DE102015218184A1 - filtering device - Google Patents

Abstract

The invention relates to a filter device (1), in particular an oil or fuel filter, with a, a filter housing pot (2) having filter housing (3) in which a ring filter element (4) is arranged, on a lower end plate (5) has an axial has protruding pin (6), by means of which it engages with mounted filter device (1) in a filter housing cup side idle channel (7). It is essential to the invention that a nonwoven disc (9) is arranged on an end face (8) of the pin (6) whose outer diameter is greater than an outer diameter of the pin (6) and at least equal to or greater than an inner diameter of the idling channel (7 ) so that it lays when inserting the pin (6) in the idle channel (7) around the pin (6) and the idling channel (7) seals, or - that the pin (6) has an annular groove (10), in which is arranged a fleece jacket (11) whose outer diameter is greater than an outer diameter of the pin (6) and at least equal to or greater than an inner diameter of the idling channel (7), or - that the pin (6) is made in 2K plastic injection molding and a molded, in an annular groove (10) arranged seal (12), - that the pin (6) has an annular groove (10), in which a molded seal or a hose pierced seal is arranged.

Description

The present invention relates to a filter device, in particular an oil or fuel filter, with a filter housing, in which a ring filter element is arranged, according to the preamble of claim 1.

In modern filter devices, in particular fuel or oil filters, an idle function is preferably implemented via a arranged on a lower end plate of a ring filter element and eccentrically and axially projecting from this pin. So that this pin reliably seals in an associated idling channel, an outwardly open annular groove is usually provided on the pin into which a sealing ring, in particular an O-ring, is inserted. However, such a sealing ring requires that an opposite surface of the idle channel must be reworked in order to produce a required flatness or surface roughness. If a filter housing pot, in which the idling channel is arranged, for example, produced in sand or cast iron or die casting, the surface roughness is not sufficient for an O-ring seal, so that here a reworking of the inner surface of the idle channel must be unconditionally. However, just this reworking of the idle channel causes considerable costs and also risks, since the resulting chips or impurities are difficult to remove from the filter housing and thus there is a risk of contamination in the finished filter device.

The present invention therefore deals with the problem of providing for a filter device of the generic type an improved or at least one alternative embodiment, which is characterized in particular by a reduced Nachbearbeitungsaufwand.

This problem is solved according to the invention by the subject matter of independent claim 1. Advantageous embodiments are the subject of the dependent claims.

The present invention is based on the general idea, instead of a previously used O-ring sealing ring on a pin in an idle channel now for the first time use alternative seals, which compensate for an increased surface roughness in the idle channel compared to an O-ring and thereby the sealing function despite increased Ensure surface roughness. The filter device according to the invention, which is designed for example as an oil or fuel filter, has a filter housing head and a filter housing cover exhibiting filter housing, in which a ring filter element is arranged, which has at a lower end plate the previously described, axially projecting pin, by means of which it mounted filter device engages the filter housing cup side idle channel, thereby enabling the function of the filter device. In order to be able to reliably seal the idling channel in the operating state, four alternative seals are provided on the pin. In a first alternative embodiment, a fleece disc is arranged on one end face of the pin, whose diameter is greater than the diameter of the pin and larger than the inner diameter of the idle channel, so that it lays when inserting the pin in the idle channel to the pin and the idle channel seals. Alternatively, it is also conceivable that the pin has an annular groove in which a nonwoven jacket is arranged, the outer diameter is greater than the inner diameter of the idle channel and due to its nonwoven structure is also able to compensate for the present at an unworked idle channel increased surface roughness and seal , Again, alternatively, it is conceivable that the pin is made in the two-component plastic injection molding process and has a molded, arranged in an annular groove, seal. Such a seal is made of a plastic or has such a structure that allows a reliable seal even on a surface with an increased surface roughness. According to a further alternative, it is also conceivable that the pin has an annular groove in which a molded seal or a seal pierced by the hose is arranged. With the four alternative, but nevertheless equivalent seals, it can be achieved that a costly and expensive and also high risks relating to pollution-saving reworking of the idle channel can be completely eliminated, whereby the filter device according to the invention not only more cost-effective, but also produced with an increased quality standard can be.

