DE102015222431A1 - filtering device - Google Patents

Abstract

The invention relates to a filter device (1) with - in a housing (2) arranged ring filter element (3) with an annular filter body (4) and a first and a second end plate (5, 6), - one in the housing (2) Idle channel (8), - a closure element (7) for closing the idle channel (8), essential to the invention is that the closure element (7) has a first portion (9) and a second portion (10) via a predetermined breaking point (11 ), wherein the closure element (7) via its first portion (9) with the second end plate (6) of the ring filter element (3) is connected or connectable while the closure element (7) with its second portion (10) downwards protrudes from the idle channel (8).

Description

The present invention relates to a filter device with a ring filter element arranged in a housing according to the preamble of claim 1.

Generic filter devices are well known and are used in almost all motor vehicles. In filter devices for an internal combustion engine, the fluid present in each case, for example oil, fuel or water, must be drained off before the change for the purpose of changing a filter element. In order to make this possible, the filter devices generally have an idling channel, which is closed during operation by a closure element. Such a closure element can be realized by a classic drain plug or by a pin arranged on a ring filter element.

For a reliable operation of the filter device, it is essential that the closure element on the one hand not inadvertently released from the idle channel and thereby the environment is contaminated by leaking fluid, but it can be easily solved on the other hand at a pending filter change from the outside to the housing first to empty.

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 an alternative closure element in an idle channel.

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 to provide a closure element for closing an idle channel of a housing of a filter device, such as an oil or fuel filter, with a predetermined breaking point, which is a manual breaking of the predetermined breaking point by rotating the closure element in the idle channel and a subsequent extraction at least of the idling channel sealing portion of the closure element from the idle channel and thus emptying the housing comparatively easy. The filter device according to the invention has in a known manner the aforementioned housing with a ring filter element arranged therein with an annular filter body and a first and a second end plate. In the housing, said idling channel is arranged, which is closed by the closure element during operation of the filter device. According to the invention, the closure element itself now has a first section and a second section which are connected to one another via the predetermined breaking point, the closure element being connected or connectable via its first section to the second end plate of the ring filter element, while it projects downward with its second section protrudes the idle channel and thereby can be pulled out by simply twisting and breaking the breaking point for emptying the housing. With the filter device according to the invention, it is possible to prepare the change of a ring filter element arranged therein by a simple removal of the closure element and an associated emptying of the housing. Subsequently, the now deflated filter housing can be screwed and removed the ring filter element.

In an advantageous development of the solution according to the invention, the closure element is formed integrally with the second end disk. In this case, the closure element can thus be produced in a common plastic injection molding process together with the second end plate, whereby not only a high-quality production, but also a cost-effective production are possible. In this case, the closure element is inserted together with the new ring filter element in the housing and thereby introduced into the idle channel from above until its second section protrudes down from the idle channel. Subsequently, the housing is closed, for example by rotating a filter housing pot, in which case the ring filter element is rotatably mounted on the lid, i. generally at an upper part of the filter device, suspended and therefore referred to as a hanging filter. When the ring filter element is changed, a worker now grips the second section of the closure element projecting downwards out of the idling channel and twists it relative to the first section of the closure element until the predetermined breaking point breaks. He then pulls the second portion of the closure member down out of the idle channel and thereby opens it, after which the existing fluid in the housing can leak through the idle channel.

Alternatively to the variant described above, it is also conceivable that the closure element is connected with its first portion via a latching connection with the second end plate. This makes it possible to first install the ring filter element in the filter housing, and only when the filter housing is closed from below to insert the closure element in the idle channel to then lock this with the second end plate. This can also be done via a Rotational movement of the closure element or via a simple clip closure done. The rotational movement for closing the latching connection or, for example, a bayonet closure, does not lead to a breakage of the predetermined breaking point, since it is capable of absorbing high torques in this direction of rotation. In a rotational movement in the opposite direction of rotation is also no breaking of the predetermined breaking point, since in this case the locking connection or the bayonet between the second end plate of the ring filter element and the first portion of the closure element does not close. In the case of a bayonet closure, a release device is also preferably provided which first has to be overcome to release the bayonet closure. Against the Losdrehsicherung the predetermined breaking point is actuated during rotation of the closure element. If the closure element is mounted and the ring filter element is to be exchanged after a certain cycle, the worker grips the second section of the closure element and turns it relative to the first section until the predetermined breaking point breaks. This is usually done by applying a torque which is opposite to the torque required for fastening the closure element to the second end plate. Alternatively, the predetermined breaking point can of course be broken by applying a tensile force. In addition, the predetermined breaking point reliably prevents the closure element from being used several times.

