DE19603689A1 - Separator removing particles below specified size from e.g. oil mists - Google Patents

Abstract

The separator removing particles from gases such as coolant, oil or fat mists, has at least two opposite rows of channels, which are open in cross section (10, 12). The profiles consist of, or have at least locally, a material (24, 26) insulating against high electrostatic potentials. Preferably, the sections are metal, e.g. aluminium, coated at least on the internal surfaces with the insulant, which is or contains e.g. polyester, its thickness being 1-500 mu m, pref. 1-10 mu m. The covering is applied at least locally, preferably internally and externally and is applied as a painted or plastic layer. Powder- or dip coating may be used.

Description

The invention relates to a separator for separating particles from gaseous Fluids such as cooling fluids, oil mists, grease mists, preferably in the form of at least two opposite rows arranged, in cross-section open channel-shaped first and second profile parts.

A corresponding separator can be found in EP 0 206 204 A1, with which it is used for the first time it was possible to mechanically separate particles from gaseous fluids which have a size in the µ range. The known separator stands out in particular from the fact that the longitudinal edges of the profile parts are arranged to overlap and also each have a projection on the inside, as a result of which the separator in Chambers is divided, through which the fluids to be cleaned accelerated or with the The result is slowed down so that the desired deposition takes place.

Other separators with approximately trough-shaped profiles are, for example, DE 26 41 765 C3 or DE 27 18 611 B2.

The present invention is based on the problem of a separator at the beginning mentioned type where to further develop that an increased separation of small particles,  in particular particles with a size of <3 μ becomes possible.

The problem is essentially solved in that the profile parts at least in areas are provided with at least one material with high electrostatic insulation capacity or profile parts consist of these.

Through the teaching according to the invention, the gases to be cleaned or particles to be separated to facing surfaces in such a way that in particular the mechanically small particles that can no longer be attracted, in particular particles <3 μ and thus attracted adhere to the separator and, if necessary, can agglomerate thereon, in order to then as larger particles to be removed in the usual way.

In particular, it is provided that the profile parts consist of metal such as aluminum and at least in their inner surfaces with the material with high electrostatic insulation are coated. It is according to a particularly noteworthy proposal of the invention provided that the profile parts on the outside in the area of the separator inlet electrically are conductive in order to exclude undesirable particle precipitation in this area.

Of course there is also the possibility to cover the entire profile parts with the high electrostatic insulating properties such as plastic or paint to coat. A polyester material or polytetrafluoroethylene can be used as the material be used or contain it. Of course there is also the possibility at least some of the profile parts of the separator completely made of plastic or the like to manufacture.

If the profile parts consist of an electrically conductive base material, that should be one Material with high electrostatic insulation properties has a layer thickness in the range have between 1 µ and 500 µ, especially in the range between 1 µ and 10 µ.

However, regardless of the actual thickness of the material, it must be ensured that the  Material that covers the profile parts with regard to their electrical conductivity.

The material itself can be powder coated or dipped onto the profile parts be applied so that there is a simple manufacturing process.

In order to discharge the electrostatically charged profile parts, if necessary, after one Another proposal provided that on the material that the high electrostatic insulation property, on the outside or penetrating the material, can be applied to earth potential Conductor material is provided.

The material used to generate the desired electric field should have a specific one Have resistance of preferably <10⁵ Ωcm, in particular <10⁸ Ωcm.

Further details, advantages and features of the invention result not only from the Claims, the features to be extracted from these - individually and / or in combination -, but also from the following description of the drawing preferred embodiments.

Show it:

Fig. 1 shows a section of a first embodiment of a separator and

Fig. 2-4 further embodiments of profile parts to form separators.

In Fig. 1, a section of a separator is shown, which comprises trough-shaped open profile parts 10 , 12 arranged in rows running parallel to one another, the longitudinal edges 14 , 16 of which engage behind such that 18 form between these chambers.

In other words, the profile parts 10 and 12 arranged in parallel rows are overlapping with respect to one another with respect to their longitudinal edges 14 , 16 in such a way that the longitudinal edges 14 of the profile parts 12 of one row engage in the profile parts 10 of the other row and vice versa.

Furthermore, the profile parts 10 , 12 starting from the apex of their inner surfaces on projections 20 , 22 which extend in the direction of the respective openings of the profile parts 10 , 12 , whereby further chambers are formed.

The arranged in rows and interlocking profile parts 10 , 12 are used to separate particles from gaseous fluids such as cooling fluids, oil mists or grease mists. Due to the chamber design, on the one hand, due to the overlapping longitudinal edges 14 and 18 and, on the other hand, due to the inner projections 20 , 22 , when the gaseous fluids to be cleaned flow through, the flow velocity is influenced in such a way that increased separation takes place.

According to the invention, it is now provided that the profile parts 10 , 12 are provided, at least in some areas, with a material with high electrostatic insulating capacity, which is identified in FIG. 1 by hatching and the reference numerals 24 , 26 .

The material, which can be a plastic coating or a varnish, can be applied by powder coating or by dipping. When flowing through the profile parts 10 and 12 , the surfaces are then electrostatically charged in such a way that the smallest particles are attracted to the correspondingly charged surfaces. As a result, a higher degree of separation is achieved, by means of which particles of a size of <3 μ are also detected.

Of course, it is not necessary that the profile parts 10 and 12 are completely provided with the material 24 , 26 which has a high electrostatic insulating capacity. It is also not absolutely necessary for the outer surfaces to have a corresponding material, without thereby restricting the invention.

