DE102007002071A1 - Filter for liquids, particularly for fuel, has housing, which has inside through flow channel with channel wall surface, filter element, at which outer wall is formed and has inlet and outlet - Google Patents

Abstract

The filter (1) has a housing (2), which has inside a through flow channel with a channel wall surface (2'), a filter element, at which an outer wall is formed and has an inlet (4) and an outlet. A flow connection is formed between the inlet and outlet by the filter element. The flow connection is formed by arrangement of multiple filter passages (6), whose opening cross sections correspond to the cross section of a permitted maximum cross section of a dirt particle.

Description

The Invention relates to a filter for liquids, preferably for fuel with a housing, the inside a flow channel with a channel wall surface comprising, with a filter element on the one outer wall is formed, with at least one inlet and at least one Outlet and with a formed via the filter element flow connection between inlet and outlet.

The Injection system of new engines are particularly sensitive to Impurities in the fuel. A wear and a Clogging of the injection system can only be achieved by cleaning the fuel be avoided by means of a fuel filter. The filter must Filter out the suspended particles and the contamination of the fuel reduce as much as possible. Depending on the injection system and engine design are different subtleties of the filter neces sary. Nowadays, besides maintaining engine performance, minimal play Fuel consumption and high reliability of the system additionally to be observed emission values the entire vehicle life a special role. By the Fuel filters are affected by these parameters, which is why its Functionality and filter performance of particular importance is.

State of the art

Fuel filters with a filter element have been known from the prior art for many years. In the DE 6600365 U discloses a rod filter with a cylindrical grooved filter body, wherein a plurality of grooves alternately emanating from both ends of the filter body and are closed at the opposite end. The filter body is disposed within a housing, wherein between the inner wall of the housing and the filter body, a filter gap is formed. The rod filter of DE 6600365 U is particularly characterized in that the cross section of the grooves of the filter body gradually decreases from one end to the other.

From the DE 198 32 940 A1 is a fuel filter with a rod-shaped filter body known. In its lateral surface, the fuel filter has two groups of longitudinal grooves closed on one side, the longitudinal grooves originating partly from an upper end face facing away from the injection opening and partly from a lower end face of the fuel filter facing the injection opening. The two groups of longitudinal grooves form an elongated gap between them and the housing of the rod filter along the overlapping region of the two groove groups.

The DE 103 07 529 A1 also discloses a rod filter with a filter body inserted into the inlet channel. The filter body points to the DE 198 32 940 A1 identically arranged and formed longitudinal grooves, so that fuel must flow through several gaps between the filter body and rod filter housing to get to the outlet. The width of the gaps determines the maximum size of contaminants or foreign bodies in the fuel so that particles larger than the gap width can not enter the fuel injection valve. The length of the column is determined by the overlap region of the longitudinal grooves, which extend over approximately three quarters of the filter body.

The DE 10 2005 003 816 A1 discloses a fuel filter with filter body according to the DE 103 07 529 A1 , The filter body is distinguished from the last-mentioned document in that the gap width of the gaps between the longitudinal grooves in the flow direction decreases, so that particles which accumulate within the gaps can be comminuted due to the prevailing pressure pulsation of the fuel.

adversely in the above-mentioned prior art is that each disclosed longitudinally over a column extend the large area of the filter body and thus a large number of particles can not be filtered out. Especially A disadvantage of the cited prior art is that when Introducing the filter into an inlet channel of the fuel injection valve Often shavings emerge, due to their narrow elongated Form the filter through its column and pass to the injection ports can reach. In this case, the fuel delivery may be reduce and decrease the engine power. In addition occurs it also regularly with existing filter systems on that such elongated chips on the Walk to the injection openings to a ball of yarn roll up and plug the injection holes. One Failure of the system is the result.

task

task The invention is to provide a fuel filter, the the disadvantages of the prior art are reduced and comparatively smaller Particles filter.

