CS254529B1 - Layered waterproof geotextile and method of its production - Google Patents

Abstract

A layered waterproof geotextile made of two synthetic fabrics provided on one side with at least one surface coating of polymer and on the other hand from an inner waterproof layer made of the aforementioned surface coatings of polymer and a connecting layer of polymer applied during layering. The fabrics are connected to the surface coatings by a cold weld with a peel strength of 30 to 100 Nm-·1·, the geotextile being manufactured by first extruding surface coatings of polymer in the form of a melt onto the fabrics from a nozzle on one side and then, after cooling them and on the side with the surface coatings of polymer, a connecting layer of polymer in the form of a melt is fed from a nozzle between the two fabrics thus treated, which is connected to the surface coatings of polymer. Surface polymer deposits in the form of a melt with a specific weight of 50 to 250 g.m-2 are cooled down behind the nozzle to a surface temperature 20 °C to 30 °C lower than the melting temperature of the synthetic materials forming the textile and are pressed against these textiles by their own weight only at the point of contact with the textile. Subsequently, the textiles with surface polymer deposits are cooled so that their surface temperature is in the range of 10 to 65 °C.

Description

(54) Layered water-impermeable geotextile and method for its manufacture

A laminated waterproof geotextile formed from two textiles of synthetic materials provided with at least one polymer coating on one side and an inner waterproofing layer formed from the said polymer coating and a polymer bonding layer applied to the lamination. Textiles are hereby connected with the surface layers of cold-welded toughness rozlupování 30-100 Nm ^- · ¹ ·, wherein the geotextile is made such that the first on fabric extruded from a nozzle on one side surface deposits of polymer in the melt form and then between the two thus treated After cooling, and to the side of the polymer surface deposits, the fabric joins from the nozzle a melt-bonded polymer layer which joins the polymer surface deposits. Surface deposits of the polymer in the form of a melt having a specific weight of 50 to 250 gm ^-2 are cooled downstream of the nozzle to the surface of contact with the fabric to a surface temperature 20 to 30 ° C lower than the melting point of the synthetic materials forming the fabric. only by their own weight. Subsequently, the surface-coated fabrics of the polymer are cooled so that their surface temperature is in the range of 10 to 65 ° C.

The present invention relates to a layered water-impermeable geotextile and to a process for its manufacture. Said geotextile is formed of two textiles of synthetic materials provided on one side with at least one surface coating of polymer and, on the other hand, of an inner water-impermeable layer formed from said surface coatings of polymer and a polymer tie layer applied during the lamination. With this geotextile, the easy removability of the outer two fabrics from the inner waterproof layer is solved, which is advantageous for the waterproof connection of its strips to each other by welding. The geotextile according to the invention is used in particular as a waterproofing material in building and water construction.

Layered waterproof impermeable geotextiles disclosed in Czechoslovakian Certificate No 217 073 are formed from two nonwoven fabrics of synthetic fibers, which are provided on one side with at least one surface polymer coating, the inner water impermeable layer of geotextile being formed from surface deposits of nonwoven fabrics and bonding layers applied during layering. The surface coatings and the bonding layer may be of the same or different polymer suitable for this purpose. The nonwovens used to make the layered geotextile are made of synthetic fibers and may have the same or different weight.

The lamination is carried out on a known device such that the bonding layer is applied between the surface layers of the nonwoven webs to be supplied and forms a compact unit therewith. The inner waterproof layer is protected against damage due to the external environment, for example against mechanical damage when laying on gravel or rocky subsoil, or against damage caused by suction pipes on the lining of tanks and tanks.

The surface of the resulting geotextile maintains the structure of the nonwoven fabric, which contributes to the cohesion with the ground, especially when laying on slopes or slopes. The fiber structure of the geotextile surface allows the concrete to be sprayed, thereby providing a first protective coating against mechanical damage to the waterproof inner layer of the geotextile. Since the concrete mixture is sprayed directly on the construction site, the shape stability in the required profile is achieved after it is set.

A disadvantage of said geotextile is the very laborious separability of the outer nonwoven from the inner waterproof layer, which is necessary when joining the geotextile strips, which must be joined by welding an overlapped inner waterproof layer to maintain waterproofness and strength.

Needled fabrics are also known according to the Czechoslovak author's certificate No. 180 922, where the utility layer is detachably bonded to the base layer. Separability is achieved either by intermittent self-adhesive paint or by switching elements. However, these needled fabrics are unsuitable for obtaining solid water-tight joints between their belts and other sheet-like structures.

These disadvantages of the prior art are overcome by the layered water-impermeable geotextile of the invention and the method for its manufacture. The geotextile is formed on the one hand of two textiles of synthetic materials having, on the one hand, at least one surface coating of the polymer and, on the other hand, an inner waterproof layer formed from the said polymer surface coatings and the polymer tie layer applied during the lamination. The essence of the invention is that the fabrics are bonded to the surface coatings by cold welding with a peel strength of 30 to 100 Nm ^-1 .

The process for the production of the water-impermeable geotextile according to the invention is carried out by firstly extruding, on the one hand, the surface coatings of the polymer in the form of a melt from the nozzle and then, after cooling and on the sides with the surface layers of polymer. from a nozzle, a polymer melt-bonding layer which is bonded to the polymer surface deposits.

The essence of the process according to the invention is characterized in that the surface deposits of polymer 2 in the form of a melt having a specific weight of 50 to 250 gm are cooled downstream of the nozzle to the textile contact point to a surface temperature 20 to 30 ° C lower than the melting point. of the synthetic materials forming the fabrics and, secondly, at the point of contact with the fabrics, presses the fabrics only by their own weight. The surface-coated fabrics are subsequently cooled so that their surface temperature does not exceed 65 ° C.

