CN210026518U

CN210026518U - High-toughness geotextile with warp and weft plastic flat filaments

Info

Publication number: CN210026518U
Application number: CN201920801378.XU
Authority: CN
Inventors: 朱卫良; 毛森敏; 王成庆; 陆松燕; 陆松娟
Original assignee: Hangzhou Shenlian Baoplastic Industry Co Ltd
Current assignee: Hangzhou Shenlian Baoplastic Industry Co Ltd
Priority date: 2019-05-30
Filing date: 2019-05-30
Publication date: 2020-02-07
Anticipated expiration: 2029-05-30

Abstract

The utility model discloses a take high tenacity geotechnological cloth of longitude and latitude plastics ribbon-like filament, including base cloth layer, toughness layer and geotechnological cloth layer, the enhancement layer has been pasted through the adhesive at the top on base cloth layer, the bottom on toughness layer is pasted through the adhesive and base cloth layer is mutually, geotechnological cloth layer is provided with two sets ofly, and one side on geotechnological cloth layer pastes with the top of enhancement layer and the bottom on toughness layer respectively, one side that geotechnological cloth layer deviates from mutually all is sprayed and is had the waterproof layer, one side that geotechnological cloth layer deviates from mutually all has pasted the bump through the adhesive, the bump is provided with a plurality of groups, and the one end of bump. The utility model discloses a base cloth layer and geotechnological cloth layer's cooperation has increased the stability of geotechnological cloth structure, has strengthened geotechnological cloth's intensity, through the cooperation of enhancement layer and toughness layer, has increased geotechnological cloth's toughness, promotes geotechnological cloth's tensile strength to guaranteed to realize the resistance to deformation when increasing tensile.

Description

High-toughness geotextile with warp and weft plastic flat filaments

Technical Field

The utility model relates to a geotechnique's cloth technical field specifically is high tenacity geotechnique's cloth of taking longitude and latitude plastics ribbon yarn.

Background

The geotextile is also called geotextile, which is a water permeable geosynthetic material formed by needling or weaving synthetic fibers, the finished product is in a cloth shape, the width is 4-6 meters generally, the length is 50-100 meters, the geotextile has excellent filtering, draining, isolating, reinforcing, seepage-proofing and protecting effects, and has the advantages of light weight, good permeability, high temperature resistance, freezing resistance, aging resistance and corrosion resistance.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a take high tenacity geotechnological cloth of longitude and latitude plastics ribbon yarn possesses the toughness height, and tensile anti-deformation strength is high, and the better advantage of waterproof nature has solved current geotechnological cloth and has leaded to geotechnological cloth toughness when using relatively poor because of the structure singleness, and tensile anti deformability is low and the not good problem of waterproof nature.

In order to achieve the above object, the utility model provides a following technical scheme: take high tenacity geotechnological cloth of longitude and latitude plastics ribbon-like silk, including base cloth layer, toughness layer and geotechnological cloth layer, the enhancement layer has been pasted through the adhesive in the top on base cloth layer, the bottom on toughness layer is pasted through the adhesive with the base cloth layer in the top, geotechnological cloth layer is provided with two sets ofly, and one side on geotechnological cloth layer pastes with the top of enhancement layer and the bottom on toughness layer respectively, one side equal spraying that geotechnological cloth layer deviates from mutually has the waterproof layer, one side that geotechnological cloth layer deviates from mutually all has pasted the bump through the adhesive, the bump is provided with a plurality of groups, and the waterproof layer is run through.

Preferably, the base cloth layer comprises warp and weft, the warp and the weft are all formed by sticking a plurality of groups of plastic flat wires, and the base cloth layer is formed by weaving the warp and the weft in a staggered manner.

Preferably, the reinforcing layer comprises first reinforcing wires and second reinforcing wires, the first reinforcing wires are made of cotton fibers, the second reinforcing wires are made of glass fibers, and the reinforcing layer is formed by interweaving the first reinforcing wires and the second reinforcing wires.

Preferably, the flexible layer is made of elastic fibers, and the flexible layer is formed by interweaving multiple groups of elastic fibers with different thicknesses.

