DE102008035934A1 - filter media - Google Patents

Abstract

A filter medium, in particular a vacuum cleaner bag, comprises at least one layer of at least two different fiber materials, which has a dielectric constant according to DIN 53482 differing by at least the value of 1, at least a third fiber material with a low electrical conductivity being provided for the charge storage. This achieves a considerable dust storage capacity.

Description

The The present invention relates to a filter medium for filtering Air, in particular for use as a vacuum cleaner bag.

It it is known to use filter media for vacuum cleaner bags, which have a pre-filter, fine filter and supporting layer. usual Dust bags usually consist of three to six layers of different Filter media such as meltblown and spunbond, which are usually made of polypropylene consist. In addition, higher quality bags often still have a further layer to prefilter the air and are usually Carded or airlaid nonwovens made of polyester or mixtures of pulp (Cellulose fibers) and polyester Bicomponentenbindefaser with Spunbond layers can be reinforced.

From the DE 20 2005 019 004 various filter materials are disclosed, which are formed from one or more layers of nonwoven fabric and have a high degree of separation. Such filter materials are used, for example, as a vacuum cleaner bag or as a filter material for air conditioners, vehicle filters, etc. However, the use of multilayer nonwoven material has the disadvantage that the fluffy material has a high degree of separation, but only a low strength. The use of a spunbond web to increase strength would greatly increase the cost of the filter material. There is also the problem that when the filter material is added, the suction power decreases.

It It is therefore an object of the present invention to provide a filter medium create that improved filtration performance and increasing Contamination has a largely constant suction power.

These Task is with a filter medium with the features of the claim 1 or claim 2 solved.

According to the invention, the filter medium comprises at least one layer of at least two different fiber materials, which, on the basis of a dielectric constant which differs by at least the value of 1, preferably by the value 2 or 3 DIN 53483 at 50 Hz are able to charge triboelectrically in opposite directions and at least one of the two fiber materials has an electrical surface resistance of less than 10E11 ohms / cm according to DIN 53482 wherein at least a third fiber material with a low electrical conductivity is provided for the charge storage.

According to another embodiment of the invention, the filter medium comprises at least two superposed layers, each consisting of a fiber material, which has a by at least the value 1, preferably by the value 2 or 3, different dielectric constant according to DIN 53483 have at 50 Hz and are thus able to charge triboelectrically in opposite directions and at least one of the two fiber materials has an electrical surface resistance less than 10E11 ohms / cm according to DIN 53482 wherein at least a third fiber material with a low electrical conductivity is provided for the charge storage.

Surprisingly has been found that, in particular when using a novel Filter medium, in particular as a pre-filter layer, a fiber mixture from strongly different fiber materials to a distinct one Improvement of dust retention causes what is up a triboelectric charging of the fibers are returned can. It is crucial that both the dielectric constants differ from at least two fiber materials, so that upon contact comes to a charge transfer. This can remove the dust be significantly improved. The third fiber material with an extremely low electrical conductivity serves as a charge storage and can be permanently charged electrostatically.

Preferably is the location or are layers through a dry or wet laid Nonwoven made by needling or water jetting, through Adhesive powder or Bicomponentenfasern is solidified. It can the location or locations by at least one additional location, preferably made of spunbond, stabilized.

Around To improve the dust retention, the at least a layer a fiber gradient in terms of fiber diameter has, wherein the fiber diameter increases towards the upstream side, so that coarser particles are filtered further out become. In addition, the filter medium can be a layer with a fiber gradient in terms of fiber density, wherein the fiber density for Outflow side increases.

According to one Another embodiment of the invention are at least two layers provided, wherein the location on the upstream side of a larger fiber diameter has as an adjacent location on the downstream side. At least two or more layers may also be provided be, wherein the location each on the downstream side a has higher fiber density than an adjacent layer on the Inflow.

Preferably, the filter medium comprises a third fiber material having a surface electrical resistance greater than 10E13 ohms / cm, preferably greater than 10E14 ohms / cm, according to DIN 53482 has, so that a permanent electrostatic charge is possible. As a result, the third fiber material is particularly well suited as a charge storage.

Further can for loosening the filter medium at least one of the fiber materials Have fibers that are strongly bent or spiraled are, and thereby make the nonwoven fabric particularly porous. Further, by this Ausges taltung the air permeability and the dust storage capacity is increased. For such a further fiber material are, for example, cellulose, Viscose fibers or nylon.

Around To charge the filter medium electrostatically, it can by means of plasma or corona treatment, needling or other introduction mechanical friction or stress, pretreated as compressed air jets be.

The Filter medium can be used for increasing the dust storage capacity a layer of positively charged polymer and a layer of a negatively charged polymer, between which one Polypropylene layer is arranged as a charge storage

The invention will be described in more detail below with reference to an exemplary embodiment:
An air-permeable filter medium for a vacuum cleaner bag comprises a combination of different layers, in particular a pre-filter fleece, a coarse dust accumulator, a fine filter and a stabilizing layer.

in this connection the pre-filter retains coarse dirt> 1 mm, has an air permeability of> 1000 liters / square meter s, a thickness <0.5 mm and a basis weight between 15-100 g / sqm on. The prefilter is preferably made of a spunbonded nonwoven fabric or a perforated or slotted foil.

Of the Coarse dust accumulator acc. the preceding claims and stores dirt <1 / mm, has an air permeability of> 500 liter / sq. s, a thickness of 0.5-5 mm, preferably 1-2 mm and a basis weight between 20-200 gsm.

