DE102008051870A1 - filter element - Google Patents

Abstract

Filter element (1, 21), in particular for filtering freezing liquids, in particular a reducing agent for selective catalytic reduction in an exhaust aftertreatment device of an internal combustion engine, wherein the filter element (1, 21) at least one recess (2, 3) and / or receptacle (22, 23 ), in which a the filter element (1, 21) heating line is inserted / inserted, wherein the conduit carries a fluid at elevated temperature, so that the filter element (1, 21) can form a heat sink / forms.

Description

The The invention relates to a filter element, in particular for filtering freezing liquids, in particular for filtering a reducing agent for selective catalytic reduction in an exhaust aftertreatment device of an internal combustion engine.

To reduce nitrogen oxides in exhaust gases from combustion plants, waste incineration plants, industrial plants and engines, ammonia or an ammonia solution such as AdBlue is added to the exhaust gas. AdBlue is a synthetically manufactured 32.5% urea solution according to DIN 70070 , which is used for post-treatment of exhaust gases in an SCR catalyst. Selective catalytic reduction (SCR) reduces the emission of nitrogen oxides (NO _x ) by about 90%. The urea solution such as AdBlue freezes at about -11 ° C. In order to ensure operation of the metering system for injecting urea solution such as AdBlue into the exhaust gas even below this temperature, the system components must be heated, in particular the line filter for filtering the reducing agent.

Known Filter heaters consist of so-called PTC resistance elements, which are electrically controlled.

adversely It is that needed for heating electrical energy becomes. Another disadvantage is that an exchange either to a elaborate conversion of the heating cartridge or to replace the entire Filter element including heating leads, as a filter must be designed as a maintenance part.

The The object of the invention is a filter element of the aforementioned To develop such a way, so that an effective heating of the Line filter allows in a cost effective manner is and a simple replacement of the line filter at maintenance interval can be carried out.

These The object is achieved by a filter element solved according to claim 1. Advantageous developments of Invention are specified in the subclaims.

Especially advantageous in the filter element, in particular for filtering freezing Liquids, in particular for filtering a reducing agent for selective catalytic reduction in an exhaust aftertreatment device an internal combustion engine is that the filter element at least a recess and / or receptacle, d. H. Recording capabilities, in which a filter element heating the heating line inserted or inserted, wherein the conduit is a fluid with elevated temperature can lead or leads, leaving the filter element can form or form a heat sink.

Preferably the filter element has a plurality of externally arranged Grooves, recesses, recordings or recording options on, in the lines are inserted or inserted, which is a fluid lead with elevated temperature.

The Grooves, recesses, recordings or recording options can also be executed in such a way that these are introduced in a sleeve enclosing the filter element. grooves Recesses or recording options and filter element can thus be made in several parts. The cuff and the filter element are in this case in heat-conducting Contact with each other. The cable guides are in the Integrated cuff.

at the filter element according to the invention can so coolant hoses into the filter housing or a sleeve in contact with the filter housing inserted or clipped, d. H. that to be heated Filter element as a heat sink in the coolant circuit of the internal combustion engine is involved. By the waste heat of the internal combustion engine, via the coolant the coolant circuit of the engine removed becomes, becomes thus a simple and cost-effective to be realized Heating the filter element realized as the filter element by the heat transfer from the coolant hoses is optimally heated to the filter element.

It is particularly advantageous that a simple replacement of the filter is possible without opening the connection of the coolant hoses. To replace the line filter only the coolant hose must be released from the possibility of receiving the filter to be replaced and re-inserted or clipped in the new filter. Furthermore, the design of the filter is preferably designed so that not all the medium in the filter must be thawed to ensure flow. Only a relatively small area has to be thawed to ensure a flow. For this purpose, the inlet connection and / or the outlet connection can be arranged in the vicinity of the region of the heat supply from the outside, ie that one or more connecting pieces of the filter element are arranged such that they are heated directly by the transferred heat. As soon as a flow is possible, the thawing process is controlled by the supply of heated or higher-tempered liquid (urea solution, AdBlue) from the heated Tank supported.

As a result, an effective heating of the line filter is realized in a cost effective manner and it is a simple replacement of the line filter on reaching the maintenance interval possible. The invention can be used in all areas where line filters are used to filter freezing liquids. Particularly preferably, the filter element is used for filtering a reducing agent such as ammonia or urea solution such as AdBlue (urea solution according to DIN 70070 ) and the like, which is added to the exhaust gas for selective catalytic reduction in an exhaust aftertreatment device of an internal combustion engine by means of a metering system. This results in a particularly advantageous overall arrangement, since the waste heat of the internal combustion engine can be used by the thermal coupling of the filter element as a heat sink in the coolant circuit to heat the filter element in an effective manner.

Preferably the filter element has a longitudinal extension and the Groove or grooves extend along the filter element. As a result, the contact surface between the coolant hose and filter element extended. This will increase the effectiveness the heating and transmitted from the coolant circuit to the filter element Amount of heat increased.

alternative or cumulatively, the lines can also be perpendicular to Filter axis along the filter element extend, in particular corresponding lines also in corresponding recordings both at the top and at the bottom of such a filter element run.