In an advantageous development of the solution according to the invention according to the second alternative, the nonwoven jacket is fixed to the pin via welding points. Such a punctual fixation can in particular bring about a reliable holding of the fleece sheath on the pin, so that even if the pin is inserted into the idling channel, no slippage of the seal, i. of the nonwoven jacket, and thus possibly a sealing malfunction, must be feared. The weld points for fixing the fleece sheath on the pin can be arranged, for example, on a groove bottom of the annular groove and thereby have no influence on the sealing effect of the fleece sheath.

In a further advantageous embodiment of the solution according to the invention according to the second alternative, the groove bottom of the annular groove arranged at least one annular rib. Such an annular rib is an additional undercut, which supports the fixation of the fleece sheath in the annular groove and manufacturing technology is comparatively easy to manufacture.

In an advantageous development of the solution according to the invention according to the third alternative, the seal has at least one annular and radially outwardly projecting sealing contour, in particular at least one sealing lip. Such sealing lips, in particular if there are several, allow the formation of individual sealing chambers between the sealing lips, the pin and the inner surface of the idle channel and thereby enable a particularly reliable sealing. Within the sealing chambers, a pressure can be gradually reduced from sealing chamber to sealing chamber, whereby the sealing effect is also supported. The sealing lips may in particular form a kind of Christmas tree structure.

In a further advantageous embodiment of the solution according to the invention, the filter housing pot made of a metal casting, in particular of a gray cast iron or a die-cast, formed, wherein the idle channel is not post-processed, in particular not smoothed. This offers the particular advantage of being able to form the filter housing pot extremely stably, namely of a metallic cast component, without having to accept the post-processing effort hitherto required in the use of an O-ring.

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 sectional view through a filter device according to the invention in the region of a protruding into an idle channel according to the invention pins,

2 an enlarged view of another pin according to the invention,

3 another alternative embodiment of the pins.

According to the 1 , Has a filter device according to the invention 1 , which may be formed for example as an oil or fuel filter, a filter housing pot 2 on, which to a filter housing, not shown, moreover 3 belongs. In the filter housing 3 is a ring filter element 4 arranged at a lower end plate 5 an axially protruding pin 6 by means of which it when mounted filter device 1 in a filter housing cup side idle channel 7 engages and closes tightly.

Usually this pin has 6 So far, an annular groove in which an O-ring seal is arranged. However, such an O-ring seal requires a very smooth inner surface in the idle channel 7 to ensure a reliable seal. Such a smooth inner surface of the idle channel 7 However, can only by reworking, such as honing or grinding, the idle channel 7 which requires extra work and additional costs. In particular, in a filter housing made of metal casting, in particular in the die casting or gray cast iron 2 For example, the inner surface has an insufficient surface roughness for such an O-ring seal, ie, the surface roughness is too large, and therefore requires reworking.

The filter device according to the invention 1 Now knows three alternative but equivalent sealing concepts, which no smooth inner surface of the idle channel 7 require more and thus make this post-processing step required so far unnecessary, whereby time and cost can be saved. The four different sealing concepts are in the 1 to 3 shown.

Looking at the pin 6 according to the 1 , so you can see that on one end face 8th of the pin 6 a fleece disc 9 is arranged, whose outer diameter is greater than the outer diameter of the pin 6 and larger than the inner diameter of the idle passage 7 so they plug in the pins 6 in the idle channel 7 around the pin 6 sets and thereby the idle channel 7 reliably seals. The fleece disc 9 can with the front side 8th of the pin 6 be welded or glued.

If you look at the other hand, the pin 6 according to the 2 , so you can see that the pin shown there 6 an annular groove 10 in which a fleece coat 11 is arranged, whose outer diameter is greater than the inner diameter of the idle passage 7 and thereby with an insertion of the pin 6 in the idle channel 7 is compressed, creating a reliable sealing of the idle channel 7 he follows. The fleece coat 11 can do this over welds 13 at the pin 6 be fixed, these welds 13 preferably at a groove bottom of the annular groove 10 are arranged.

Additionally or alternatively for fixing the fleece sheath 11 in the ring groove 10 by means of welds 13 can at least one annular rib on the groove base 14 , here two ring ribs 14 be arranged over which in addition to the annular groove 10 a positive connection with the nonwoven jacket 11 and thus an improved fixation of the fleece sheath 11 in the ring groove 10 can be achieved. Theoretically, it is clear that the fleece jacket 11 due to a form fit even without welds 13 or without ring ribs 14 reliable in the annular groove 10 can be held.