Solution of the task

This object is achieved with the filter for fuel in that the flow connection between the fuel inlet and fuel outlet is formed by an arrangement of a plurality of filter passages whose opening cross-sections substantially the cross section of a maximum allowed Cross section of a contaminant particle corresponds. The arrangement of a plurality of filter passages is particularly advantageous since their cross section determines the maximum size of the particles passable by the filter. The usually elongated chips of manufacture or assembly can not flow through the filter grooves, but are filtered out safely. Also, other debris such as rust from the tank or paint pieces may be retained by the filter passages. This is advantageous in order not to clog the subsequent injection openings on the fuel injection valve and to avoid a costly replacement of, for example, the injector.

In an advantageous embodiment corresponds to the opening cross-section a filter passage of a size of about 0.04 mm × 0.06 mm. This ensures that elongated, spiky particles filtered and only substantially round micro particles the Filter passages can flow through. A blockage can be due to the much larger cross-section the injection openings are thus prevented. alternative The cross sections of the filter passages can be over the length of the filter element can also be made variable. It would be possible, for example, the filter passages as seen in the flow direction front area smaller to train as in the back, or vice versa.

It is convenient that the filter element as a filter rod and the filter passages as on the outer wall surface the filter rod arranged filter grooves can be formed. Thus, the filter element on production technology simple and produced inexpensively and provided with filter grooves become.

In In this context, it is also favorable that the Filter grooves a substantially U- or V-shaped cross-section produced by manufacturing tools, fast and also inexpensive to achieve. This is particularly as in the case of a product of mass production significant.

In In an advantageous embodiment, the filter rod main grooves extending from the one end of the filter rod as an inlet and from the opposite end of the filter rod as Outlet along its longitudinal direction. In the preferred Each version has three main grooves as inlet and outlet grooves evenly distributed the circumference of the filter rod and spaced apart. The main grooves extend advantageously from the opposite ends of the filter rod respectively so far in the longitudinal direction that between them over formed the periphery of the filter rod, a flow connection can be. The main grooves can be both in axial Direction parallel extend as longitudinal grooves, but they are Also versions with screw thread around the Filter element extending around or even with respect to the Axial direction inclined main grooves mitbeansprucht.

Especially it is preferred that the flow connection between the Inlet grooves and the Auslassnuten on the outer circumference of the Form filter rod by means of filter grooves. This way will in the filter, a flow connection and thus the supply and drainage of the liquid ensured. The Filter grooves can span the entire flow connection area or be formed only in parts thereof.

Also is favorable that the confluence of the inlet groove to the filter groove with a sharp-edged cutting or rasp edge can be equipped so that filtered and stuck to the edges of particles cut by pulsation according to the wood rasp principle or can be rasped. The cutting or rasp edges can be used for an effective rasping of particles be sanded. After sufficiently adequate comminution All particles can overflow the filter grooves. Clogging of the filter can thus be avoided.

In In a preferred embodiment, the filter grooves are opposite the inlet grooves in a range of 90 ° to 150 °, preferably arranged at a 120 ° angle. hereby becomes the flow flow from the inlet groove to the outlet groove each deflected by only about 60 ° through the filter grooves and an unpleasant noise or an unwanted noise Pressure reduction prevented. Also, the flow resistance be kept low in this way. The angle does not have to be static but may vary over the length of the filter element.

It is also advantageous in terms of the production of the filter rod, that the filter grooves alternatively in the form of at least one thread may be formed with a predetermined pitch, wherein the Slope angle then different from 90 degrees. hereby the filter grooves are partly against the flow direction flows through, so that due to the Strömungsverwirbelung a strong Zerraspelung of dirt particles can be achieved.

