FI74317B - OEVERSVAEMNINGSVATTENSKYDD. - Google Patents

Description

1 7431 7

FLOOD PROTECTION - öVERSVAMNINGSVATTENSKYDD

Sandbags have long been used as protective dams against flood water, as a rapid sealing method in fractures, as door and window closures against intrusive water, and as height-increasing flood defenses in flood defenses. The advantage of sandbags is their good stability due to their weight and their ability to adapt to uneven environments. The disadvantage is that large quantities can hardly be stored or transported, so if necessary, the bags are only filled on site, which may not be time for 10.

On the other hand, attempts have also been made to use large coated fabric hoses filled with water as protective dams. The advantage of this method is the good storability of the folded hoses and the easy availability of the water used as the filling material. The disadvantages are that large hoses only adapt poorly to local conditions, and that filling requires strong high-performance pumps and water poles. Moreover, sufficient stability of the hoses is achieved only when a considerable part of the filled hose is still above the surface of the water, since only in this way does the contents of the hose have a sufficient weight. The object of the invention is to provide a method which has the advantages of a sandbag, but not its disadvantages, and in which it is possible to erect protective dams against water without a filling step.

According to the invention, this problem is solved by flood protection, which is characterized in that the protection contains a water-insoluble, highly water-swellable polymer in a form with at least one dimension small enough to ensure rapid absorption of water. The permeability of the shield allows rapid penetration of water, but still prevents the non-swellable polymer from falling out.

When such a water-permeable shield, for example in the form of a sack, with the sachet containing a small proportion of its internal volume of swellable material, comes into contact with water 35, the polymer swells very rapidly and forms a gel, 2 74317 which flexibly fills the sack. With such "gel bags", complete "gel walls" can be built. The structure can also be anchored to the ground or wall or to a place to be protected, for example with a highly absorbent polymer contained in large hoses. As soon as the water then reaches the hoses, the absorbent swells, fills the hose and automatically forms a flood protection.

Highly swellable polymers in water are known. These are, of course, thickeners 10, such as various gums (see Röpps Chemie Lexicon 8. Aufl., Search word Gummi, BD. 2, p. 1558/1559), provided that the network formation of these polysaccharides known per se colloidal solutions. Likewise, under this condition, the thickeners according to the invention are alginates, pectins and gelatins.

According to the invention, fully synthetic thickeners are preferred, in particular homopolymers of acrylic and methacrylic acids and Taiko-20 polymers with one or more ethylenically unsaturated comonomers. The carboxyl groups of these branched polymers can also be in the form of monovalent salts, in particular alkali metal salts. Such water-insoluble, highly water-swellable polymers are described, for example, in U.S. Patent Nos. 3,983,095, 3,954,721, 4,017,653 and 4,018,951. superabsorpenteiksi. This applies in particular to copolymers of acrylic or methacrylic acids with acrylamide, methacrylamide and acrylonitrile, as described in German patent specification p 27 06 135, which are commercially available as FAVOR polymer. The latter contain a water-insoluble swellable substance in a mixture or combination with active silica, wherein the ratio of the weight of the non-swellable polymer to the weight of the active silica is 2 to 10.

In the case of active silicic acids, these are products known in particular as fillers or absorbents, such as silicic acid serogel, with a BET surface area of more than 30 m 2 2 7431 7 / g, generally more than 100 m / g, or flame hydrolytic separation of active silicon tetrachloride. with a surface area of 50-450 m / g (Aerosil). Active silicas useful for the purposes of the invention are also active silicates, in particular calcium, magnesium or aluminum salts, doped with water and the like metal salts and optionally mineral acids, with a BET surface area of more than 30 m / g, as gergogels together with highly absorbent polymers.

In addition, other highly absorbent polymers well suited for the purposes of the invention are branched polyethylene and / or polypropylene oxides.

