DE4038966A1 - Filter element - comprises folded filter medium incorporating thermoplastic spacers - Google Patents

Abstract

In a filter made of a long strip of a folded filter medium, the novelty is that the folded surfaces are kept apart by spacers; that the spacer surfaces are smooth and hemispherical; that the face of the spacer in contact with the filter medium lies flush and is glued or welded to the surface; that the spacer is applied as a viscous mass in droplet form which subsequently cures and hardens to a mushroom shape whose shaft penetrates the filter; that the other end of the spacer shaft receives a quantity of viscous material to form another spacer on the other side; that the spacers are arranged in a regular dot matrix pattern. A suitable filter medium (10) is folded and incorporates uniform rows of plastic spacers (2, 2'). Each spacer consists of a rod passing through the filter medium with a hemispherical head at each end. USE/ADVANTAGE - The spacers keep adjacent faces of the filter medium apart. The spacers are low-cost and cannot shift.

Description

The invention relates to a filter element consisting of a pleated filter medium, whereby the Fil Termedium keeps the individual folds at a distance tel are available.

Filter elements of the type mentioned are generally known and are widely used for various filtering purposes, especially in air filters of all kinds, in use. The spacing provided on the filter medium tel serve to compress the folds as a result of the inevitably occurring differential pressure avoid. These spacing agents can un be differently trained.

From DE-PS 12 48 618 and from DE-OS 33 00 293 it is known to ver the filter medium with embossments see the z. B. have the shape of beads, which as Spacers act. The disadvantage here is that the like spacers only in embossable filter media can be introduced, because of the applicability the limited choice of materials.

From DE-PS 33 41 026 it is known to flow into the side folds of the filter medium strip-shaped ge corrugated support body insert, the corrugation height of the tip of the fold increases towards the open side. A disadvantage here is that a high materi al, manufacturing and assembly costs for such fil  terelemente is required. Another disadvantage is viewed here that under operating conditions, at which vibrations of the filter element occur as a result of relative movements between filter medium and support bodies to an increased, unpredictable ver wear of the filter medium and consequently too unpredictable visible breakthroughs of the filter medium.

Finally, it is also known to use the filter medium a rigid support body, e.g. B. a wire mesh, too provided and the support body together with the Filterme fold dium. Here too there are disadvantages high material and manufacturing costs and an increased ten wear due to relative movements between Filter medium and support fabric.

It is therefore the task of a filter element to create the type mentioned, in which the Fil termedium regardless of its embossing properties professional and cost-effective as well as material-saving with effective men and the service life of the filter element pregnant spacers for wrinkles is predictable.

This object is achieved according to the invention by a filter element of the type mentioned, which is characterized in that the spacers Average distributed over the surface of the filter medium ordered, raised Ab connected with the filter medium are steadfast.

Through these spacers, which are separate, So un of the material properties of the filter medium are dependent elements and on the other hand because of their connection with the filter medium harmful relative he will not be able to make movements to this is sufficient that the folds of the filter medium regardless of  its embossing properties safely at a distance from each other are kept without increased wear of the Filter medium due to the presence of the spacers can occur. The spacers can be relative seen very small to the surface of the filter medium be flat, so that no noticeable min change of the active filter area occurs. Through this The weight of the filter element hardly becomes a spacer increased so that subsequent changes, e.g. B. on the support construction of the filter element, not necessary will.

With the new filter element, the material of the filter mediums can be selected practically arbitrarily, since the Er finding different ways of connecting filters medium and spacers. Also The shape and arrangement of the spacers can correspond Who varies according to the requirements of the individual case the. In this regard as well as further configurations and Developments of the invention are in the dependent claims Chen specified.

The following are exemplary embodiments of the invention explained using a drawing. The figures of the drawing show:

Fig. 1 shows a section of a pleated filter medium with different spacers in plan view;

Fig. 2a and Fig. 2b respectively a folded filter medium with spacers in two different versions union in partial cross section,

Fig. 3, 4, 5a, 5b, 6a and 6b different distance holder in section, in enlarged representation,

Fig. 7 and Fig. 8, two different Abstandshal ter in cross-section during its attachment to the filter medium and

Fig. 9a and Fig. 9b a further spacer in longitudinal and cross section.

In Fig. 1 of the drawing, a section of a still unfolded filter medium 10 for a filter element is shown. With the lines 11 ' and 12' , the fold lines for forming the folds 11 and 12 are indicated, the dash-dotted lines 11 ' showing the position of the fold lines on the flow side and the dashed lines 12' showing the position of the fold lines downstream. Wei terhin is in the embodiment shown here in the first fold 12, an arrangement of spacers 2 is provided, each two spacers 2 by means of a transverse to the longitudinal direction connec tion web 25 are connected to a pair of spacers. A number of these pairs of spacers 2 is arranged in a regular arrangement on the fold 12 of the Fil termediums 10 .

