend in opposite directions from the insertion portion. The filter element is hereby additionally adjustable in a third rotational position, in which the bayonet wing is arranged in the securing portion. The filter housing cover and the filter element act on opening the filter housing, in particular via at least one such mounting member and at least one such driver together such that the filter element is adjusted when opening the filter housing cover in the third rotational position. This prevents that the filter element unintentionally falls out of the filter housing pot when opening the filter housing cover or with the filter housing cover open. Thus, therefore, the replacement of the filter element is considerably simplified.

Preferred are embodiments in which at least two such bayonet wings are provided, which are spaced in the circumferential direction, wherein the respective bayonet wing such a recess is associated. Also preferred are embodiments in which at least two such mounting elements are provided, which are spaced in the circumferential direction. Thus, the mounting of the filter element in the filter device and / or the replacement of the filter element are further simplified.

Embodiments in which at least one such mounting element has an engagement section for engaging a tool and / or a finger prove to be advantageous. As a result, in particular the extraction of the filter element from the filter housing pot and thus the replacement of the filter element is simplified. The engagement portion is advantageously at least partially spaced from the top of the filter element to allow the engagement of such a tool or the finger in the mounting member. It is conceivable, in particular, to provide the engagement section with a first leg projecting in the axial direction from the upper side and a second leg adjoining the first leg and spaced from the upper side. The mounting element can thus be designed in particular L-shaped or T-shaped.

According to advantageous embodiments, at least one such mounting element and at least one such driver cooperate in such a way that the filter housing cover rotates the filter element against the circumferential direction when the filter housing cover is opened, that is to say with a relative rotation of the filter housing cover to the filter housing pot. Thus, the filter element is in particular adjusted in the first rotational position, so that the at least one bayonet wing axially pulled out of the insertion and the filter element can be removed from the filter housing pot. Alternatively, the filter element is moved into the third rotational position, in which at least one such bayonet wing is adjusted in the securing section, so that the filter element remains in the filter housing pot when the filter housing cover is open.

The filter element may have an end plate at the top and / or at the bottom. It is conceivable here that at least one such bayonet wing and / or at the upper end plate or at least one such mounting element is provided. It is advantageous in this case if at least one such bayonet wing and / or at least one such mounting element are integrally formed, in particular of the same material, on the end plate. It is also conceivable to provide such a shadow mask and / or such pins on the upper end disk.

In a further advantageous embodiment, the closure portion of the recess is provided in the circumferential direction at the end with an undercut contour, in which the bayonet wing is arranged in the position of use of the filter element. Thus, the filter element in the position of use against unintentional rotation, in particular against the circumferential direction, secured.

In preferred embodiments, the filter housing cover is connectable by a bayonet closure with the filter housing pot. This facilitates closing the filter housing pot with the filter housing cover and opening the filter housing cover.

It is understood that in addition to the filter device, the filter element as an integral part of the filter device as such belongs to the scope of this invention.

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.

Show, in each case schematically,

1 a section through a filter device according to the invention,

2 an enlarged view 1 .

3 the view 2 in another state of the filter device,

4 the view 2a in another embodiment,

5 a detail of a spatial view of the filter device from the outside,

6 a spatial view of a filter element of the filter device,

7 a spatial view of the filter device in a position of use of the filter element,

8th another spatial view of the filter device in the use position of the filter element,

9 and 10 a section through the filter device at different positions of the filter element.