Of the Fine filter retains fine dirt> 0.0001 mm, and points an air permeability of> 200 liter / m² × s, a thickness <0.5 mm and a Basis weight between 15-80 gsm. The fine filter exists preferably from a spun nonwoven, a meltblown or a spin-fleece meltblown Combination like SM, SMS, SMMS, SMSMS, etc.

The stabilizing layer, has an air permeability of> 500 liter / qm × s, a thickness <1 mm and a basis weight between 15-100 g / sqm and preferably consists of a spunbonded, a Gittergelege or a perforated or slotted foil.

alternative is it possible, with tear resistant execution of the coarse dust storage to dispense with the prefilter.

Farther It is advantageous, in addition to the fine filter layer, an additional Feinstfilterschicht in the form of a layer of nanofibers with a Fiber diameter of 10-2000 nm bring. The nanofiber layer retains fine dirt and has an air permeability of> 500 liter / qm × s, a thickness <0.1 mm and a basis weight between 0.01-2 g / sqm on. Preferably, the nanofiber layer is directly on the fine filter layer, z. B. filed a meltblown. Here is both a layer Nanofibers on the downstream side conceivable, as well as a Layer on the upstream side, as well as to increase the filter performance both on the inflow and outflow side.

In the case of the filter medium, at least one layer consists of at least two different fiber materials, or two adjacent layers consist of two different fiber materials which, on account of a dielectric constant differing by at least the value of 1, preferably by at least 1.5 DIN 53483 at 50 Hz are able to charge triboelectrically in opposite directions. The dielectric constants of the two fiber materials preferably differ by more than 2 or 3. At least one of the fiber materials has an electrical surface resistance of less than 10E11 ohms / cm DIN 53482 on.

Furthermore, a third fiber material with an extremely low electrical conductivity is provided for the charge storage. The third fiber material has an electrical surface resistance greater than 10E13 ohms / cm, preferably greater than 10E14 ohms / cm, according to DIN 53482 and is therefore particularly well suited as a charge storage.

The following polymers or fibers are particularly suitable for the filter medium according to the invention:
PE, PP, PS, ABS, PAN, PES, PC, PMMA, PA, PUR, TPU, PES, PVA, POM, EVA, PEO, PVC, cellulose, viscose, melamine, wool, cotton, glass wool, rock wool.

The selection of fibers or fiber mixtures is such that a triboelectric Aufla tion of the two fiber materials even in the production is possible, so that the filter properties are improved.

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 202005019004 [0003]

Cited non-patent literature

• - DIN 53483 [0006]
• - DIN 53482 [0006]
• - DIN 53483 [0007]
• - DIN 53482 [0007]
• - DIN 53482 [0012]
• - DIN 53483 [0023]
• - DIN 53482 [0023]
• - DIN 53482 [0024]

Claims (13)

Filter medium, in particular vacuum cleaner bags, with at least one layer of at least two different fiber materials, which differ by at least the value of 1 Dielectric constant according to DIN 53483 at 50 Hz are able to charge triboelectrically in opposite directions and at least one of the two fiber materials has an electrical Surface resistance less than 10E11 ohms / cm according to DIN 53482, wherein at least a third fiber material having a low electrical conductivity for charge storage is provided. Filter medium, in particular vacuum cleaner bag, with at least two superimposed layers, each consisting of one Consist fiber material, which has a different dielectric constant by at least the value of 1 according to DIN 53483 at 50 Hz and so in are able to charge triboelectrically in opposite directions and at least one of the two fiber materials has an electrical surface resistance smaller than 10E11 ohms / cm according to DIN 53482, wherein at least a third fiber material having a low electrical conductivity is intended for charge storage. Filter medium according to claim 1 or 2, characterized that the layer or layers through a dry or wet-laid nonwoven is made by needling or water jetting, by Adhesive powder or Bicomponentenfasern is solidified. Filter medium according to one of claims 1 to 3, characterized in that the layer or layers by at least an additional layer, preferably spunbond, stabilized is. Filter medium according to one of claims 1 to 4, characterized in that at least one layer a fiber gradient in terms of fiber diameter, and the fiber diameter for Upstream side increases. Filter medium according to one of claims 1 to 5, characterized in that at least one layer a fiber gradient in terms of fiber density and fiber density to the downstream side increases. Filter medium according to one of claims 1 to 6, characterized in that at least two layers provided are, the situation on the upstream side of a larger Fiber diameter has as an adjacent location on the downstream side. Filter medium according to one of claims 1 to 7, characterized in that at least two layers provided are, the situation on the downstream side a higher Has fiber density as an adjacent layer on the upstream side. Filter medium according to one of claims 1 to 8, characterized in that the third fiber material, a electrical surface resistance greater 10E13 ohms / cm, preferably greater than 10E14 ohms / cm, according to DIN 53482. Filter medium according to claim 9, characterized that the further fiber material comprises fibers which are strongly bent or spirally formed, and thereby the nonwoven fabric make it particularly porous. Filter medium according to one of claims 1 to 10, characterized in that the filter medium electrostatically charged, preferably by means of plasma or corona treatment, Needling or otherwise introducing mechanical friction or Stress, such as compressed air jets. Filter medium according to one of claims 1 to 11, characterized in that the filter medium is a layer of a positively charged polymer and one layer of a negatively charged one Polymer comprises, between which a polypropylene as a charge storage is arranged. Vacuum cleaner bag characterized in that the Vacuum cleaner bag a filter medium according to one of the preceding Claims.