DE202005014690U1 - Filter element for industrial liquid filtration without using containment housing has fluted filter element inside cylindrical injection molded, perforated, plastics support - Google Patents

Abstract

A filtration element for liquids comprises a cylindrical filter medium with end closures inside a perforated plastics support tube (15) arranged for liquid flow from inside to outside. The support tubes are particularly of injection molded polyamide, and formed with non-radially inclined , wall perforation channels (20), to prevent direct spraying-out of filtrate.

Description

Technical area

The The invention relates to a filter element for liquids according to the preamble of claim 1.

State of the art

The document DE 196 08 589 discloses a filter element for gaseous or liquid media, which is insertable into a filter housing. The filter element has a zigzag-folded, annularly closed filter medium. At the end faces of the filter medium end plates are arranged. The filter element is flowed through from the inside to the outside with liquid, wherein the dirt particles occurring on the filter element form a filter cake on the surface of the filter element. As a result, the filter fineness of the filter medium is improved. Since in certain situations of use such filters are used without housing, an outer support jacket is required for such an application. In the prior art this is solved by a perforated outer sheath. The outer jacket is either made of perforated sheet metal or of a corresponding plastic part. The disadvantage here is that when building a certain pressure form a kind of pockets in the folds of the filter element, which leads to an uncontrolled clean-side splash out of purified liquid. This also occurs when using a perforated outer sheath. The liquid is injected directly through the holes to the outside, so that the environment of the filter element is wet-sprayed over a large area with the purified liquid. This is particularly problematic when the filter element is in the vicinity of electrical or electronic components, which then have to be provided consuming with a splash guard. In addition, the purified liquid should be included in the liquid circulation again and do not need to be refilled regularly.

A known in the art To avoid the disadvantages is the use of an additional Fleece between filter bellows and outer jacket. However required the use of the fleece an additional step, namely the Gluing or inserting the fleece and the cost of the material. Also, the process reliability by inserting the fleece lowered because the extra Fleece in the production often tear or wrinkles.

task The invention is therefore to provide a fluid filter, which is easy and inexpensive is in the making, as well as the ejection of purified liquid avoids. This object is achieved by the features of claim 1 solved.

Disclosure of the invention

The filter element according to the invention is for cleaning liquids, especially for Cooling, lubricating or machining fluids provided in machine tools. The filter element has a filter medium and end plates, wherein the filter medium is substantially cylindrical is trained. Here, the filter medium may be e.g. circular or oval closed executed be. The end plates are sealing with the end faces of the filter medium connected, wherein the end plates with the filter medium, e.g. sticky or welded could be. At least one of the end discs has an opening through which the fluid flow into the interior or can flow out of the interior. The other end disc can be designed as a closed disc. The end discs can be out Plastic or metal, wherein a filter element with plastic end discs, in a hazardous waste incineration plant Completely can be disposed of. Furthermore, plastic end caps corrode not, which makes the filter element even with problematic liquids can be used. The filter element has in addition to the end plates and the filter medium still over a supporting body, which outside the filter medium is arranged. According to the direction of flow from the inside to the outside Thus, the filter medium can be supported, whereby damage to the Filter medium is prevented. The support body is hollow cylindrical and fluid pervious accomplished and may be connected to the end plates. Furthermore, points the supporting body means for substantially spatter-free drainage of the filtered liquid on. The at high differential pressure from the formed folding pockets out splashed purified liquid is through the support body the outer jacket led the support body and is running this then down into a collection container. By the drainage agent is a radial spraying of the cleaned liquid over the entire lateral surface of the Filter element prevents. Positive here are the low production costs of the filter element, the lower material and manufacturing costs and the high process reliability by omitting a fleece.

at An advantageous embodiment of the invention is the filter medium zigzag folded and ring-shaped closed. Due to the zigzag folding of the filter medium, the filter element has a largest possible surface, which available for filtration stands.

In a particular embodiment of the inventions tion, the filter element is provided for cleaning a dielectric of a sinking or wire eroding machine. On such machines also very small particles in the range of 1 to 160 microns are generated, which are then transported away with the dielectric of the machined workpiece. For optimal functionality of the dielectric also these very small particles must be filtered out from the beginning, otherwise the effectiveness of the machining process is reduced. Therefore, a high initial separation efficiency is important. It is also advantageous in this embodiment that a filter housing can be saved on the EDM machine and an additional splash guard fleece.

According to one advantageous embodiment, the support tube as a means for substantially spatter-free Drainage of the filtered liquid through channels with a Channel contour, an entrance opening and an exit opening for the filtered liquid on. According to the invention doing a deflection of the filtered liquid in such a way through the channel contour, that a direct horizontal fluid flow between inlet and outlet is prevented. A liquid jet entering the inlet Thus, through the walls of the passageway which is the channel contour Form, diverted, so that each part of the liquid jet always first meets a wall within the channel contour, thereby in his Radial horizontal emergence direction is diverted thereby prevents spraying of the filtered liquid becomes. It becomes the liquid So the kinetic energy is taken so that after flowing through the Through channels only outside on the support tube runs down.

This can be achieved in that the passageways a Inclination opposite of the horizontal such that the projected area of the inlet opening essentially no horizontal overlap with the projected area the outlet opening having. The injecting liquid So is through the ceiling or the bottom wall of the passageway deflected, with there is no direct connec tion possibility between the inlet opening and outlet opening in a horizontal direction.

alternative can do this the passageways in the course of the channel contour, a change of the inclination angle relative to the Experienced horizontally. Here then follows on a slope within the Passageways a slope or the other way around. Here you can now the projected areas the inlet and the outlet opening lying horizontally in a plane, by the arrangement of the channel contour but in turn is the direct horizontal passage of the liquid prevented from entry to exit.