In the second fold 12 in FIG. 1, ie in the right fold 12 here , a number of individual spacers 2 are provided in the same arrangement as in the left fold 12 , each of which has no connection to one another.

As can also be seen from FIG. 1, the spacers 2 are knob-shaped at their top, so that they have no wear-promoting edges and corners. The spacers 2 can be connected to the filter medium 10 in different ways, as will be explained in the following.

Fig. 2a shows a section of an already folded filter medium 10 of a filter element 1 in cross section, here various spacers 2 and 2 'can be seen in side view. The spacers 2 and 2 'are each again provided on the folds 12 , while here on the folds 11 , which are each between the fold th 12 , no spacers are arranged. The kink lines 11 'are in Fig. 2a above, ie on the upstream side, while the kink lines 12 ' are now in Fig. 2a below, ie on the downstream side. In each case two spacers 2 and 2 'lie opposite each other with the interposition of the fold 12 of the filter medium 10 and are mechanically connected to each other. So that each forms a spacer 2 and a counter-spacer 2 'a double spacer.

As indicated by flow arrows, the liquid or gas to be filtered flows, e.g. B. air, as shown in FIG. 2a from above into the spaces 13 between the folds 11 and 12 . After flowing through the filter medium 10 , the filtered air flows according to the flow arrows shown in the lower part of FIG. 2a. Inevitably, there is a differential pressure within the filter element 1 , which increases with increasing operating time and thus contamination of the filter medium 10 . As a result, the upstream fold spaces 13 widen over time, while the upstream fold spaces 14 become narrower. A complete juxtaposition of the folds 11 and 12 of the filter medium 10 is excluded by the presence of the spacers 2 and 2 '. It is sufficient when using the double spacers 2 , 2 ' described with reference to Fig. 2a, te at every second Fal, ie only to be attached to the folds 12 . This version of the filter element 1 is particularly suitable for relatively insensitive filter media 10 , in which there is no risk of damage from contact with the adjacent spacers 2 , 2 '.

Fig. 2b of the drawing shows in the same Darstellwei se as Fig. 2a a modified version of the Filterele element 1 , also with double spacers 2 , but here both on the folds 11 and the fold th 12 are attached. In Fig. 2b, the flow to the filter element 1 takes place from above and the outflow downward. With increasing differential pressure, the outflow-side fold spaces 14 also tend to narrow here, but a complete juxtaposition of the folds 11 and 12 is prevented here by the spacers 2 'and 2 coming into contact with one another with increasing distance reduction. As can further be seen from Fig. 2b, a spacer 2 always comes into contact with another spacer 2 ', so that a frictional contact between spacer 2 ' or 2 and filter medium 10 cannot occur here. For this reason, the arrangement and attachment of the spacers 2 described here is particularly suitable for wear-sensitive filter media 10 .

FIGS. 3, 4, 5a, 5b, 6a and 6b show different Liche embodiments of the spacer 2, 2 'as well as various connections between these and the filter medium 10.

In Fig. 3 is first a double spacer Darge provides that consists of two interconnected spacers 2 and 2 '. Each spacer 2 , 2 'be sits a head 21 or 21 ' with an approximately semi-spherical top 20 or 20 '. From the underside of the head 21 or 21 'is a shaft 22 or 22 ' from, the shaft 22 of the upper spacer here 2 has a diameter recess and the shaft 22 'of the lower spacer 2 ' has a suitable recess. For connection between the upper spacer 2 and the lower spacer 2 ', these are inserted and pressed together in the area of their shafts 22 and 22 ', with a corresponding and dimensioned connection of the shaft 22 and the recess in the shaft 22 'being achieved can. Furthermore, FIG. 3 that the two spacers on the outside have 2 and 2 'at their the filter medium 10 facing underside of the head 21 or 21' has a circumferential, face the filter medium 10 de edge 26 or 26 '. By means of the connected state of the spacers 2 and 2 'against opposite edges 26 and 26 ', the filter medium 10 is held clamped between the spacers 2 and 2 ', so that here free passages for the medium to be filtered, e.g. B. air, can not arise. This is particularly important if previously the filter medium 10 for the attachment of the spacers 2 , 2 'with appropriately arranged openings, z. B. in the form of punching tongues has been provided.

In the exemplary embodiment according to FIG. 4, an individual spacer 2 is connected to the filter medium 10 by means of an adhesive layer 24 , the adhesive layer 24 being partially diffused into the filter medium 10 . The spacer 2 also has an approximately hemispherical upper side 20 here , but in contrast to the previous exemplary embodiment a completely flat underside which is in contact with the adhesive layer.