The shielded non-swellable polymer is in the form of fibrous thin strips, thin sheets or particles having a particle size greater than 50. Particle size and particle size distribution have a significant effect on the kinetics of the swelling event. If the absorbent particles are large, e.g. more than 1 mm, they are composed quickly, but the contact surface is relatively small. If the absorbent particles are small, then as the surface wets, a dense gel surface is formed on the outer surface, which slows down the penetration of other water. The mixture of small and large particles behaves unfavorably for both reasons. In addition, since it is preferred for the invention that the particle size is too small, there is a risk that the particles will flow through the shield, as there must be openings, pores and holes here due to the effective water permeability. For these reasons, the dimension of the at least one swelling agent must be small enough to ensure rapid water absorption.

Accordingly, when the non-swellable polymer is in the form of small granules, these are preferably 200 to 500. The "super-absorbent" may also be in agglomerated form such as beads, tablets or cubes with a diameter of 2-10 mm which disintegrate on contact with water.

35 The amount required for filling can be packed in a water-soluble package, which greatly facilitates the placement of the absorbent in sacks.

It is known that the water-swellable polymers used according to the invention can be converted into the shape of a fiber or a thin sheet. Accordingly, the polymer can be applied in the form of fibers, thin strips, or thin sheets. These fibers or thin strips can be braided into mats, fibrous layers or gauze which can be easily placed inside the cover, thus ensuring a uniform distribution of the substance in two directions.

The degree of filling is determined by the swelling capacity, which, for example, for high absorbency polymers, can be such that the volume of the swollen polymer becomes 500 times the volume of the non-swelling polymer. The filling volume should be determined so that the protection is filled flexibly when the superabsorbent is almost completely swollen. In this case, the non-swellable polymer generally fills 0.2-10% of the possible internal volume of the cover. Generally, the amount is 1-5% of the available volume.

In order to achieve a better distribution of water in the highly swellable polymer, and to make full use of the swelling capacity of the polymer and to prevent agglomeration of the particularly powdered superabsorbent, it may be expedient to mix this fine material with, for example, wood powder. Even better, water acts and is evenly distributed in all parts of the non-swellable or not yet completely swollen polymer if the non-swellable polymer is mixed with air against a stable powder which, on reaction with water, generates inert, non-combustible gases. Suitable as such are, for example, mixtures of bicarbonates and solid non-toxic acids, known as effervescent powders, which, of course, do not have to contain sweeteners or flavors for the present use and which, when reacting with water, generate carbon dioxide.

The shield must meet the requirement that, although it is so permeable to water that rapid infiltration is possible, it still prevents the polymer, which is not yet swollen, from escaping. Suitably the cover is in the form of a sack or a hose to be closed at the ends. The volume of the sack is about 20-50 l and the recommended diameter of the hose is 20-100 cm. In general, the sack is made of a textile surface, 7431 7 for example a fabric with good strength properties. Therefore, the sacks or hoses are preferably made of a synthetic fibrous material, e.g. polyester. More specifically, the fabric is selected so that water can penetrate the si-5 weather, but e.g. a fine thickener cannot drain through the fabric.

The flood protection according to the invention takes up extremely little space during storage. The filling material, namely water, is always at hand and the filling takes place at no cost. 10 It is almost automatic when a dry hose is inserted, which fills itself when water comes in. Although flood protection requires water to function, a bag containing a swollen polymer gel is "waterproof" in the sense that it prevents additional water from penetrating.

The flood protection according to the invention is suitably so advantageous that it can be reused. It is therefore possible to evaporate the absorbed water from the swollen absorbent into the air, and this would make it possible to dry the entire sack in air, but in most cases this would require too much time. In most cases, it would also be impractical to transport gel-filled sacks somewhere to dry. Therefore, it is simplest to empty the bags after each use, dry them, fill them with a new thickener and store them. In this case, they are reassembled for the operating situation.

For the reasons mentioned, the covers have at least one closable mouth opening. Refilling of the sacks is substantially facilitated if the required amount of non-swellable polymer is in advance in a form suitable for easy filling, as already described above for finely divided products in water-soluble bags or superabsorbent fibers or thin strips as nonwovens or gauze. The required amount of swellable substance can also be placed directly inside a relatively thin cover, for example gauze, a thin fabric or a permeable film. In this cover, the swellable material is threaded into an outer cover made of a thick, durable fabric with the required mechanical strength against flood water. Also in this case, the inner cover containing the superabsorbent 7431 7 t must be sufficiently large that the thicker outer bag or tube is flexibly filled with swellable polymer if necessary.

