CN216507112U - Antistatic tensile graphene fabric - Google Patents

Abstract

The utility model discloses an antistatic tensile graphene fabric, which comprises a surface layer, an intermediate layer and a base layer which are sequentially connected, wherein the intermediate layer is provided with air holes which are uniformly distributed, the surface layer is a synthetic tissue, the synthetic tissue comprises a tissue I and a tissue II, the base layer is a tissue I, and in the tissue I: the first path of yarn floats and sinks and floats, the second path of yarn floats and sinks, the first path of yarn sinks and floats, the third path of yarn sinks and floats, in the second weave: the fourth yarn is floated, floated and sunk one by three, the fifth yarn is sunk two by two and sunk one by one, the sixth yarn is floated, floated and sunk one by one, the seventh yarn is floated, sunk one by three, floated and sunk one by one, the eighth yarn is floated and sunk two by one, and the ninth yarn is floated, floated and sunk one by one, and sunk one by one. According to the utility model, the problem of poor stretch resistance of the fabric is effectively solved by arranging the graphene fiber blended yarn to be matched with the crepe structure.

Description

Antistatic tensile graphene fabric

Technical Field

The utility model relates to the technical field of textile fabrics, in particular to an antistatic tensile graphene fabric.

Background

Graphene is a two-dimensional crystal which is stripped from a graphite material and only comprises one layer of atoms, and the industrial research and development of the graphene synthetic fiber have made a great breakthrough. The fiber prepared from the graphene has the functions of antibiosis, cutting resistance, ultraviolet resistance, static resistance and the like, and has diversified effects. Therefore, the composite fiber made of the graphene can be widely applied to clothes, home textiles, health care, medical and various industrial fabrics. However, the graphene fiber is low in utilization rate as a fiber of a garment fabric, and if the existing fabric is a non-elastic fabric, the air permeability and the stretch resistance are poor, and the problem that static electricity is easily generated in the wearing process is also existed.

Therefore, a new solution is needed to solve this problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide the antistatic tensile graphene fabric, and the problem of poor tensile resistance of the fabric is effectively solved by arranging the graphene fiber blended yarn to be matched with the crepe structure.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides an antistatic tensile graphite alkene surface fabric, is including the surface course, intermediate level and the basic unit that connect gradually, the intermediate level is equipped with evenly distributed's bleeder vent, the surface course is synthetic tissue, synthetic tissue is including organizing one and organizing two, the basic unit is organizing one, organize in one: the first path of yarn floats and sinks and floats, the second path of yarn floats and sinks, the first path of yarn sinks and floats, the third path of yarn sinks and floats, in the second weave: the fourth yarn is floated, floated and sunk one by three, the fifth yarn is sunk two by two and sunk one by one, the sixth yarn is floated, floated and sunk one by one, the seventh yarn is floated, sunk one by three, floated and sunk one by one, the eighth yarn is floated and sunk two by one, and the ninth yarn is floated, floated and sunk one by one, and sunk one by one.

The utility model is further configured to: the first weave comprises a first weft yarn and a first warp yarn, the first warp yarn is a graphene and polyester fiber blended yarn, and the first weft yarn is a polyester-polyurethane covered yarn.

The utility model is further configured to: the second weave comprises a second weft yarn and a second warp yarn, the second warp yarn is polyester fiber yarn, and the second weft yarn is acrylic fiber yarn.

The utility model is further configured to: the synthetic tissue is a crepe tissue, and the first tissue and the second tissue are drawn into the crepe tissue according to the weft direction 1:1 arrangement ratio.

The utility model is further configured to: the middle layer is a mesh tissue layer woven by polyester-polyurethane covering yarns.

The utility model is further configured to: the surface layer, the middle layer and the base layer are connected in an adhesive mode.