Preferably the lines or the line are coolant lines and or coolant hoses of an internal combustion engine. This particularly preferred embodiment becomes a particular achieved simple and effective heating of the filter element, since the invention is particularly preferably used to be in a dosing system for the dosage of urea solution like AdBlue at one Internal combustion engine to filter the reducing agent.

The However, filter element can also accommodate any other line, which leads a fluid at a higher temperature than it corresponds to the temperature of the filter element. This provides a heat flow, from the line to the filter element is directed. In this way, the filter element is heated.

Preferably the filter element is designed such that the filter element at least in the region of the groove or grooves a high heat transfer coefficient having. Preferably, the filter element at least in the area the groove or grooves a high thermal conductivity on.

By the appropriate choice of material at least in the groove or the grooves in which or in which a filter element heating line is inserted or inserted, is an optimal heat transfer and thus ensures optimum heating of the filter element. Accordingly, at least the outer housing of the Filter element, preferably made of a metal with a good thermal conductivity such as aluminum or copper. Also can to Improvement of heat transfer additives such as Contact gel or the like are introduced into the recess, in which the line rests.

Preferably The pipes are in the grooves or recording options clipped, d. H. that the lines are clipped into the grooves. For this the grooves or receptacles are designed accordingly, in particular The grooves or shots can be noses or the like behind which the line engages. Also, the groove be designed substantially circular for recording a circular duct, the groove being a perimeter of something Covered more than 180 ° so that the line embraced becomes. As a result, the line can be fixed in the recess, so that a secure fit even with vibration, z. B. starting from an internal combustion engine is guaranteed.

In a preferred embodiment is the filter element total unbalanced, allowing the filter into one corresponding receptacle or holder in only one clear Position and / or orientation is possible. filter holder and filter element thus form a positive connection after assembly, wherein the filter element is designed such that it does not accidentally can be mounted upside down as it is only in a single position due to its asymmetrical configuration fits in the corresponding picture.

A preferred arrangement of the filter element is the filtering of a Reducing agent, such as urea solution, for selective catalytic reduction in an exhaust aftertreatment device an internal combustion engine, wherein the filter element in thermal contact with the coolant circuit of the internal combustion engine is and forms a heat sink of the refrigerant circuit.

Because the filter element is thermally in contact with the coolant circuit, effective heating of the line filter, which serves to filter the reducing agent such as urea solution / AdBlue, since AdBlue freezes at -11 ° C and thus the line filter of the dosing system for Zudosie tion of the reducing agent in the exhaust gas must be heated.

One Embodiment of the invention is shown in the figures and will be explained in more detail below. Show it:

1 : A filter element according to the invention in a first embodiment in a side view, a plan view and a bottom view;

2 : a corresponding holder in two views for receiving the filter element after 1 ;

3 a second embodiment of a filter element according to the invention in a first perspective view prior to insertion into the mounting bracket;

4 : the filter element after 3 in a second perspective view after insertion into the mounting bracket.

In 1 A first embodiment of a filter element according to the invention is shown 1 in a side view in the left part of 1 , as well as in the plan view from above in the upper right part of 1 , as well as the bottom view in the lower right part of 1 ,

The filter element 1 has on the outside along its longitudinal extent, ie parallel to its central axis, two grooves 2 and 3 on. In the grooves 2 and 3 of the filter element 1 coolant hoses of an internal combustion engine can be inserted or clipped.

By means of these coolant hoses, not shown, in the grooves 2 and 3 be clipped, the filter element 1 heated and it is a freezing of the liquid to be filtered prevented.

The filter element 1 has two connecting pieces 4 and 5 on, which serve as inflow and outflow for the liquid to be filtered.

The filter element 1 is asymmetrical and has a paragraph 6 on, allowing an assembly of the filter element 1 in the corresponding holder 10 according to 2 only possible in a unique position. The holder 10 according to 2 has this in the lower part of the two projections 11 and 12 on.

Between the projections 11 and 12 on which the paragraph 6 of the filter element 1 rests, the holder has a recess 13 on, in which the lower part of the asymmetrical filter element 1 can einliegen. Furthermore, the mounting element 10 drilling 14 . 15 on, which are durchgreifbar by screws and serve to the holder 10 to attach to the surrounding structure.

In the 3 and 4 is shown a second embodiment of a filter element according to the invention 21 in two different perspective views. 3 shows a perspective view before mounting the filter element 21 in the assembly console 30 , while 4 a perspective view of the filter element 21 on the connection areas of the filter element in a completely in the mounting bracket 30 mounted position shows.

The filter element 21 has recordings at the top of its case 22 and shots at the bottom of its case 23 on. Into the recordings 22 . 23 are clipped coolant hoses of an internal combustion engine, so that on the waste heat of the coolant from the coolant hoses used in the shots 22 . 23 einliegen, the filter element 21 is heated, so that any freezing of the liquid to be filtered is counteracted.

The housing of the filter 21 including the receiving elements 22 . 23 is made of metal, so that there is an optimal heat conduction and thus heating of the filter element 21 results.