Preferably, the geotextile layer is made of a synthetic fiber material, and the geotextile layer is woven by synthetic fibers.

Preferably, the waterproof layer is an acrylic waterproof coating taking pure acrylic polymer emulsion as a base material, and the salient points are made of polyethylene materials.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model discloses a cooperation on base cloth layer and geotechnological cloth layer has increased the stability of geotechnological cloth structure, has strengthened the intensity of geotechnological cloth, through the cooperation on enhancement layer and toughness layer, has increased the toughness of geotechnological cloth, promotes the tensile strength of geotechnological cloth to guaranteed to realize the resistance to deformation when increasing tensile, through warp and weft's cooperation, increased the intensity on base cloth layer, through the cooperation that sets up first enhancement silk and second enhancement silk, increased the tensile resistance to deformation ability of enhancement layer.

2. The utility model discloses a set up the base cloth layer, increased the basis intensity on geotechnological cloth layer, through setting up the toughness layer, increased the toughness of geotechnological cloth, strengthened anti deformability, through setting up the enhancement layer, increased the anti deformability when dragging of geotechnological cloth, through setting up geotechnological cloth layer, increased the structural performance of geotechnological cloth, through setting up the waterproof layer, increased the waterproof performance of geotechnological cloth, through setting up the bump, made things convenient for the location of geotechnological cloth when laying the use.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the base fabric layer of the present invention;

fig. 3 is a schematic structural diagram of the reinforcing layer of the present invention.

In the figure: 1 base cloth layer, 2 toughness layers, 3 reinforcing layers, 4 geotechnical cloth layers, 5 waterproof layers, 6 salient points, 7 warps, 8 wefts, 9 first reinforcing wires and 10 second reinforcing wires.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, a high-toughness geotextile with warp and weft plastic flat filaments comprises a base cloth layer 1, a toughness layer 2 and a geotextile layer 4, wherein the base cloth layer 1 is arranged to increase the basic strength of the geotextile layer 4, the top of the base cloth layer 1 is adhered with a reinforcing layer 3 through an adhesive, the reinforcing layer 3 is arranged to increase the deformation resistance of the geotextile when being pulled, the top of the toughness layer 2 is adhered to the bottom of the base cloth layer 1 through the adhesive, the toughness of the geotextile is increased through the arrangement of the toughness layer 2 to enhance the deformation resistance, the geotextile layers 4 are provided with two groups, one side of the geotextile layer 4 is respectively adhered to the top of the reinforcing layer 3 and the bottom of the toughness layer 2, the structural performance of the geotextile is increased through the arrangement of the geotextile layer 4, one side of the geotextile layer 4 opposite to each other is sprayed with a waterproof layer 5, and the waterproof layer 5 is, the waterproof performance of the geotextile is improved, the convex points 6 are adhered to the sides, which are opposite to the geotextile layers 4, of the geotextile through the adhesive, the positioning of the geotextile during laying and using is facilitated by arranging the convex points 6, the convex points 6 are provided with a plurality of groups, and one ends of the convex points 6 penetrate through the waterproof layer 5;

the base cloth layer 1 comprises warps 7 and wefts 8, the warps 7 and the wefts 8 are formed by sticking a plurality of groups of plastic flat wires, the base cloth layer 1 is formed by weaving the warps 7 and the wefts 8 in a staggered mode, the reinforcing layer 3 comprises first reinforcing wires 9 and second reinforcing wires 10, the first reinforcing wires 9 are made of cotton fibers, the second reinforcing wires 10 are made of glass fibers, the reinforcing layer 3 is formed by weaving the first reinforcing wires 9 and the second reinforcing wires 10 in a staggered mode, the toughness layer 2 is made of elastic fibers, the toughness layer 2 is formed by weaving a plurality of groups of elastic fibers with different thicknesses in a staggered mode, the geotechnical cloth layer 4 is made of synthetic fiber materials, and the geotechnical cloth layer 4 is made of synthetic fibers in a woven mode;

waterproof layer 5 is with acrylic acid waterproof coating of pure acrylic acid polymer emulsion as the base material, bump 6 adopts the polyethylene material, cooperation through base cloth layer 1 and geotechnological cloth layer 4, the stability of geotechnological cloth structure has been increased, the intensity of geotechnological cloth has been strengthened, cooperation through enhancement layer 3 and toughness layer 2, the toughness of geotechnological cloth has been increased, promote the tensile strength of geotechnological cloth, and guaranteed to realize the resistance to deformation when increasing tensile, cooperation through warp 7 and weft 8, the intensity of base cloth layer 1 has been increased, cooperation through setting up first enhancement silk 9 and second enhancement silk 10, the tensile resistance to deformation ability of enhancement layer 3 has been increased.

