CS237389B1 - Non-woven filtrating sorption fabric - Google Patents

Abstract

Filter-sorption nonwoven fabric intended for simultaneous disposal physiologically harmful, harmful substances such as nitrates, nitrides, nitro compounds, lead, antimony, cadmium, vanadium, chromium, arsenic, silver or residual hardness of water and foreign matter such as surfactants, herbicides, organophosphates, petroleum substances, free chlorine and similarly, from drinking water, characterized by that consists of 4 to 60% anionic or a cationic ion exchanger in which at least 80% of the particles are less than or equal to 40, µm, zev4 to 60% active coal in which at least 8? % of the particles have a size less than or equal to 40 nm; from 10 to 30% chemical fibers, from 2 to 10% acrylic polyelectrolyte or acrylate thickener and from 20 to 40% acrylate or styrone acrylate binder.

Description

(54)

Filter-sorption non-woven fabric

Filter-sorption non-woven fabric, especially intended for simultaneous removal of physiologically harmful, harmful substances, such as nitrates, nitrides, nitro compounds, lead, antimony, cadmium, vanadium, chromium, arsenic, silver or residual hardness of water and foreign substances such as for example, surfactants, herbicides, organophosphates, petroleum substances, free chlorine and the like, from drinking water, characterized in that it consists of 4 to 60% of an anionic or cationic ion exchanger in which at least 80% of the particles have a particle size of less than or equal to 40 µm , _in 4 to 60% activated carbon in which at least 8? % of the particles have a size less than or equal to 40 nm. from 10 to 30% chemical fibers, from 2 to 10% acrylate polyelectrolyte or acrylate dens, and from 20 to 40% acrylate or styrone acrylate binder.

(52) Int. Cl?

D 04 H 1/14, B 01 D 39/06

237 389

237 389

BACKGROUND OF THE INVENTION The present invention relates to a filter-sorption nonwoven fabric, in particular for the simultaneous removal of physiologically harmful substances such as nitrates, nitrides, nitro compounds, lead, antimony, cadmium, vanadium, chromium, arsenic, silver or phosphate, free chlorine and the like, from drinking water.

There are known ion exchangers, anion exchangers and cation exchangers, by means of which ionic exchange of drinking water can achieve below the limit values of physiologically harmful substances or completely eliminate these substances.

Processes for treating water with ion exchangers are generally known. However, they are used only for the treatment of larger amounts of water, i.e. for the specialty sectors of the chemical industry, food industry, cosmetics and the like. The treatment of water with granular or powdered activated carbon is also well known. However, it is used for a narrow water treatment area, and is not expensive and requires special complex equipment, preventing it from spreading to a wide network of consumers.

The use of ion exchangers and activated carbon in households is difficult for consumers, as it requires special equipment and widespread adherence to working procedures, both in use and during regeneration. Another disadvantage of granulated ion exchangers and granulated coal in the purification of drinking water is the small specific surface area, the low functional surface area relative to the specific surface area.

237 389 powder ion exchangers and powdered activated carbon. However, the use of powdered active substances is very problematic, ion exchangers are not practiced in practice and with powdered activated carbon only for special purposes in the form of alluvial filters, which is. complex and bulky equipment.

The aim of the invention is to reduce the disadvantages of the existing technique, to simplify filtration procedures and to remove physiologically harmful and toxic substances from drinking water directly to consumers.

The essence of the filter-sorption nonwoven according to the invention consists in that it consists of 4 to 60% anionic or cationic ion exchanger, 4 to 60% activated carbon, 10 to 30% chemical fibers, 2 to 10% acrylate polyelectrolyte or acrylate dies up to 20 to 40% acrylic or styrene acrylate binder, which the chemical fibers bind together.

The advantage of the filter-sorption nonwoven according to the invention is that it allows simple filtration with simultaneous removal of unwanted anions or cations, also removing foreign substances, possibly toxic, such as pesticides, herbicides, organophosphates, petroleum substances, free chlorine and the like. in a simple manner directly to consumers, the efficiency being higher than that of granular ion exchangers or granular activated carbon.

Example 1

The filter-sorption non-woven fabric consists of a polyester staple fleece with a fiber fineness of 1.7 and 4.4 dtex in a ratio of 50/50% and a fiber length of 38 to 120 mm and a basis weight of 36 gm ^-2 reinforced by spraying an aqueous dispersion of acrylate binder. so that the resulting basis weight of the preconsolidated fiber formation is 60 gm, of acrylic binder in an amount of "2 -2

g.m, an acrylate electrolyte u of 9 g.m, a finely ground anionic ion exchanger of 13 g.m in which at least 80% of the particles have a particle size of less than or equal to 40 µm and a finely ground powdered activated carbon of 112 g.m "

237,389 wherein at least 87% of the particles have a particle size of less than or equal to 40 µm. The total basis weight of the filter-sorption nonwoven fabric is 250 g.m 2.

Example 2

A filter-sorption nonwoven fabric as in Example 1, except that instead of an anionic ion exchanger of 13 gm " there is a cationic ion exchanger of 112 gm < 2 > and the amount of < 2 >

Example 3

A filter-sorption nonwoven fabric as in Example 1, except that the web is composed of a 50% polyamide staple with a fiber fineness of 3.9 dtex and a fiber length of 60 to 90 mm and a 50% viscose staple with a fiber fineness of 3.1 dtex and a fiber length of 38 to 80 mm.

Example 4

The filter-sorption nonwoven fabric consists of a nonwoven fabric as in Example 1, strengthened by water spray dispersion in a -2 styrene acrylate binder such that the total weight is 40 gm -2, of styrene acrylate binder 33 gm, of acrylate -2 polyelectrolytes in an amount of 5 gm, of a finely divided cationic ion exchanger of 7 gm- in which at least 80% of the particles have a particle size of less than or equal to 40 µm and of a finely ground powdered activated carbon in an amount of 65 gm in which straight 40 yam. The resulting basis weight -22 of the filter-sorption nonwoven fabric is 150 g.m.

Example 5

A filter-sorption nonwoven fabric as in Example 4, except that instead of finely ground an ion exchanger in an amount of 22

g.m there is a finely ground anionic ion exchanger in an amount of 22

g.m and the amount of finely ground powdered activated carbon is changed to 7 g.m. Instead of acrylic polyelectrolytes, there is an acrylic thickeners.

Claims (1)

SUBJECT OF THE INVENTION 237 389 Filter-sorption non-woven fabric, bonded with acrylate or styrene acrylate. binder, especially for the simultaneous removal of physiologically harmful substances such as nitrates, nitrides, nitro compounds, lead, antimony, cadmium, vanadium, chromium, arsenic and silver cations or residual hardness of water and foreign substances such as surfactants, herbicides, organosulphates, petroleum substances, free chlorine and the like, from drinking water, containing chemical fibers, acrylate polyelectrolyte or acrylic dung, activated carbon and ion exchanger, characterized in that it consists of 10 to 30% chemical fibers, from 4 to 60 % of anionic or cationic ion exchanger in which at least 80% of the particles have a particle size of less than or equal to 40 µm, of from 4 to 60% activated carbon in which at least 87% of the particles have a particle size of less than or equal to 40 µm, of 2 to 10% of acrylate and 20-40% acrylic or styrene acrylate binder.