In accordance with the 3 illustrated pin 6 it can be seen that this also has an annular groove 10 , instead of the fleece sheath 11 but a seal 12 in which case the pin 6 manufactured in two-component plastic injection molding process and in the annular groove 10 the seal 12 is injected. The seal 12 is therefore made of a different plastic material than the pin 6 ,

The seal 12 has at least one annular and radially outwardly projecting sealing contour 15 on, for example, as a sealing lip 16 may be formed and thereby a reliable seal of the idle channel 7 allows. The sealing lips 16 can thereby form a Christmas tree structure, so that between two adjacent sealing lips 16 a pressure chamber through which the two adjacent sealing lips 16 , the filter housing pot 2 and the seal 12 is limited. According to the 3 There are a total of three sealing contours 15 or sealing lips 16 drawn so that thereby two sealing chambers 17 arise over which the in the filter device 1 prevailing pressure towards a return reservoir prevailing normal pressure can be reduced.

The in the 3 shown seal 12 may of course alternatively be designed as a molded gasket or as a pierced by a hose seal, which is also due to their surface structure in the position, production-related surface roughness of an inner wall of the idle channel 7 compensate.

All four sealing concepts shown here have in common that an inner surface of the idle channel 7 no longer has to be reworked laborious, since these when using the fleece disc 9 , the fleece coat 11 or the seal 12 may also have a larger surface roughness, and still a reliable seal of the idle channel 7 cause. This is particularly advantageous if the filter housing pot 1 is made of a metal casting, such as gray cast iron, whose surface roughness usually does not meet the required for an O-ring seal smoothness and therefore must be reworked.

For the used fleece disc 9 In particular, a nonwoven material made of a nonwoven fiber material, in particular a synthetic nonwoven fiber material is considered. Preferably, this nonwoven material comprises polyester, polyimide, polyamide or polypropylene fibers or the like, whereas for the gasket 12 The following materials may preferably be used: HNBR (hydrogenated acrylonitrile-butadiene rubber), FPM (fluoropolymer rubber), FKM (fluororubber), EPDM (ethylene-propylene-diene rubber) or the like.

Claims (7)

Filter device ( 1 ), in particular an oil or fuel filter, with one, a filter housing pot ( 2 ) having filter housing ( 3 ), in which a ring filter element ( 4 ) arranged on a lower end plate ( 5 ) an axially protruding pin ( 6 ), by means of which, when the filter device is mounted ( 1 ) in a filter housing cup side idle channel ( 7 ) engages, characterized in that - on one end face ( 8th ) of the pin ( 6 ) a fleece disc ( 9 ) whose outer diameter is greater than an outer diameter of the pin ( 6 ) and at least equal to or greater than an inner diameter of the idle channel ( 7 ), so that the fleece disc ( 9 ) when inserting the pin ( 6 ) in the idle channel ( 7 ) around the pin ( 6 ) and the idle channel ( 7 ), or - that the pin ( 6 ) an annular groove ( 10 ), in which a nonwoven jacket ( 11 ) is arranged whose outer diameter is larger than an outer diameter of the pin ( 6 ) and at least equal to or greater than an inner diameter of the idle channel ( 7 ), or - that the pin ( 6 ) is produced in 2K plastic injection molding process and a molded, in an annular groove ( 10 ), seal ( 12 ), or - that the pin ( 6 ) an annular groove ( 10 ), in which a molded seal or a hose pierced seal is arranged. Filter device according to claim 1, second alternative, characterized in that the nonwoven jacket ( 11 ) on the pin ( 6 ) over welding points ( 13 ) is fixed. Filter device according to claim 2, characterized in that the welding points ( 13 ) at a groove bottom of the annular groove ( 10 ) are arranged. Filter device according to claim 1, second alternative or 2 or 3, characterized in that at the groove bottom of the annular groove ( 10 ) at least one annular rib ( 14 ) is arranged. Filter device according to claim 1, characterized in that the seal ( 12 ) at least one annular and radially outwardly projecting sealing contour ( 15 ), in particular a sealing lip ( 16 ), having. Filter device according to claim 5, characterized in that a plurality of sealing lips ( 16 ) are provided, which form a Christmas tree structure. Filter device according to one of claims 1 to 6, characterized in that the filter housing pot ( 2 ) formed of a metal casting and the idle channel ( 7 ) not post-processed, in particular smoothed, is.

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