In 1 is a filter device 1 for filtering a fluid acting as a fuel filter 2 for filtering fuel or as an oil filter 3 can be designed to filter oil. The filter device 1 has a filter housing pot 4 on, in which a filter element 5 for filtering the fluid, which is present as a ring filter element 6 is trained. The filter element 5 is interchangeable, so that it can be replaced if necessary, for example, in case of maintenance. The filter housing pot 4 is from a filter housing cover 10 closed, with the filter housing cover 10 from the filter housing pot 4 for opening the filter device 1 , For example, to replace the filter element 5 , can be solved. The filter element 5 points along an axial direction 7 a the filter housing cover 10 facing top 26 and one from the filter housing cover 10 opposite bottom 27 on. At the top 26 is an upper end disc 8th and at the bottom 27 a lower end disc 9 of the filter element 5 intended. In 1 is the filter device 1 ready for use and the filter element 5 in a position of use 11 arranged. The as a ring filter element 6 trained filter element 5 points to the filter housing cover 10 facing upper end plate 8th an axially projecting, centrally located annular shoulder 12 on (cf. 2a and 3 ). A valve 13 that is separate to the filter element 5 is formed, is within the ring filter 12 arranged and located at the upper end plate 8th on the filter element 5 at.

2a shows an enlarged section 1 in the area of the annular shoulder 12 while the valve 13 in 2 B is shown separately and spatially. It can be seen that the valve 13 a valve body 14 that is within a valve spool 15 of the valve 13 is arranged.

The valve spool 15 lies within the ring shoulder 12 at the upper end disc 8th at. The valve body 14 is substantially cylindrical and has two radially opposite valve openings 16 , The valve 13 is in the 1 and 2 in an open position 17 shown in the valve 13 is adjusted when the filter element 5 in the shown position of use 11 and the filter device 1 is ready for use. In the open position 17 penetrates the valve body 14 in the interior of the filter element 5 in, such that the valve openings 16 with the interior of the valve element 5 are fluidically connected. In this open position 17 can the fluid to be filtered from the interior of the filter element 5 over the valve openings 16 from the filter device 1 arrive and thus through the filter device 1 stream.

Is not a filter element 5 in the filter device 1 arranged or an unsuitable filter element 5 in the filter device 1 used, the valve is 13 in an in 3 shown closed position 18 adjusted. This is a spring 19 provided herein as a coil spring 20 is trained. The feather 19 works with the filter housing cover 10 together and adjusts the valve 13 with missing filter element 5 in the closed position shown 18 in which the valve openings 16 in the valve spool 15 are arranged such that no fluid through the valve 13 and accordingly by the filter device 1 can flow.

According to the 1 and 2 is the spring 19 in the open position 17 of the valve 13 axially biased. On the from the filter housing cover 10 opposite side of the lower end plate 9 is an axial seal 21 provided at the lower end disc 9 is attached and with the filter element 5 is interchangeable. The feather 19 is here dimensioned such that they are ready for use filter device 1 or in use position 11 of the filter element 5 as well as in the open position 17 of the valve 13 the axial seal 21 over the filter element 5 axially tight against the filter housing pot 4 presses to the filter element 5 seal. In the example shown, the axial seal 21 annular and axially located on an associated web 22 in the filter housing pot 4 at. The feather 19 So presses the axial seal 21 over the filter element 5 sealing against the bridge 22 ,

In 4 the view is off 2a to see in another embodiment. It can be seen that at the upper end plate 8th inside the ring-shoulder 12 a shadow mask 23 is provided, the several towards the filter housing cover 4 open holes 24 one of which is visible. Into the respective hole 24 intervenes by the valve spool 15 axially protruding pin 25 a, such that the valve 13 and the top 26 or the upper end disc 8th of the filter element 5 interact in the manner of a key-lock principle. Adjusting the valve 13 in the open position 17 is only possible if the shadow mask 23 of the filter element 5 and the pins 25 of the valve 13 fit each other. In other words, the filter device 1 can only be operated if such a filter element 5 with matching shadow mask 23 is used. With a corresponding design of the shadow mask 23 So it is possible to prevent inappropriate filter elements 5 be used.

The filter housing cover 10 and the filter housing pot 4 are due to a relative movement of the filter housing cover 10 to the filter housing pot 4 connectable with each other. In 5 is an example to see where the filter housing cover 10 through a bayonet lock 28 with the filter housing pot 4 is connectable. In 5 is an open state of the filter housing cover 10 to see. By relative rotation of the filter housing cover 10 to the filter housing pot 4 in a circumferential direction 29 becomes the filter housing cover 10 with the filter housing pot 4 connected and the filter housing pot 4 locked.