In an advantageous development of the solution according to the invention, the predetermined breaking point has at least two, preferably three, helical spring arms. Such a predetermined breaking point can be relatively simple, especially in an injection molding, produce, and also allows the recording of a rotational direction-dependent torque, wherein the recordable torque D _{1 is} greater than the oppositely receivable torque D ₂ , since the helical spring arms when applying the torque D _1st be compressed and thus go to block, while they are pulled apart when applying the torque D ₂ and thus easier to break.

Preferably, the helical spring arms are adapted in terms of their cross-section to a maximum absorbable torque D ₂ at which the predetermined breaking point is to break. On the cross sections of the spring arms can thus be comparatively easily influence on the maximum absorbable torque D _{2 are} taken so that at a low recordable torque D _2, the helical spring arms only weaker and thus must be made easily breakable in terms of their cross-section. Suitably, the closure element has an annular groove in which an O-ring seal is received. In order to close the idle passage reliably, said O-ring seal is provided between the closure element and an inner wall of the idle channel, which is held in an outwardly open annular groove of the closure element and thereby relatively easily introduced with the closure element in the idle channel or with this again can be pulled out of the idle channel.

Suitably, the filter device is designed as a fuel filter, as a hydraulic filter or as a lubricant filter. Even this non-exhaustive counting gives an idea of the manifold possible uses for the filter device, especially in modern motor vehicle construction.

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 with a closure element according to the invention according to a second embodiment,

2 a representation like in 1 but in a closure element according to a first alternative embodiment,

3 a partial section of a closure element according to the invention,

4 a detailed view of a predetermined breaking point of the closure element according to the invention.

In the 1 and 2 , Has a filter device according to the invention 1 , which may be formed for example as an oil filter, as a hydraulic filter or as a fuel filter, a housing 2 with a ring filter element disposed therein 3 on. The ring filter element 3 has a filter body 4 and a first and second end plate 5 . 6 , here an upper and a lower end plate 5 . 6 , In the case 2 is also an idle channel 8th arranged, which with a closure element according to the invention 7 during operation of the filter device 1 can be closed. This closure element according to the invention 7 now has a first section 9 and a second section 10 , which have a predetermined breaking point 11 connected to each other, wherein the closure element 7 about his first section 9 with the second end disc 6 of the ring filter element 3 connected or connectable while it is with its second section 10 down from the idle channel 8th protrudes.

The difference between that according to the 1 and 2 shown filter devices 1 is that according to the 1 the closure element 7 with his first section 9 via a locking connection 12 with the second end disc 6 is connected while the closure element 7 according to the 2 integral with the second end plate 6 is trained.

In both cases, however, the predetermined breaking point 11 at least two, preferably even three helical spring arms 13 (See also the 3 and 4 ), in addition to the second section 10 the closure element 7 a handle 14 or a gripping surface is arranged, via which a torque D ₂ for breaking the predetermined breaking point 11 and for applying a tensile force and thus for pulling out the closure element 7 from the idle channel 8th can be applied.

Looking at the breaking point 11 according to the 1 to 4 closer, it can be seen that this is designed to receive a rotational direction-dependent torque D, wherein a recordable torque D _{1 is} greater than an oppositely receivable torque D ₂ , and wherein the spring arms 13 when applying the torque D ₁ go to block or the two sections 9 . 10 to move towards each other while they are twisted apart when applying the opposite torque D ₂ and thereby break more easily.

The spring arms 13 can in terms of their cross-section at a maximum absorbable torque D ₂ , in which the predetermined breaking point 11 should be adjusted comparatively easily. Should therefore only a small torque D ₂ up to the breaking of the predetermined breaking point 11 be absorbable, the spring arms must 13 correspondingly weak and thus more easily breaking, while at a higher maximum absorbable torque D ₂ would have to be correspondingly more powerful.

Looking again at the closure elements 7 according to the 1 and 2 , so you can see that these have a respective annular groove 15 in which an O-ring seal 16 is sealed. About such an O-ring seal 16 can be a sealing of the idle channel 8th be comparatively easy to be realized.