In an advantageous embodiment, the filter rod has a substantially constant guide diameter and on the fuel inlet side a press collar with a larger diameter compared to the guide diameter. With the aid of the guide diameter, the filter rod can be introduced guided into a flow channel of the housing and with the help of the press collar a secure fit be ensured within the flow channel. It may also be favorable in this case that the initial region of the press collar is designed as an insertion cone in order to prevent chip formation on insertion of the filter rod. In an advantageous embodiment, the housing may be formed as a pressure pipe socket, within the longitudinal bore of the filter rod may be arranged. In an alternative embodiment, it is also possible to insert the filter rod directly into a recess, a bore, a flow channel or the like without an extra housing is present. The housing would then be the recess, bore or the like. The filtering action is provided by the filter rod with filter grooves as long as the outer wall surface of the filter rod is flush with the inner wall surface of the recess, bore, flow channel or the like.

In In a further advantageous embodiment, the filter element be designed as a filter disk, wherein the filter passages as in the flow direction or at a predetermined angle arranged for this purpose holes or grooves are formed. hereby is a particularly simplified design of the filter and thus a To ensure inexpensive mass product. Also, due to the low deflection of the flow the pressure reduction through the filter can be significantly reduced. The Filter disc can have different widths in the longitudinal direction have, even if particularly wide execution of the Term "slice" would not be completely true.

Advantageous is in the filter in particular, that the inflow surface opposite the flow direction at the fuel inlet can be inclined. In this way, by means of the pulsations in the system a movement of dirt particles over the reached inclined inflow and thus a Zerraspeln achieved at the edges along the inflow surface become. This tendency is also for the arrangement of the filter disc Cheap.

It is favorable that additional to the filter wall of the filter rod Rasp elements can be formed with which the Zerraspelung the dirt particles are further promoted and accelerated.

Further Advantages of the invention will be described below together with the description a preferred embodiment of the invention based the figures shown in more detail. The illustration in the attached Figures are exemplary and schematic. In the figures are each same parts provided with the same reference numerals. Further are only for the understanding of the invention essential elements shown.

It demonstrate:

1 : a filter with filter rod in perspective view,

1a : a section B off 1 , enlarged;

1b : a section C out 1 , greatly enlarged;

2 : a filter rod in perspective view;

2a : a section F off 2 , enlarged.

3 a side view of another embodiment of the filter.

In 1 is a filter 1 for liquids with a built-in filter rod 3 shown in perspective view, wherein the housing 2 partially cut open for reasons of clarity. The housing 2 is in the example shown with a central longitudinal bore for use of the filter rod 3 formed, but may also have any other suitable shape. The filter rod 3 on the left three has the inlet 4 of the filter 1 forming main grooves, so-called inlet grooves 7 , on. The right side shows the filter body 3 three evenly distributed over the circumference, the outlet 5 of the filter 1 forming main grooves, so-called Auslassnuten 8th , on (see also 2 ). The inlet and outlet grooves 7 . 8th are uniformly alternating and spaced over the circumference of the filter rod 3 distributed. Both the inlet and outlet grooves 7 . 8th extend in the longitudinal direction over about three quarters of the length of the filter rod 3 , At the outer circumference of the filter rod 3 are filter grooves 6 as a flow connection (represented by arrows) between the inlet and outlet grooves 7 . 8th educated. Essentially, the circumferential direction corresponds to the width of the main grooves 7 . 8th the length of the filter grooves 6 , wherein the ratio zueinan can be made variable. The main grooves 7 . 8th can also run helically instead of in the axial direction.

The training of the filter grooves 6 is in a section B enlarged in 1a shown. The individual side by side on the outer wall of the filter rod 3 arranged filter grooves 6 have a substantially U-shaped opening cross section, wherein the junction to the filter groove 6 a sharp-edged cutting edge or rasp edge 9 is. The opening cross-section of the filter grooves 6 is determined by a width of about 0.04 mm and a height of about 0.06 mm. For illustration is on one of the edges 9 a particle 12 shown too large to the filter grooves 6 to overflow. With the Time becomes too much dirt 12 at the cutting or rasp edge 9 through the pulsation inside the filter 1 zerraspelt. Additional rasp elements can also be used for this purpose 9 ' on the filter wall 3 ' (see. 1a ), an inflow area 14 (see. 3 ) or generally in the region between the filter groove openings. The filter grooves 6 are made of particularly hard material, the cutting edges or rasp edges 9 sanded, so that a rasping of the dirt particles 12 executed after as few pulsations as possible and the respective filter groove (s) 6 again flowed through unhindered.

