CN219505570U - Antistatic mesh cloth - Google Patents

Abstract

The utility model discloses an antistatic mesh, in particular to the technical field of mesh, which sequentially comprises a first antistatic layer, a thermal insulation layer, a second antistatic layer, a mesh layer and a skin-friendly layer from outside to inside, wherein the first antistatic layer and the second antistatic layer have the same structure; the first antistatic layer is formed by mutually crossing and weaving a plurality of warps and a plurality of wefts; the warp comprises a first warp and a second warp, the first warp comprises an antistatic fiber group, the antistatic fiber group is formed by mutually winding antistatic fibers and conductive fibers, the second warp comprises transverse polyamide fibers, and the transverse polyamide fibers and the antistatic fiber group are distributed alternately; the weft comprises vertical polyamide fibers, every two vertical polyamide fibers are attached together, the antistatic fiber group is clamped between the two vertical polyamide fibers, and the vertical polyamide fibers and the transverse polyamide fibers are interwoven. The utility model has excellent wear resistance, is not easy to generate burrs and has good warm-keeping effect.

Description

Antistatic mesh cloth

Technical Field

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

Background

The mesh fabric is a fabric with meshes, and can be used for manufacturing clothing, curtains, mosquito nets, vamps and the like, and comprises organic woven mesh fabrics, knitted mesh fabrics and non-woven mesh fabrics. The mesh cloth generally has no antistatic function, static electricity on the surface of the mesh cloth is easy to accumulate, and charges are not easy to escape, so that wearing comfort is affected. Therefore, antistatic mesh cloth is available on the market.

For example, an antistatic warp knitted fabric with bulletin number CN216507118U comprises a fabric body, wherein one side of the fabric body is fixedly connected with a sealing edge, the bottom of the fabric body is fixedly connected with a first antistatic layer, the first antistatic layer comprises polyester filaments, and the polyester filaments are connected with conductive fibers in a staggered manner; through polyester filament, conductive fiber, prevent static granule, sealing edge, wearing layer, skin-friendly layer mutually support and use, can effectively reduce static through polyester filament and conductive fiber and prevent static granule, effectively restrain the function of static when having also promoted screen cloth and other surface fabric contact simultaneously, can effectively reduce the phenomenon emergence of easy damaged of edge through the sealing edge, promoted the holistic wearability of this screen cloth through the wearing layer, the nylon fabric that the wearing layer used effectively promotes the persistence that the screen cloth was wholly used simultaneously, has promoted the holistic travelling comfort of this screen cloth through skin-friendly layer.

The sealing edge is fixedly connected to one side of the warp knitting mesh fabric, so that burrs are not easy to occur on the edge of the one side, but after the warp knitting mesh fabric is cut, other side edges except one side of the sealing edge are easy to wear, so that the burrs are generated.

Disclosure of Invention

Therefore, the antistatic mesh cloth provided by the utility model has excellent wear resistance, is not easy to generate burrs, and has good warm-keeping effect.

In order to achieve the above object, the present utility model provides the following technical solutions: the antistatic mesh comprises a first antistatic layer, a thermal insulation layer, a second antistatic layer, a mesh cloth layer and a skin-friendly layer from outside to inside in sequence, wherein the first antistatic layer, the thermal insulation layer, the second antistatic layer, the mesh cloth layer and the skin-friendly layer are compounded together through hot pressing, and the first antistatic layer and the second antistatic layer have the same structure;

the first antistatic layer is formed by interweaving a plurality of warps and a plurality of wefts in a crossing manner, the warps comprise a first warp and a second warp, the first warp comprises an antistatic fiber group, the antistatic fiber group is formed by mutually winding antistatic fibers and conductive fibers, the second warp comprises transverse polyamide fibers, the transverse polyamide fibers and the antistatic fiber group are alternately distributed, the wefts comprise vertical polyamide fibers, every two vertical polyamide fibers are attached together, the antistatic fiber group is clamped between the two vertical polyamide fibers, and the vertical polyamide fibers and the transverse polyamide fibers are interweaved in a crossing manner.