When constructing protective walls made of individual sacks 5 and pipes, it is recommended that they be equipped in such a way that it is possible to tie the guards together. The elements holding the individual elements together may be hooks and loops, loops through which a rope can be threaded, etc. In principle, the protective wall should be designed to be sufficiently high and of a weight such as to ensure sufficient stability, helping to anchor the cover to the ground.

15

Claims (12)

Flood protection, characterized in that the cover contains a water-insoluble, highly water-swellable polymer in a form in which at least one dimension is small enough to ensure rapid water penetration, and that the permeability of the cover allows rapid water penetration but prevents falling out of the unbeatable polymer. Floodwater protection according to Claim 1, characterized in that the polymer which swells strongly in water is a high-absorbency polymer (so-called super-absorbent). Floodwater protection according to Claim 1 or 2, characterized in that the non-swellable polymer is in admixture with the active silicic acid and in that the ratio of the weight of the non-swellable polymer to the weight of the active silicic acid is 2 to 10. Floodwater protection according to Claims 1 to 3, characterized in that the non-swellable polymer fills 0.2 to 10% of the possible internal volume of the protection. Floodwater protection according to Claims 1 to 4, characterized in that the particles of the high-absorbency polymer have a size of 50 to 2000 μm, preferably 200 to 500 μm. Floodwater protection according to Claims 1 to 5, characterized in that the cover is in the form of a sack or a hose which closes at the ends. Floodwater protection according to Claims 1 to 6, characterized in that the cover has a surface material of fabric and that the cover is made of a synthetic fibrous material, in particular polyester. Floodwater protection according to Claims 1 to 7, characterized in that the guards are equipped in such a way that it is possible to tie the guards together. Flood protection according to Claim 8, characterized in that the cover has an outer cover 8 74317 which is made of a material of the required strength, in particular a durable fabric. Floodwater protection according to Claim 9, characterized in that the swellable polymer is supplemented by a cover which facilitates insertion. Floodwater protection according to one or more of Claims 1 to 10, characterized in that this fine substance is coarser in order to achieve a better distribution of water. Floodwater protection according to Claim 11, characterized in that an air-stable powder which generates non-combustible gases inert with water is added to the polymer and in that a carbon dioxide-generating mixture of bicarbonates 15 and solid non-toxic acids is added to the polymer. 9 7431 7 1. översvämningvattenskydd, kännetecknad av, att ekyddet inneh & ller en i vandenen olöelig, i vatten kraf-tigt svällande polymer i en forma, därtminstone en dimensigen tigtrigigen liten förg to intratten avgát In addition to the intrusion of water, the above utilization of the polymer. 2. A protective composition according to claim 1, which comprises the use of a polymeric polymer (e.g. superabsorbent). 3 · the transfer of the active ingredient according to claims 1 or 2, the transfer of the active polymer and bleaching of the active ingredient and the transfer of the polymer according to the invention is carried out on the basis of the active ingredient from 2 to 10 days. If the polymer is used up to a maximum of 0.2 to 10%, the solution may be innervated. 20 5. The composition of the invention is defined in paragraphs 1 to 4, in which case a particle of the polymer with a total weight of 50 to 2000 microns, is 200 to 500 microns. 6. översvämningsvattenskydd enligt patents kraven 1-5, 25 känneteoknat av, att skyddet är i form av en säck eller en vid ändorna tillslutbar slang. 7. översvämningsvattenskydd enligt patentkraven 1-6, känneteoknat av, att skyddets ytmaterial utgöres av väv och and att skyddet best & r av ett synthetic synthetic material, 30 speciellt polyester. 8. översvämningsvattenskydd enligt patentkraven 1 - 7, känneteoknat av, att skydden har s & Dana utrustningar, att bindning av skydd bill varandra är möjligt.