In the accompanying drawings, FIG. 1 shows a method for unilaterally coating a fabric, and FIG. 2 shows a method for joining unilaterally coated fabrics.

The layered water-impermeable geotextile of the present invention is formed of two textiles 2 # 2 of synthetic materials having at least one polymer coating on one side and an inner water-impermeable layer formed of said polymer coating layers 2 and a polymer tie layer 2 applied in the lamination characterized in that the fabrics 1, 2 are bonded to the surface deposits 3, 4 by a cold weld with a peel strength of 30 to 100 Nm.

The process for the production of the layered waterproof geotextile according to the invention is carried out by first extruding unilaterally surface deposits 3, 4 of the polymer in the form of a melt from the nozzle 6 onto the fabrics 1, 2 and subsequently cooling them between the two treated fabrics 1, 2. on the sides of the polymer surface deposits 3, 4, a melt-bonding polymer layer 2 is supplied from the nozzle 6, which is bonded to the polymer surface deposits 3, 4. When coating the Text-2 lie jl, 2, surface coatings and the polymer in the melt form of a specific hotnosti 50-250 gm, firstly through 6 are cooled to the point of contact with the fabric 2 »of ^a surface temperature of 20 ° C to 30 ° C lower than the melting point of synthetic textile materials forming JL, DnaK and ^e at the contact with the fabrics 2/2 ^of these fabrics 2 »2 is pressed by its own weight only. Subsequently, the fabrics 2 '2 ^{with the} surface coatings 2A of the polymer are cooled so that their surface temperature does not exceed 65 ° C.

A specific embodiment of the layered water-impermeable geotextile and the method for producing it is shown in the following examples.

Example 1-2

On two needled nonwoven fabrics 2 '2 ^of polypropylene fibers weighing 300 gm, extruded surface coatings 2' A of polyethylene in the form of melt -2 of 150 gm are extruded from the nozzle 2 on one side. The extruded polyethylene coatings 3, 4 extruded from the nozzle are cooled to the point of contact with the nonwoven fabric 2 * 2 to a temperature of 160 ° C to 150 ° C, and at the point of contact with the nonwoven fabric 2 ', they are only pressed against the fabric 2' 2. Subsequently, the nonwoven fabrics 1, 2 with the surface coatings 26 of polyethylene are cooled so that their surface temperature does not exceed 65 ° C. Two of the thus treated nonwoven fabric 2 ^<Z side with ^a surface coating 2, £ polyethylene is fed from the nozzle 2 connecting layer 2 _2 polyethylene in the form of a melt, weighing 150 g, which deposits a surface 3, the fourth combined polyethylene _2

In this way, a water-impermeable layer of 450 gm is obtained between two stitched nonwoven fabrics 2 detachably connected thereto.

Example 2

For nonwovens 2, Z ^{made of} polypropylene fibers interwoven with polyamide silk

336 dtex with a total weight of 220 g.m.

Polyethylene in the form of a melt of 200 g.m. The surface deposits of polyethylene extruded from the nozzle 2^se cool down to the point of contact with nonwovens 2 / Z^on temperature of 160 ° to 150 ° C and at the point of contact with non-woven fabrics, they are pressed only by their own weight. Subsequently, the nonwoven fabrics are 2 'Z^with The surface coatings of polyethylene are cooled so that their surface temperature does not exceed 65 ° C. Between the two treated nonwoven fabrics 2 < Z^on The polyethylene side layer 2, 6 of polyethylene is fed from the nozzle 2-2 of a polyethylene melt 2 in the form of a melt of 200 gm, which is bonded to the surface layer 254529 of polyethylene. A waterproof layer of 600 g.m. between two non-woven fabrics detachably connected to it 2, 2 ·

Example 3

On woven fabrics 2, Z ^{made of} polypropylene, which are provided on one side with a synthetic fleece, surface deposits 3, 2 of polyethylene in the form of a melt of 175 gm are extruded from the nozzle 6 on one side. The surface deposits of polyethylene extruded from the nozzle are cooled to the point of contact with the nonwoven fabric 2, 2 at a temperature of 160 ° C to 150 ° C and at the point of contact with the woven fabric 2, 2 are only pressed by their own weight. Subsequently, the woven fabrics 2, Z ^{with the} surface coatings 2, A of the polyethylene are cooled so that their surface temperature is in the range of 10 to 65 ° C. A bonding layer 5 of polyethylene 2 in the form of a melt of 200 gm is fed from the nozzle 6 between two woven fabrics 2, 2 so treated ^to the surface of the polyethylene surface coatings 2, A. which is bonded to the surface coatings 2, A of polyethylene.

_2

In this way, a water-impermeable layer of 550 g.m is obtained between two woven fabrics detachably connected thereto.

Claims (2)

SUBJECT OF THE INVENTION A laminated water-impermeable geotextile formed of two textiles of synthetic materials having at least one polymer surface coating on one side and an inner waterproof layer formed from said polymer surface deposits and a polymer tie layer applied in the lamination, characterized in that the fabric (1) , 2) are connected to surface deposits (3, 4) by cold weld with a flaking strength of 30 to 100 Nm L 2. A process for the production of a layered water-impermeable geotextile according to claim 1, which is carried out by first extruding, on the one hand, surface coatings of the polymer in the form of a melt from the nozzle, The polymer coating deposited from the nozzle provides a melt-bonded polymer layer which is bonded to the polymer coating, characterized in that the surface coatings of the polymer in the form of a melt having a density of 50 to 250 gm are cooled downstream of the nozzle to the point of contact. the textiles to a surface temperature 20 ° to 30 ° C lower than the melting point of the synthetic materials forming the fabrics and, secondly, at the point of contact with the fabrics, they only press against the fabrics by their own weight; 10 to 65 ° C.