Rear side, the filter element 21 two locking lugs 26 on, in perspective view according to 3 a catch 26 is visible. These latches 26 grab in corresponding recesses 31 . 32 the mounting bracket 30 one, ie that the locking lugs 26 the recesses 31 . 32 in the assembly console 30 reach behind and engage. The assembly of the filter element 21 in the assembly console 30 is indicated by the arrow 31 according to 3 , which is the insertion of the filter element 21 in the mounting bracket 30 and in the provided receiving shoes into which the corresponding receiving elements and mounting elements of the filter element 21 to be inserted shows.

In 4 is shown the filter element 21 in fully inserted and latched position on the corresponding mounting component 30 ,

For replacement of the filter element are accordingly only the coolant hoses from the grooves 22 . 23 take out and the filter element after loosening the locking lugs 26 Pull up vertically and then through a new filter element 21 to replace.

A particularly preferred application of the filter element 1 respectively. 21 is in a dosing system for dosing of ammonia, urea solution or urea solution according to DIN 70070 like AdBlue in exhaust aftertreatment facilities. Such exhaust systems for diesel engines, which meet the exhaust gas standard with SCR systems, have a metering system for metering the additive used as a reducing agent. With SCR is called the Selected Catalytic Reduction, ie the technique of selective catalytic reduction of nitrogen oxides in exhaust gases. These metering systems have a filter element for filtering the reducing agent.

Urea solution according to DIN 70070 freezes at -11 ° C. Accordingly, the components of the metering system must be heated.

This required heating of the filter is possible in a particularly advantageous and simple manner in the filter element according to the invention, by the filter element 1 respectively. 21 into the grooves 2 . 3 or in the recordings 22 . 23 Coolant hoses of the internal combustion engine are clipped. This will make the filter element 1 respectively. 21 heated by the waste heat of the internal combustion engine. The filter element is thus in thermal contact with the coolant circuit of the internal combustion engine and forms a heat sink of the coolant circuit.

It Thus, there is a heating of the urea filter of a dosing in an exhaust aftertreatment device of an internal combustion engine, wherein a reducing agent such as ammonia or urea solution is injected for the selective catalytic reduction (SCR) of Exhaust gases, using the waste heat of the internal combustion engine, d. H. that coolant lines of the internal combustion engine a Part of the waste heat of the internal combustion engine to the filter element submit.

The Application of the filter element according to the invention and the method for heating a filter element using However, waste heat is not on this preferred application limited. Rather, the inventive Filter element can be used in all areas where line filter serve to filter freezing liquids.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited non-patent literature

• - DIN 70070 [0002]
• - DIN 70070 [0012]
• - DIN 70070 [0040]
• - DIN 70070 [0041]

Claims (9)

Filter element ( 1 . 21 ), in particular for filtering freezing liquids, in particular a reducing agent for selective catalytic reduction in an exhaust aftertreatment device of an internal combustion engine, characterized in that the filter element ( 1 . 21 ) at least one recess ( 2 . 3 ) and / or recording ( 22 . 23 ), in which a the filter element ( 1 . 21 ) heating line is inserted / inserted, wherein the line leads a fluid with elevated temperature, so that the filter element ( 1 . 21 ) can form / form a heat sink. Filter element ( 1 . 21 ) according to claim 1, characterized in that the filter element ( 1 . 21 ) a plurality of grooves arranged on the outside ( 2 . 3 ) and / or recordings ( 22 . 23 ), in which lines are inserted / inserted, which lead a fluid with elevated temperature. Filter element ( 1 . 21 ) according to claim 1 or 2, characterized in that the filter element ( 1 . 21 ) has a longitudinal extension and the groove / grooves ( 2 . 3 ) and / or recording / recording ( 22 . 23 ) along the filter element ( 1 ) runs / run. Filter element ( 1 . 21 ) according to one of the preceding claims, characterized in that it is at the line / lines to coolant lines and / or coolant hoses of an internal combustion engine. Filter element ( 1 . 21 ) according to one of the preceding claims, characterized in that the filter element ( 1 . 21 ) at least in the region of the groove (s) ( 2 . 3 ) and / or recording / recording ( 22 . 23 ) has a high heat transfer coefficient. Filter element ( 1 . 21 ) according to one of the preceding claims, characterized in that the filter element ( 1 . 21 ) at least in the region of the groove (s) ( 2 . 3 ) and / or recording / recording ( 22 . 23 ) has a high thermal conductivity. Filter element ( 1 . 21 ) according to one of the preceding claims, characterized in that the lines in the grooves ( 2 . 3 ) and / or in the recordings ( 22 . 23 ) are clipped / clipped. Filter element ( 1 . 21 ) according to one of the preceding claims, characterized in that the filter element ( 1 . 21 ) has a contact shoulder and / or asymmetrical, and an installation in a corresponding receptacle ( 10 . 30 ) in only one position. Arrangement of a filter element ( 1 . 21 ) for filtering a reducing agent for selective catalytic reduction in an exhaust aftertreatment device of an internal combustion engine, characterized in that the filter element ( 1 . 21 ) is in thermal contact with the coolant circuit of the internal combustion engine and forms a heat sink of the coolant circuit.