In 6 is a spatial view of the filter element 5 from the 1 to 3 to see. It can be seen that the filter element 5 two axially from the top 26 or from the upper end disk 8th protruding mounting elements 30 has, which are arranged radially opposite one another. The respective mounting element 30 is in this case L-shaped and has a first, axially from the upper end plate 8th protruding first leg 31 and one from the first leg 31 protruding, from the upper end disc 8th spaced second leg 32 on. The mounting elements 30 thus each have an engaging portion 33 on, wherein a not shown tool in the respective engaging portion 33 can engage and thus with the mounting element 30 engaged to the filter element 5 to adjust axially, in particular from the filter housing pot 4 pull it out. The respective engagement section 33 is also suitable for the intervention of a user by means not shown fingers to the filter element 5 to move axially. Radial on the respective mounting element 30 afterwards there is a bayonet wing 34 radially from the top 26 or the upper end plate 8th from. The mounting elements 30 , especially the thighs 31 . 32 , act with axially projecting drivers 35 (please refer 1 ) of the filter housing cover 10 so together that the drivers 35 of the filter housing cover 10 the filter element 5 over the mounting elements 30 when turning the filter housing cover 10 in the circumferential direction 29 for closing the filter housing pot 4 in the circumferential direction 29 rotate.

In the 7 to 10 are different views of the filter device 1 if the filter housing cover is missing 10 shown, with the assembly of the filter element 5 into the filter housing pot 4 below using the 7 to 10 is explained.

In the 7 and 8th is the position of use 11 of the filter element 5 to see. It can be seen that the respective bayonet wing 34 in the filter housing pot 4 an associated recess 36 associated with the bayonet wing 34 cooperates in the manner of a bayonet closure. The respective recess 36 has an axially extending insertion section 37 with an axial end and the filter housing cover 10 facing insertion opening 38 on. Axial from the insertion opening 38 spaced closes at the introduction section 37 a closure section 39 the recess 36 at the beginning of the introductory section 37 out in the circumferential direction 29 extends. In the circumferential direction 29 end is in the closure section 39 an undercut contour 40 provided only in 8th is visible and in the associated bayonet wing 34 in the position of use 11 of the filter element 5 is arranged. Thus, the filter element 5 against unintentional rotations, in particular against the circumferential direction 29 , secured.

The 9 and 10 each show a section through the filter device 1 in the area of such an introduction section 37 , It is in 9 a first axial position 41 and in 10 a second axial position 42 of the filter element 5 to see. In the first axial position 41 is the bayonet wing 34 in the area of the insertion opening 38 arranged. In the first axial position 41 is a rotation of the filter element 5 in the circumferential direction 29 and a displacement or adjustment of the bayonet wing 34 in the connecting section 39 blocked or prevented. By the axial displacement of the filter element 5 in the second axial position 42 becomes the bayonet wing 34 axially from the filter housing cover 10 away adjusted and thus arrives at the closure section 39 subsequent area of the import section 37 and can thus by rotation in the circumferential direction 29 in the position of use 11 be adjusted. That means that the respective bayonet wing 34 of the filter element 5 initially axially into the insertion opening 38 the associated recess 36 is arranged so that the filter element 5 in the first axial position 41 located. Subsequently, an axial displacement of the filter element takes place 5 in the second axial position 42 , In the circumferential direction 29 is the filter element 5 while in a first rotational position 43 that of the second axial position 42 as they are in 10 is shown corresponds. Subsequently, the filter element 5 in the circumferential direction 29 in a second rotational position 44 the one in the 7 and 8th shown use position 11 equivalent. The assembly of the filter element 5 into the filter housing pot 4 So it is imperative that the filter element 5 first from the first axial position 41 in the second axial position 42 is adjusted. This axial adjustment of the filter element 5 done with the help of the spring 19 , wherein filter element 5 and spring 19 are coordinated with each other, in particular the spring 19 such that it is the filter element 5 when closing the filter housing cover 10 from the first axial position 41 in the second axial position 42 adjusted. So there is no corresponding vote of the filter element 5 to the spring 19 before, is a mounting of the filter element 5 into the filter housing pot 4 when closing the filter housing cover 10 not possible.