Looking at this according to the 3 illustrated closure element 7 , it can be seen that this is hollow, which of course alternative embodiments are conceivable as a solid profile. In any case, however, the closure element should 7 be formed such that through this cavity no fluid inadvertently from the housing 2 can get outside.

An assembly or disassembly of the ring filter element 3 in the case 2 the filter device 1 takes place as follows:
In the 1 is initially either already before installing the ring filter element 3 in the case 2 , the closure element 7 over the locking connection 12 with the second end disc 6 of the ring filter element 3 locked and connected to it, or only after the installation of the ring filter element 3 in the case 2 from below into the idle channel 8th inserted and by applying, for example, a compressive force or a torque D _1, the locking connection 12 closed. Alternatively to such a locking connection 12 Of course, a kind of bayonet lock can be provided. In contrast, the assembly of the ring filter element takes place 2 in accordance with the 2 shown filter device 1 by a simple insertion of the ring filter element 3 in the case 2 , Wherein at the same time integral with the ring filter element 3 trained closure element 7 down into the idle channel 8th is inserted. Subsequently, the housing 2 be closed because the ring filter element 3 usually as a hanging filter element and thus rotatable on the upper end plate 5 is suspended.

In case of service is now in the filter device according to the 1 and 2 a torque D ₂ over the handle 14 on the second section 10 the closure element 7 applied until the predetermined breaking point 11 breaks and the second section 10 down from the idle channel 8th can be pulled out. When this is done, the housing runs 2 empty and then this can be screwed on and the ring filter element 3 removed and replaced with a new one. Reuse of the closure elements 7 is not intended in either case.

Depending on which force the breaking point 11 can absorb a maximum of the torque D ₂ , also the number of spring arms 13 be adjusted.

With the closure element according to the invention 7 and the filter device according to the invention 1 can be a completely new closure element 7 be created, which is comparatively easy in maintenance, namely by a simple rotation of the second section 10 the closure element 7 and pulling it out of the idle channel 8th can be emptied, making the overall maintenance more comfortable.

Claims (9)

Filter device ( 1 ) with - one in a housing ( 2 ) arranged ring filter element ( 3 ) with an annular filter body ( 4 ) and a first and a second end plate ( 5 . 6 ), - one in the housing ( 2 ) arranged idle channel ( 8th ), - a closure element ( 7 ) for closing the idling channel ( 8th ), characterized in that the closure element ( 7 ) a first section ( 9 ) and a second section ( 10 ), which via a predetermined breaking point ( 11 ), wherein the closure element ( 7 ) about its first section ( 9 ) with the second end plate ( 6 ) of the ring filter element ( 3 ) is connected or connectable while the closure element ( 7 ) with its second section ( 10 ) down from the idle channel ( 8th ) stands out. Filter device according to claim 1, first alternative, characterized in that the closure element ( 7 ) in one piece with the second end plate ( 6 ) is trained. Filter device according to claim 1, second alternative, characterized in that the closure element ( 7 ) with its first section ( 9 ) via a latching connection ( 12 ) or a bayonet closure with the second end plate ( 6 ) connected is. Filter device according to one of the preceding claims, characterized in that the predetermined breaking point ( 11 ) at least two, preferably three, helical spring arms ( 13 ) having. Filter device according to one of claims 1 to 4, characterized in that the closure element ( 7 ) on the second section ( 10 ) a handle ( 14 ), over which a torque D for breaking the predetermined breaking point ( 11 ) and a pulling force for pulling out the closure element ( 7 ) from the idle channel ( 8th ) can be applied. Filter device according to claim 4 or 5, characterized in that the predetermined breaking point ( 11 ) is formed for receiving a rotational direction-dependent torque D _1.2 , wherein the absorbable torque D _{1 is} greater than the oppositely receivable torque D ₂ and wherein the spring arms ( 13 ) when applying the torque D ₁ go to block. Filter device according to claim 6, characterized in that the spring arms ( 13 ) with respect to its cross-section to a maximum absorbable torque D ₂ , wherein the predetermined breaking point ( 11 ), are adapted. Filter device according to one of the preceding claims, characterized in that the closure element ( 7 ) an annular groove ( 15 ), in which an O-ring seal ( 16 ) is recorded. Filter device according to one of the preceding claims, characterized in that the filter device ( 1 ) is designed as a fuel filter, as a hydraulic filter or as a lubricant filter.

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