In In another alternative embodiment, the passageways are through arranged axially one above the other Ring collar formed. Here, the axial ends of the respective Ring collar a different diameter than the axial ends of the each adjacent ring collar on. This structure is similar in the Principle a roof shingle construction, where also a forced diversion the liquid takes place, so that no direct horizontal passage of a liquid jet possible is. The ring collars can detachable or unsolvable be connected to each other.

According to one advantageous embodiment, the support tube is on a thermoplastic Plastic, in particular polyamide, produced by injection molding. By This type of production is a particularly inexpensive production ensures which continues to include the advantage of a lightweight and simple design.

These and further features of preferred embodiments of the invention go out from the claims also apparent from the description and the drawing, wherein the individual Features for each alone or in the form of subcombinations the embodiment of the invention and in other fields be realized and advantageous also for protectable versions can represent for the protection is claimed here.

Short description of drawings

Further Details of the invention are described below with reference to FIGS described. This shows

1 a filter element with outbreaks,

2 an inventive support tube in section and

3 a section of an alternative support tube.

Embodiment (s) of the invention

In the 1 is a filter element 10 shown in side view with two outbreaks, the length of the filter element 10 Shortened by fault lines is shown. The filter element 10 has a zigzag folded filter medium 11 , which at its end faces 12 with end discs 13 connected is. The end discs 13 have a reception area 14 , in which the folded and annular closed filter medium 11 inserted and with an adhesive (not shown) is sealingly fixed. However, it is also possible to realize the connection via a welding process. Wei terhin is a liquid-permeable support tube 15 with the end discs 13 connected, with the support tube 15 outside the closed filter medium 11 is arranged. The support tube 15 is indicated here only by hatching, the 2 shows a detailed representation of the support tube 15 , The illustrated filter element 10 is flowed through from inside to outside, resulting in the filter medium 11 on the support tube 15 can support and so large deflections are prevented. Furthermore, a seal 16 at the end disc 13 arranged, which the sealing installation of the filter element 10 in a filter housing (not shown) allows. The end discs 13 and the support tube 15 consist of a thermoplastic material. The seal 16 consists of an elastomer. Of course, the components may also consist of other materials known in the prior art, which have sufficient dimensional stability or elasticity.

The 2 shows the support tube 15 according to 1 on average. The support tube 15 Here is a filter medium enclosing cylindrical shell with a continuous wall 17 , In the wall 17 are introduced in the injection molding process openings, which through an inlet opening 18 for the purified fluid, an outlet opening 19 and an intermediate passageway 20 are characterized. This is on the magnification of a section in the 2 to recognize. The inside of filter bags of the filter medium 11 spouting purified liquid thus passes through the inlet opening 18 in the passageways 20 a, hits in its horizontal path on upper half of the wall 21 the passageways 20 , whereby the flow direction is deflected, so that the liquid is not directly from the inlet opening 18 horizontally to the outlet opening 19 can splash. This will be a splash out of the support tube 15 avoided, the purified liquid thus runs only on the outer wall of the support tube 15 down. Here are the through channels 20 inclined to the horizontal. The inclination must occupy such an angle that the inlet opening 18 opposite the outlet 19 does not contain any horizontal overlap.

The 3 shows an alternative variant of the support tube 15 again in a section comparable to the section from the 2 , Here are entrance opening 18 and outlet 19 essentially at the same horizontal height, but the passageway is 20 characterized in that the upper wall half and the lower wall half each include a change of the angle of inclination relative to the horizontal. This also avoids that from the inside to the outside splashing liquid can inject directly from the inlet opening horizontally into the outlet opening, so that only a deflection of the liquid jet through the wall halves 21 . 22 he follows.

Claims (8)

Filter element for liquids, in particular for cooling, lubricating or machining fluids in machine tools, comprising a filter medium, end plates and a fluid-permeable support body, wherein the filter medium is cylindrical, the support tube is arranged radially outwardly around the filter medium and the end plates are arranged on end faces of the filter medium , Furthermore, the flow through the filter element takes place from the inside to the outside, characterized in that the supporting body has means for substantially spatter-free drainage of the filtered liquid. Filter element according to claim 1, characterized in that that the support body through channels with a Channel contour, an entrance opening and an exit opening for the filtered liquid having a deflection of the filtered liquid done so through the channel contour that a direct horizontal liquid flow between entrance opening and outlet is prevented. Filter element according to claim 2, characterized in that that the passageways an inclination opposite have the horizontal, such that the projected area of the inlet opening essentially no horizontal overlap with the projected area the exit opening having. Filter element according to claim 2, characterized in that that the passageways in the course of the channel contour, a change of the inclination angle relative to the Horizontal, with a gradient following a slope or the other way around. Filter element according to claim 2, characterized in that that the passageways by axially superimposed arranged annular collar are formed, wherein the axial ends the respective ring collar a different diameter than having the axial ends of the respective adjacent annular collar. Filter element according to one of the preceding claims, characterized characterized in that the supporting body a thermoplastic, in particular polyamide by injection molding is made. Filter element according to one of the preceding claims, characterized in that the filter medium is folded in a zigzag shape and closed in an annular manner is. Filter element according to one of the preceding Claims, characterized in that the filter element is provided for cleaning a dielectric of a sinking or wire eroding machine.