During the use, base cloth layer 1 has increased geotechnological cloth layer 4's basis intensity, toughness layer 2 has increased geotechnological cloth's toughness, the resistance to deformation ability has been strengthened, enhancement layer 3 has increased geotechnological cloth's resistance to deformation ability when dragging, geotechnological cloth layer 4 has increased geotechnological cloth's structural performance, waterproof layer 5 has increased geotechnological cloth's waterproof performance, bump 6 has made things convenient for the location of geotechnological cloth when laying the use, warp 7 and weft 8's cooperation, the intensity of base cloth layer 1 has been increased, the cooperation of first reinforcement silk 9 and second reinforcement silk 10, the tensile resistance to deformation ability of enhancement layer 3 has been increased.

In summary, the following steps: this take high tenacity geotechnological cloth of longitude and latitude plastics ribbon yarn passes through base cloth layer 1, toughness layer 2, enhancement layer 3, geotechnological cloth layer 4, waterproof layer 5 and bump 6's cooperation, has solved current geotechnological cloth and has leaded to geotechnological cloth toughness relatively poor when using because the structure is single, and the problem that tensile resistance to deformation ability is low and waterproof nature is not good.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. High tenacity geotechnique's cloth of tape warp and weft plastics ribbon yarn, including base cloth layer (1), toughness layer (2) and geotechnological cloth layer (4), its characterized in that: enhancement layer (3) have been pasted through the adhesive at the top of base cloth layer (1), the top on toughness layer (2) is pasted through the adhesive and the bottom of base cloth layer (1), geotechnological cloth layer (4) are provided with two sets ofly, and one side on geotechnological cloth layer (4) is pasted with the top of enhancement layer (3) and the bottom on toughness layer (2) respectively, one side that geotechnological cloth layer (4) deviates from mutually all is sprayed and is had waterproof layer (5), one side that geotechnological cloth layer (4) deviates from mutually all has pasted bump (6) through the adhesive, bump (6) are provided with a plurality of groups, and waterproof layer (5) are run through to the one end of bump (6).

2. A high tenacity geotextile with warp and weft plastic flat filaments as claimed in claim 1, wherein: base cloth layer (1) includes warp (7) and weft (8), warp (7) and weft (8) all adopt a plurality of groups plastic ribbon-yarn to paste and constitute, base cloth layer (1) is woven through warp (7) and weft (8) crisscross each other and is made.

3. A high tenacity geotextile with warp and weft plastic flat filaments as claimed in claim 1, wherein: the reinforcing layer (3) comprises first reinforcing wires (9) and second reinforcing wires (10), the first reinforcing wires (9) are made of cotton fibers, the second reinforcing wires (10) are made of glass fibers, and the reinforcing layer (3) is formed by weaving the first reinforcing wires (9) and the second reinforcing wires (10) in a staggered mode.

4. A high tenacity geotextile with warp and weft plastic flat filaments as claimed in claim 1, wherein: the flexible layer (2) is made of elastic fibers, and the flexible layer (2) is formed by interweaving a plurality of groups of elastic fibers with different thicknesses.

5. A high tenacity geotextile with warp and weft plastic flat filaments as claimed in claim 1, wherein: the geotextile layer (4) is made of synthetic fiber materials, and the geotextile layer (4) is woven by synthetic fibers.

6. A high tenacity geotextile with warp and weft plastic flat filaments as claimed in claim 1, wherein: the waterproof layer (5) is an acrylic waterproof coating taking pure acrylic polymer emulsion as a base material, and the salient points (6) are made of polyethylene materials.