With closed filter housing cover 10 and when in the use position 11 located filter element 5 performs turning the filter housing cover 10 against the circumferential direction 29 to open the filter housing cover 10 to that the takers 35 the filter element 5 over the mounting elements 30 against the circumferential direction 29 rotate. Thus, the filter element becomes 5 when opening the filter housing cover 10 from the position of use 11 or the second rotational position 44 in the first rotational position 43 adjusted. Because the first rotational position 43 the second axial position 42 matches, the bayonet wings 34 by axial displacement of the filter element 5 from the associated insertion openings 38 be pulled out and the filter element 5 from the filter housing pot 4 be taken out. The spring takes care of that 19 for that the filter element 5 until completely loosening the filter housing cover 10 from the filter housing pot 4 in the filter housing pot 4 remains.

As in the 7 and 8th is visible, has the respective recess 36 in the example shown a backup section 45 on, at the introductory section 37 connects and from the introductory section 37 out against the circumferential direction 29 runs. The closure section 39 and the security section 45 the respective recess 36 are axially at about the same height. Will the filter element 5 So in the first rotational position 43 or the second axial position 42 continue counter to the circumferential direction 29 turned, so is the filter element 5 in a third, not shown, rotational position, in which at least one such bayonet wing 34 in the security section 45 the associated recess 36 is arranged. In this third rotational position of the filter element 5 prevents the filter element 5 axially out of the filter housing pot 4 can be taken out. That is, in the third rotational position of the filter element 5 the filter element 5 even with missing filter housing cover 10 in the filter housing pot 4 is secured. Adjusting the filter element 5 in the third rotational position can in this case by a corresponding rotation of the filter housing cover 10 against the circumferential direction 29 take place, in which at least one such driver 35 the filter element 5 via at least one such mounting element 30 against the circumferential direction 29 rotates.

The ring shoulder 12 , the mounting elements 30 as well as the bayonet wings 34 are the same material at the upper end plate 8th formed. This simplifies the manufacture of the filter element 5 and makes it cheaper. In addition, the filter element 5 thus mechanically stable

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

• EP 1937962 B1 [0003]
• US 2011/0024344 A1 [0004]
• US 2010/0224530 A1 [0004]

Claims (11)