The utility model has the beneficial effects that:

the warp and weft float long lines in the fabric with the crepe tissue are arranged in a staggered manner in the longitudinal and transverse directions, so that the surface of the fabric forms a dispersed and irregular small particle appearance effect, the crepe tissue fabric is soft and fine in hand feeling and has good elasticity, the deformation state can be controlled when the crepe tissue fabric is stretched, and the tensile effect is achieved. The graphene fiber and the polyester fiber have high strength, and the finished product has high strength; the weft adopts polyester-polyurethane covered yarns, and the high-elasticity spandex is added, so that the overall elasticity of the fabric is increased, and the tensile property is improved.

The graphene fiber has low resistivity and good antistatic capability. The surface layer and the base layer both contain graphene fibers, so that static electricity is reduced in all directions.

Drawings

Fig. 1 is a schematic perspective view of an antistatic tensile graphene fabric according to the present invention;

FIG. 2 is a weave diagram of a facing of the present invention.

In the figure: the fabric comprises a surface layer 1, a middle layer 2, holes 21, a base layer 3, a weave I4, a weft I41, a warp I42, a weave II 5, a weft II 51, a warp II 52, a synthetic weave 6, a first path of yarn 4a, a second path of yarn 4b, a third path of yarn 4c, a fourth path of yarn 5d, a fifth path of yarn 5e, a sixth path of yarn 5f, a seventh path of yarn 5g, an eighth path of yarn 5h and a ninth path of yarn 5 i.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-2, an antistatic tensile graphene fabric comprises a surface layer 1, an intermediate layer 2 and a base layer 3 which are connected in sequence, wherein the surface layer 1 is formed by weaving a first tissue 4 and a second tissue 5 which are arranged according to a certain rule into a synthetic tissue 6: the first tissue 4 and the second tissue 5 are drawn into a crepe tissue according to the arrangement ratio of weft directions 1:1, namely the synthetic tissue 6 is a crepe tissue. The warp and weft float long lines in the fabric with the crepe structure are arranged in a staggered manner in the longitudinal and transverse directions, so that the surface of the fabric forms a dispersed and irregular small particle appearance effect, the crepe structure fabric is soft and fine in hand feeling and has good elasticity, and the deformation state can be controlled when the crepe structure fabric is stretched, so that the tensile effect is achieved.

The middle layer 2 is provided with air holes 21 which are uniformly distributed, and the middle layer 2 is a mesh tissue layer woven by polyester-polyurethane coated yarns. The section of the air hole 21 is approximately circular, and the air hole 21 is arranged to increase the air permeability of the fabric. The mesh tissue has certain elasticity, and the tensile capacity of the fabric can be further improved.

The skin-friendly lining layer that the basic unit 3 was woven for organizing 4, and the tissue 4 is twill tissue, therefore 3 surfaces of basic unit have twill line, soft handle.

The surface layer 1, the middle layer 2 and the base layer 3 are connected in an adhesive mode, wherein the adhesive part of the middle layer 2 is the part except the air holes 21, and the air permeating effect is guaranteed not to be influenced by the adhesive.

The knitting method of the weave one 4 is as follows: the first path of yarn 4a floats and sinks, the second path of yarn 4b floats and sinks, and the third path of yarn 4c sinks and floats.

The knitting method of the structure two 5 is as follows: the fourth yarn 5d floats on the third and floats on the first and sinks on the second, the fifth yarn 5e floats on the first and floats on the second, the sixth yarn 5f floats on the first and floats on the second and sinks on the first, the seventh yarn 5g floats on the third and floats on the first and sinks on the second, the eighth yarn 5h floats on the second and sinks on the first, and the ninth yarn 5i floats on the first and sinks on the second.