FIGS. 5a and 5b of the drawings show an exporting approximately for the spacer 2, 2 ', in which on each side of the filter medium 10, two Benach disclosed spacer 2 and two adjacent spacing holder 2' respectively to one another via a connecting web 25 or 25 'Are connected to a pair, as is already shown in Fig. 1 in the left part of the drawing in view. As shown in FIGS. 5a and 5b further show, the connecting webs 25 and 25 'are each arranged so that they have a distance from the surface of the filter medium 10, so that the presence of the webs 25 and 25', no reduction of the effective filter surface can occur. At the same time, the manufacture and attachment of the spacers 2 , 2 'is simplified by the webs 25 , 25 ', since fewer individual parts are to be handled. In addition, the web 25 , 25 'for handling the spacers 2 , 2 ' by a suitable te, not the subject of the invention, attachment device can be used.

In addition to a knob shape, the spacers 2 and 2 'can also have the shape of elongated webs, as the longitudinal section shown in Fig. 6a and the cross section shown in Fig. 6b through such a double spacer 2 , 2 ' show. From these two spacers 2 and 2 'are also formed on the top edge and corner free and each underside with means of two shafts 22 and 22 ' in a similar manner as in the embodiment of FIG. 3 clamped together. They also include the filter medium 10 in the area of the shafts 22 and 22 'tend between you. To attach the spacers 2 and 2 ', the filter medium 10 has also been expediently seen beforehand with suitable openings.

Fig. 7 shows a spacer 2 during its attachment to the filter medium 10th The spacer 2 be sits here first a single head 21 with an approximately hemispherical top 20 . A shaft 22 extends downward from the underside of the head 21 and is initially pointed at its front end. The spacer 2 consists of a thermoplastic material that is deformable under the action of heat. The initially pointed shaft 22 can be shaped into a rounded second head by means of an indicated forming die 3 , which can be heated and can be moved in the direction of the shaft 22 of the spacer 2 from the underside of the filter medium 10 . This achieves a particularly firm and secure connection of the spacer 2 with the filter medium 10 . At least on its upper head 21 , this spacer 2 also has a circumferential edge 26 on the underside for the sealing clamping of the filter medium 10 .

Fig. 8 shows a double spacer 2 , 2 ', which again consists of two individual spacers 2 and 2 '. These spacers correspond in their outer shape to the spacers 2 and 2 'according to Fig. 3a. In contrast to this, however, here the connection between the spacers 2 and 2 'by means of a positive connection, for which purpose the upper spacer 2 in FIG. 8 has a recess 23 in its shaft 22 with a circumferential additional recess lying on the inside, and for which purpose in FIG. 4b lower spacer 2 'has a shaft 22 ' with a circumferential thickening, so that a positive locking connection by pressing on the two spacers 2 and 2 'according to the two movement arrows shown can be achieved.

Figs. 9a and 9b, finally, show an execution example of the spacer 2, in which it is not connected with the filter medium 10 as a pre-made, solid body, but wherein the distance holder 2 as the first viscous hardenable mass to the filter medium 10 is applied. In the exemplary embodiment shown here, the spacer 2 is applied to the filter medium 10 in the form of a bead, the material of the spacer 2 partially penetrating into the upper region of the filter medium 10 . By suitably adjusting the viscosity of the mass forming the spacer 2 during its discharge and due to the inherent surface tension of such a mass, the desired shape of the spacer 2 can largely be predetermined without the need for a casting mold or the like outer form. Thus, as shown in FIG. 9b in particular, these spacers 2 also have an edge that is free of edges and corners, which can not cause any particular wear on contact with an adjacent fold of the filter medium 10 . Alternatively, such spacers 2 can also be applied in the form of drops.

Regardless of the design of the spacers 2 and 2 'in individual cases, their attachment to the filter medium 10 can easily be carried out automatically and at high speed with a suitable device, so that the additional outlay for processing the filter medium 10 for the filter element 1 is limited . From the spacers 2 , 2 'can be used for any filter media 10 , since their attachment can take place according to the material properties of the respective filter medium 10 in a variety of ways. As a material for the spacers 2 , 2 'is particularly suitable thermoplastic or thermosetting plastic, since this is inexpensive and easy to edit. Because of the particularly high wear resistance of the filter elements 1 equipped with the new spacers 2 , 2 , these are also suitable for applications with particularly high safety requirements, e.g. B. at the Asbestsanie tion, or as a breathing air filter for dust-laden workplaces. When attaching the spacers 2 , 2 'both on the inflow side and on the outflow side is also achieved that even when cleaning the filter element by means of a short-term flow reversal, for. B. known as backwashing or backwashing, the upstream, the filter particles containing folds 13 are kept open. With the new filter element, filters can be implemented that have improved operational properties in every respect.