Filter device ( 1 ) for filtering a fluid, in particular a fuel filter ( 2 ) or an oil filter ( 3 ) for a motor vehicle, with a filter housing pot ( 4 ), in which a filter element ( 5 ) is arranged to filter the fluid exchangeable, and with a filter housing cover ( 10 ) for closing the filter housing pot ( 4 ), - with a valve ( 13 ) between an open position ( 17 ) and a closed position ( 18 ) is adjustable, wherein the valve ( 13 ) in the open position ( 17 ) the flow of the fluid through the filter device ( 1 ) and in the closed position ( 18 ) the flow of the fluid through the filter device ( 1 ), - the valve ( 13 ) with ready filter device ( 1 ) and in a position of use ( 11 ) of the filter element ( 5 ) in the open position ( 17 ) and in the absence of filter element ( 5 ) in the closed position ( 18 ), characterized in that - the valve ( 13 ) a valve body ( 14 ) and a sliding valve slide ( 15 ), which via a spring ( 19 ) against a top ( 26 ) of the filter element ( 5 ) is biased, - that on one of the filter housing cover ( 10 ) facing away from the bottom ( 27 ) of the filter element ( 5 ) an axial seal ( 21 ) for sealing the filter element ( 5 ) - that the spring ( 19 ) is dimensioned such that, when the filter device is ready for operation ( 1 ) the axial seal ( 21 ) via the filter element ( 5 ) tightly against the filter housing pot ( 4 ) presses. Filter device according to claim 1, characterized in that the valve ( 13 ) and the top ( 26 ) of the filter element ( 5 ) mesh in the manner of a key-lock principle. Filter device according to claim 1 or 2, characterized in that - at the top ( 26 ) of the filter element ( 5 ) at least one radially projecting bayonet wing ( 34 ) provided with a recess ( 36 ) in the filter housing pot ( 4 ) cooperates in the manner of a bayonet closure, - that the filter housing cover ( 10 ) by a rotation in a circumferential direction ( 29 ) with the filter housing pot ( 4 ) is connectable, - that at the top ( 26 ) of the filter element ( 5 ) an axially projecting mounting element ( 30 ) is provided, which with an axially protruding driver ( 35 ) of the filter housing cover ( 10 ) for rotating the filter element ( 5 ) in the circumferential direction ( 29 ) when closing the filter housing cover ( 10 ), - that the recess ( 36 ) an axially extending insertion section ( 37 ) for inserting the bayonet wing ( 34 ) in the recess ( 36 ) and one with the introductory section ( 37 ), from the introductory section ( 37 ) in the circumferential direction ( 29 ) extending closure portion ( 39 ), in which the bayonet wing ( 34 ) in the position of use ( 11 ) of the filter element ( 5 ) is arranged, - that the filter element ( 5 ) in the introductory section ( 37 ) axially between a first axial position ( 41 ) and a second axial position ( 42 ) is adjustable, wherein in the first axial position ( 41 ) the adjustment of the bayonet wing ( 34 ) in the closure section ( 39 ) is blocked and in the second axial position ( 42 ) the bayonet wing ( 34 ) between the introduction section ( 37 ) and the closure portion ( 39 ) is adjustable, - that the filter element ( 5 ) in the circumferential direction ( 29 ) between a first rotational position ( 43 ) and a second rotational position ( 44 ) is adjustable, wherein the first rotational position ( 43 ) of the second axial position ( 42 ) and the second rotational position ( 44 ) of the position of use ( 11 ), - that the spring ( 19 ) and the filter element ( 5 ) are tuned such that the spring ( 19 ) the filter element ( 5 ) when closing the filter housing cover ( 10 ) from the first axial position ( 41 ) in the second axial position ( 42 ) adjusted. Filter device according to claim 3, characterized in that - the recess ( 36 ) a security section ( 45 ), which from the insertion section ( 37 ) from opposite to the circumferential direction ( 29 ), - that the filter element ( 5 ) is adjustable in a third rotational position, in which the bayonet wing ( 34 ) in the security section ( 45 ) is arranged, wherein the filter housing cover ( 10 ) the filter element ( 5 ) when opening the filter housing cover ( 10 ) adjusted in the third rotational position. Filter device according to claim 3 or 4, characterized in that at least two such bayonet wings ( 34 ) are provided in the circumferential direction ( 29 ), wherein the respective bayonet wing ( 34 ) such a recess ( 36 ) assigned. Filter device according to one of claims 3 to 5, characterized in that at least two such mounting elements ( 30 ) are provided in the circumferential direction ( 29 ) are spaced. Filter device according to one of claims 3 to 6, characterized in that at least one such mounting element ( 30 ) an engaging portion ( 33 ) for engaging a tool. Filter device according to one of claims 3 to 7, characterized in that the filter element ( 5 ) at the top ( 26 ) an end plate ( 8th ), wherein at least one such bayonet wing ( 34 ) and / or at least one such Mounting element ( 30 ) in one piece with the end plate ( 8th ) are / is formed. Filter device according to one of claims 3 to 8, characterized in that the closure portion ( 39 ) of the recess ( 36 ) in the circumferential direction ( 29 ) at the end an undercut contour ( 40 ), in which the bayonet wing ( 34 ) in the position of use ( 11 ) of the filter element ( 5 ) is arranged. Filter device according to one of claims 1 to 9, characterized in that the filter housing cover ( 10 ) by a bayonet closure ( 28 ) with the filter housing pot ( 4 ) is connectable. Filter element ( 5 ) a filter device ( 1 ) according to one of claims 1 to 10.

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