In 1b is a detail view C off 1 shown greatly enlarged. The outer wall of the filter rod 3 is flush, ie substantially gap-free on the channel wall surface 2 ' of the housing 2 at. With inserted filter rod 3 close the outer wall surfaces of the guide diameter 13 and the individual outer wall surfaces 13 ' the individual filter grooves 6 (see. 1a ) also flush with the inner wall surface of the channel wall surface 2 ' so that the flow connection of the liquid exclusively through the filter grooves 6 is guaranteed. The filter grooves 6 are formed in this embodiment substantially as V, wherein the bottom portion of the filter groove 6 forms a straight horizontal surface. The material surface along the filter grooves 6 has a particularly low roughness to ternuten adherence of particles within the Fil 6 and thus exclude a kind of congestion. The low roughness also helps to high flow velocities with low flow resistance.

In 2 is the filter rod 3 in the disassembled state shown in a perspective view. By way of illustration, the flow path S of the liquid is from the two inlet grooves 7 to an outlet groove 8th represented by arrows. The flow path S is transferable to all main grooves in this way. The filter rod 3 has a sliding portion 10 of constant diameter, passing through the filter grooves 6 in the middle region of the sliding section 10 is interrupted regularly. In the area of the inlet 4 points the filter rod 3 an entrance section 11 on, as a Pressbund 11 ' is trained. The diameter of the press collar 11 ' is compared to the diameter of the sliding section 10 formed larger. The sliding section 10 has closing sections 13 on, which complete the area of the flow connection. The closing sections 13 seal the filter rod 3 against the channel wall surface 2 ' from. The starting area of the Pressbund 11 ' may be formed as an alternative embodiment as an insertion cone (not shown). Both the front and rear end edges of the filter rod 3 is provided with a phase.

In 2a is an area F off 2 shown enlarged. In addition to the features already described above here is the orientation of the filter grooves 6 illustrated by the magnification. The between the inlet grooves 7 and the filter grooves 6 formed angle is between 90 ° and 150 °, preferably about 120 °, the orientation of the filter grooves 6 and said angle is adaptable to changing conditions.

The filter grooves 6 may alternatively be in the form of at least one thread having a predetermined pitch, the pitch angle then being different from 90 degrees. This is done by parts of the filter grooves 6 a return flow and achieved by the resulting turbulent flows a good ter Raserr effect.

In 3 is a filter element 3 shown in a further embodiment as a kind of filter disc. The housing 2 is designed as a kind of tube and has a flow channel in the middle 2 ' on. Into the flow channel is the filter element 3 used. The filter element 3 is opposite the case 2 and the flow direction (according to arrow) inclined, so that an oblique inflow surface 14 guaranteed and with the housing 2 essentially a Z-shape is formed. Also, a reverse slope of the filter element 3 possible (not shown). Inside the filter element 3 are substantially perpendicular to several filter passages 6 as holes or grooves over at least a substantial portion of the cross section of the filter element 3 educated. These filter passes 6 ensure the flow connection from the inlet 4 to the outlet 5 , In another embodiment, not shown, the filter passages 6 also aligned horizontally in the flow direction and over the entire cross section of the filter element 3 be educated. The edges of the filter passages 6 Corresponds to cutting or rasp edges as in the previous versions 9 to allow a rasping of dirt particles.

It is expressly pointed out that all the different feature elements of the individual embodiments can be combined with each other, as far as this is technically possible and there is no contradiction. Thus, for example, in the filter element according to the embodiment of 3 on the outer wall filter grooves according to the embodiment of the 1 and 2 be educated.