Claims (24)

1. Filter element, consisting of a filter medium laid in folds, the individual medium holding spacing means on the filter medium being present, characterized in that the spacing means distributed over the surface of the filter medium ( 10 ) arranged with the filter medium ( 10 ) connected, raised spacer ter ( 2 , 2 '). 2. Filter element according to claim 1, characterized in that the spacers ( 2 , 2 ') are knob-shaped. 3. Filter element according to claim 1, characterized in that the spacers ( 2 , 2 ') are web-shaped. 4. Filter element according to at least one of claims 1 to 3, characterized in that the Abstandshal ter ( 2 , 2 ') have a smooth, curved top ( 20 , 20 '). 5. Filter element according to at least one of claims 1 to 4, characterized in that the spacer ter ( 2 , 2 ') are flat on the filter medium ( 10 ) are set. 6. Filter element according to claim 5, characterized in that the spacers ( 2 , 2 ') are glued to the filter medium ( 10 ). 7. Filter element according to claim 5, characterized in that the spacers ( 2 , 2 ') with the filter medium ( 10 ) are welded. 8. Filter element according to claim 5, characterized in that the spacers ( 2 , 2 ') are applied as an initially viscous, curable mass to the filter medium ( 10 ). 9. Filter element according to claim 8, characterized in that the curable mass is applied in drop form to the filter medium ( 10 ). 10. Filter element according to claim 8, characterized in that the curable mass is applied in a caterpillar shape to the filter medium ( 10 ). 11. Filter element according to at least one of claims 1 to 4, characterized in that the spacer ter ( 2 , 2 ') selectively put the filter medium ( 10 ) through. 12. Filter element according to claim 11, characterized in that the spacers ( 2 , 2 ') mushroom-shaped with a on the filter medium ( 10 ) resting head ( 21 , 21 ') and a filter medium ( 10 ) penetrating shaft ( 22 , 22 ') are formed. 13. Filter element according to claim 12, characterized in that the filter medium ( 10 ) penetrating shaft ( 22 ) of the spacer ( 2 , 2 ' ) is initially pointed and after piercing the filter medium ( 10 ) to produce a double Ab stand holder is deformed into a second head ( 21 '). 14. Filter element according to claim 12, characterized in that the filter medium ( 10 ) penetrating shaft ( 22 ) of the spacer ( 2 ) with a from the opposite side of the filter medium ( 10 ) feedable matching counter-spacer ( 2 ') to one Double spacer is connectable. 15. Filter element according to claim 14, characterized in that the connection between the spacer ( 2 ) and counter-spacer ( 2 ') is a positive or non-positive mechanical latching or clamping connection. 16. Filter element according to claim 14, characterized in that the connection between the spacer ( 2 ) and counter-spacer ( 2 ') is an adhesive or welded connection. 17. Filter element according to at least one of claims 11 to 16, characterized in that the head ( 21 , 21 ') of the spacer ( 2 , 2 ') underside at its outer edge with a circumferential in the direction of the filter medium ( 10 ) pointing Edge 26, 26 ' ) is seen ver and that two a double spacer ( 2-2 ') forming spacer heads ( 21 , 21 ') the filter medium ( 10 ) with its underside edges ( 26 , 26 ') clamp between them. 18. Filter element according to at least one of claims 1 to 17, characterized in that double spacers ( 2-2 ') are arranged on every second fold ( 12 ) of the Fil termediums ( 10 ). 19. Filter element according to at least one of claims 1 to 17, characterized in that spacers ( 2 , 2 ') on each fold ( 11 , 12 ) of the filter medium ( 10 ) are arranged such that in the folded state of the filter medium ( 10 ) the heads ( 21 ) of the spacer ( 2 ) from one fold ( 11 ) in opposite position to the heads ( 21 ) of the spacer ( 2 ') of the adjacent fold ( 12 ). 20. Filter element according to at least one of claims 1 to 19, characterized in that in each case a plurality of spacers ( 2 , 2 ') of a fold ( 11 ; 12 ) are connected to one another via thin, uniform connecting webs ( 25 ). 21. Filter element according to claim 20, characterized in that the connecting webs ( 25 ) in one of the discharge or failure direction of the filtered filter material corresponding orientation on the fold th ( 11 , 12 ) of the filter medium ( 10 ) are arranged at a distance from this. 22. Filter element according to at least one of claims 1 to 21, characterized in that the spacer ter ( 2 , 2 ') consist of a thermoplastic material. 23. Filter element according to at least one of claims 1 to 21, characterized in that the spacers ( 2 , 2 ') consist of a thermosetting plastic. 24. Filter element according to at least one of claims 1 to 23, characterized in that the spacer ter ( 2 , 2 ') are introduced in one operation before folding or with the folding of the filter medium ( 10 ).