The synthetic tissue 6 is formed by a transfer drawing method using a tissue one 4 and a tissue two 5 as a base tissue. The number of the weave circulating warp yarns of the weave one 4 is 3, the number of the weave circulating warp yarns of the weave two 5 is 6, so that the number of the weave circulating warp yarns of the synthetic weave 6 is the least common multiple of the number of the circulating warp yarns of the two basic weaves multiplied by 2, namely 12 warp yarns are circulated, and specifically, the arrangement mode of the warp yarns of the synthetic weave 6 is as follows: 4a, 5d, 4b, 5e, 4c, 5f, 4a, 5g, 4b, 5h, 4c, 5 i.

The first weave 4 comprises a first weft yarn 41 and a first warp yarn 42, wherein the first warp yarn 42 is a graphene and polyester fiber blended yarn, and the first weft yarn 41 is a polyester-spandex covered yarn. Graphene fibers are expensive and therefore are used only for blending. The graphene fiber has low resistivity and good antistatic capacity; the strength of the graphene fiber and the polyester fiber is high, the problems of end breakage and the like of warp yarns during weaving can be avoided, and the strength of a finished product is improved; the weft adopts polyester-polyurethane covered yarns, and the high-elasticity spandex is added, so that the overall elasticity of the fabric is increased, and the tensile property is improved.

The second weave 5 includes a second weft yarn 51 and a second warp yarn 52, the second warp yarn 52 is a polyester fiber yarn, and the second weft yarn 51 is an acrylic fiber yarn. The second weave 5 has longer warp float length lines, so the high-strength polyester fiber yarn is adopted; the acrylic fiber yarn has soft hand feeling, good elasticity and certain warmth retention property, so the surface layer 1 of the fabric has the hand feeling similar to wool.

The special crepe texture is combined by the blended yarn of the graphene and the polyester fiber, the polyester-spandex covered yarn and the polyester fiber yarn and the acrylic fiber yarn to form the fabric with antistatic surface layer, antistatic inner layer, high strength and good tensile property for the lower garment and the skirt of the lady.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (6)

1. The utility model provides an antistatic tensile graphite alkene surface fabric which characterized in that: including surface course (1), intermediate level (2) and basic unit (3) that connect gradually, intermediate level (2) are equipped with evenly distributed's bleeder vent (21), surface course (1) organizes (6) for synthesizing, synthesizing organize (6) including organizing one (4) and organizing two (5), basic unit (3) are organizing one (4), organize in (4): the first path yarn (4a) floats and sinks, the second path yarn (4b) floats and sinks, and the third path yarn (4c) sinks and floats, wherein in the structure II (5): the fourth path yarn (5d) floats on the third, floats on the first, floats on the second, floats on the first, the sixth path yarn (5f) floats on the first, floats on the second, the seventh path yarn (5g) floats on the third, floats on the first, the eighth path yarn (5h) floats on the second, floats on the first, and the ninth path yarn (5i) floats on the first, and floats on the second.

2. The antistatic tensile graphene fabric of claim 1, wherein: the first weave (4) comprises a first weft yarn (41) and a first warp yarn (42), the first warp yarn (42) is a graphene and polyester fiber blended yarn, and the first weft yarn (41) is a polyester-polyurethane covered yarn.

3. The antistatic tensile graphene fabric of claim 1, wherein: the second weave (5) comprises a second weft yarn (51) and a second warp yarn (52), the second warp yarn (52) is polyester fiber yarn, and the second weft yarn (51) is acrylic fiber yarn.

4. The antistatic tensile graphene fabric of claim 1, wherein: the synthetic tissue (6) is a crepe tissue, and the tissue I (4) and the tissue II (5) are drawn into the crepe tissue according to the weft direction arrangement ratio of 1: 1.

5. The antistatic tensile graphene fabric according to claim 1, wherein the antistatic tensile graphene fabric comprises: the middle layer (2) is a mesh tissue layer woven by polyester-polyurethane covering yarns.

6. The antistatic tensile graphene fabric according to claim 1, wherein the antistatic tensile graphene fabric comprises: the surface layer (1), the middle layer (2) and the base layer (3) are connected in an adhesive mode.

Images