In particular, the material 24 , 26 having the high electrostatic insulating capacity is a polyester material or polytetrafluoroethylene. There is also the possibility of producing the profile parts 10 , 12 themselves from such a material, in particular from plastic.

In order to discharge the profile parts 10 , 12, if necessary, a conductor material can be let into the corresponding materials or the material 24 , 26 can also be broken through the carrier material of the profile parts 10 , 12 made of electrically conductive material, and then by applying the conductor material to earth potential to achieve the desired discharge.

The material 24 , 26 having the high electrostatic insulating capacity should have a specific resistance of at least 10 Ω cm, in particular a specific resistance of more than 10 Ω cm.

The teaching according to the invention is of course not limited to profile parts 10 , 12 , as can be seen in FIG. 1. For example, FIGS. 2 to 5 purely in principle show further profile part shapes, which are also coated with a material that has high electrostatic insulation capacity in order to be able to separate the smallest particles.

Thus, the Fig. 2 are designed to be taken and also in the opposite rows of parent profile parts 28, 30 as a hollow profile, may be the area of the respective inner outgoing and in the longitudinal direction of the respective profile part 28, 30 extending projection 32 of solid construction or hollow . Due to the design as a hollow profile, there is the advantage that the profile parts 28 , 30 can optionally be flowed through by media of adjustable temperatures in order to enable a targeted separation of particles on desired profile parts or sections thereof.

Of FIG. 3 are profile parts 34, 36 can be seen, the V-shaped construction in section and bent in such longitudinal edges 38, 40 have that these run parallel to each other. The inner projections 42 , 44 , 46 can have different geometries, that is to say, for example, they can have a rectangular shape, a circular shape or a teardrop shape in their free end region. The end regions of the respective projections 42 , 44 , 46 are preferably connected to the profile parts 34 , 36 via webs.

Substantially a U-shape have profile parts 48, 50 of FIG. 4, wherein the respective longitudinal edges 52, 54 are folded inwardly, the desired chamber formations which results. In addition, the respective transverse limbs 56 , 58 of the U-profiles 50 , 52 can have T-shaped inner projections 60 , 62 in section.

Of Fig. 5 are profile parts 62, 64 can be seen, the purely in principle correspond with the profile parts 48, 50 of Fig. 4 with the limitation that the longitudinal edges are not kantet abge inward. Deviating from the profile parts 48 , 50 , the profile parts 62 , 64 have internal projections 66 , 68 , 70 of desired geometries such as knob, bar or web shape.

Detached from the special design of those described in the exemplary embodiments Profile parts and their assignment to each other can be done by the teaching of the invention, that is at least partially providing the profile parts with a high electrostatic Isolierver material can be achieved that with those formed by the profile parts mechanical separators particles can be separated, the size of which in particular Is <3 µ.

Claims (10)

1. separator for particles to be separated from gaseous fluids such as cooling fluids, oil mists, grease mists, preferably in the form of trough-shaped first and second profile parts ( 10 , 12 , 28 , 30 , 34 , 36 , 48 , 48) arranged in at least two opposite rows. 50 , 62 , 64 ), characterized in that the profile parts ( 10 , 12 , 28 , 30 , 34 , 36 , 48 , 50 , 62 , 64 ) are provided, at least in regions, with at least one material ( 24 , 26 ) having a high electrostatic insulating capacity or profile parts consist of this. 2. Separator according to claim 1, characterized in that the profile parts ( 10 , 12 , 28 , 30 , 34 , 36 , 48 , 50 , 62 , 64 ) consist of metal such as aluminum and at least in their inner surfaces with the material ( 24 , 26 ) coated with high electrostatic insulation. 3. Separator according to claim 1 or 2, characterized in that the material ( 24 , 26 ) high electrostatic insulating ability is a polyester material or contains it. 4. A separator according to at least one or more of the preceding claims, characterized in that the material ( 24 , 26 ) high electrostatic insulating capacity with a layer thickness in the range of preferably 1 to 500 microns, preferably 1 to 10 microns is up. 5. Separator according to at least one of the preceding claims, characterized in that the material ( 24 , 26 ), the profile parts ( 10 , 12 , 28 , 30 , 34 , 36 , 48 , 50 , 62 , 64 ) at least in regions, preferably inside and covers the outside with regard to their electrical conductivity. 6. Separator according to at least one of the preceding claims, characterized in that the material ( 24 , 26 ) as a lacquer or plastic layer on the profile part ( 10 , 12 , 28 , 30 , 34 , 36 , 48 , 50 , 62 , 64 ) is applied. 7. A separator according to at least one of the preceding claims, characterized in that the material ( 24 , 26 ) high electrostatic insulating capacity is applied by powder coating or by dipping. 8. A separator according to at least one of the preceding claims, characterized in that at least the separator inlet side outer surfaces of the profile parts ( 10 , 12 , 28 , 30 , 34 , 36 , 48 , 50 , 62 , 64 ) are electrically conductive. 9. Separator according to at least one of the preceding claims, characterized in that the profile part ( 10 , 12 , 28 , 30 , 34 , 36 , 48 , 50 , 62 , 64 ) with a layer of material ( 24 , 26 ) high electrostatic Insulation is covered, at least one conductor material that can be connected to earth potential being provided on the outside of the layer or penetrating it. 10. Separator according to at least one of the preceding claims, characterized in that the material having the high electrostatic insulating capacity ( 24 , 26 ) has a specific resistance of at least 10⁵ Ωcm, preferably of at least 10⁷ Ωcm.