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 patent literature

• - DE 6600365 U [0003, 0003]
• - DE 19832940 A1 [0004, 0005]
• - DE 10307529 A1 [0005, 0006]
• DE 102005003816 A1 [0006]

Claims (20)

Filter for liquids, preferably for fuel, with a housing ( 2 ), which inside a flow channel ( 2 '' ) with a channel wall surface ( 2 ' ), with a filter element ( 3 ), on which an outer wall is formed, with at least one inlet ( 4 ) and at least one outlet ( 5 ), with one of the filter element ( 3 ) formed flow connection between inlet ( 4 ) and outlet ( 5 ), wherein the flow connection through an arrangement of multiple filter passages ( 6 ) whose respective opening cross-sections substantially the cross-section of an allowed maximum cross-section of a contaminant particle ( 12 ) corresponds. Filter for fuel according to claim 1, characterized in that the opening cross-section of a filter passage ( 6 ) has a size of about 0.04 mm × 0.06 mm. Filter for fuel according to claim 1 or 2, characterized in that the filter element ( 3 ) is designed as a filter rod. Filter for fuel according to one of claims 1 to 3, characterized in that the filter passages ( 6 ) than on the outer wall of the filter rod ( 3 ) are formed, each of the channel wall surface ( 2 ' ) are covered. Filter ( 6 ) for fuel according to claim 4, characterized in that the filter grooves ( 6 ) have a substantially U- or V-shaped cross-section. Filter for fuel according to one of claims 3 to 4, characterized in that the filter rod ( 3 ) at least two main grooves ( 7 . 8th ), wherein at least one main groove ( 7 ) as inlet ( 4 ) at one end of the filter rod ( 3 ) and at least one main groove ( 8th ) as an outlet ( 5 ) at the opposite end of the filter rod ( 3 ) is trained. Filter for fuel according to one of claims 3 to 5, characterized in that, preferably in each case three, inlet and outlet grooves ( 7 . 8th ) over the circumference of the filter rod ( 3 ) are distributed and spaced and extend in the longitudinal direction into an area in which the flow connection is formed. Fuel filter according to one of claims 3 to 6, characterized in that the filter grooves ( 6 ) along the region of the flow connection between the inlet grooves (FIG. 7 ) and the outlet grooves ( 8th ) and form the flow connection from the inflow to the outflow. Filter for fuel according to claim 8, characterized in that the mouth of the inlet ( 4 ) to the filter groove ( 6 ) with a sharp-edged cutting or rasp edge ( 9 ) Is provided. Filter for fuel according to one of claims 3 to 9, characterized in that the angle between the inlet grooves ( 7 ) and the filter grooves ( 6 ) is about 90 ° to 150 °. Filter for fuel according to one of claims 3 to 10, characterized in that the filter rod ( 3 ) at least one sliding section ( 10 ) having a substantially constant diameter. Filter for fuel according to one of claims 3 to 11, characterized in that the filter rod ( 3 ) on the fuel inlet side a press collar ( 11 ) with respect to the diameter of the sliding portion ( 10 ) has a larger diameter. Filter for fuel according to claim 12, characterized in that the initial region of the compression collar ( 11 ) is designed as a Einsetzkonus Filter for fuel according to one of claims 1 to 13, characterized in that the housing ( 2 ) is designed as a pressure pipe socket with at least one bore. Filter for fuel according to one of claims 1 to 2, characterized in that the filter element ( 3 ) is designed as a filter disc. Filter for fuel according to one of claims 1 to 2, characterized in that the filter element ( 3 ) at least one inclined inflow surface ( 14 ) having. Filter for fuel according to one of claims 15 to 16, characterized in that the filter disc ( 3 ) in the flow channel ( 2 '' ) is arranged inclined. Filter for fuel according to one of claims 1 to 3 and 11 to 17, characterized in that the filter passages as in the flow direction or at a predetermined angle arranged for this purpose holes or grooves are formed. Filter for fuel according to one of the preceding claims, characterized in that on at least one filter wall ( 3 ' ) at least in the area of the filter passages ( 6 ) Rasp elements ( 9 ' ) are arranged. Filter for fuel according to one of the preceding claims, characterized in that the filter grooves ( 6 ) are formed in the form of at least one thread with a predetermined pitch.