Further, a plurality of clamping cavities are formed between every two vertical polyamide fibers, the antistatic fiber groups are clamped in the clamping cavities, the antistatic fiber groups are clamped through the vertical polyamide fibers, and the antistatic fiber groups are not easy to scatter to generate burrs.

Further, the thermal insulation layer comprises thermal insulation fabric and thermal insulation fabric arranged on the outer side of the thermal insulation fabric, the thermal insulation fabric comprises protruding portions and recessed portions which are distributed at intervals, the recessed portions are in contact with the outer side of the thermal insulation fabric and are in hot-pressing compounding with the thermal insulation fabric, the first antistatic layer covers the outer side of the thermal insulation fabric, the second antistatic layer covers the inner side of the thermal insulation fabric, thermal insulation is facilitated, and comfort level of a human body is improved.

Further, a containing cavity is formed between the protruding portion and the thermal fabric, and each containing cavity is filled with a plurality of heat-storage thermal master batches for heat storage and thermal insulation, so that heat of a human body is accumulated.

Further, the thermal fabric is formed by weaving the vinyl cyanide composite fiber, and the vinyl cyanide composite fiber has the characteristics of easy dyeing, wear resistance, static resistance and the like while keeping warm and resisting bacteria, and has excellent pilling resistance, wear resistance, acid and alkali resistance and good static resistance.

Further, the heat-insulating fabric is oxford fabric and has flame-retardant heat-insulating function.

Further, the skin-friendly layer is made of pure cotton fabric, and is skin-friendly and comfortable.

The utility model has the following advantages:

1. when the mesh cloth is cut, if the cut is vertical, the vertical polyamide fiber is cut, and the vertical polyamide fiber has excellent wear resistance, so that burrs cannot be generated due to wear;

if the incision is in the horizontal, horizontal polyamide fibre and antistatic fibre group are cut, because horizontal polyamide fibre has excellent wearability, consequently can not produce the deckle edge because wearing and tearing, moreover, because vertical polyamide fibre holds antistatic fibre group, consequently antistatic fibre group is difficult for dispersing and produces the deckle edge.

2. According to the utility model, the heat of the human body is accumulated through the heat accumulating and preserving master batch, and the heat dissipation reduced through the heat insulating fabric is beneficial to preserving heat, so that the comfort level of the human body is improved.

Drawings

FIG. 1 is a schematic view of the overall structure provided by the present utility model;

fig. 2 is a schematic structural diagram of a first antistatic layer according to the present utility model;

FIG. 3 is an enlarged view of portion A of FIG. 2 provided by the present utility model;

fig. 4 is a schematic view of a thermal insulation layer structure provided by the utility model;

FIG. 5 is a bottom view of the insulating fabric of FIG. 4 provided by the present utility model;

in the figure: 1 a first antistatic layer, 2 a thermal insulation layer, 3 a second antistatic layer, 4 a net cloth layer and 5 a skin-friendly layer;

11 antistatic fiber, 12 conductive fiber, 13 transverse polyamide fiber, 14 vertical polyamide fiber and 15 clamping cavity;

21, 22 heat insulation fabrics, 23 convex parts, 24 concave parts, 25 accommodating cavities and 26 heat storage heat insulation master batches.

Detailed Description

Other advantages and advantages of the present utility model will become apparent to those skilled in the art from the following detailed description, which, by way of illustration, is to be read in connection with certain specific embodiments, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to an attached drawing 1 of the specification, the utility model provides an antistatic mesh fabric, which sequentially comprises a first antistatic layer 1, a thermal insulation layer 2, a second antistatic layer 3, a mesh fabric layer 4 and a skin-friendly layer 5 from outside to inside, wherein the first antistatic layer 1, the thermal insulation layer 2, the second antistatic layer 3, the mesh fabric layer 4 and the skin-friendly layer 5 are compounded together through hot pressing, and the first antistatic layer 1 and the second antistatic layer 3 have the same structure.

Specifically, referring to fig. 2-3 of the specification, the first antistatic layer 1 is formed by mutually intersecting and weaving a plurality of warps and a plurality of wefts; the warp comprises a first warp and a second warp, the first warp comprises an antistatic fiber group, and the antistatic fiber group is formed by intertwining antistatic fibers 11 and conductive fibers 12.

The antistatic fiber 11 is a fiber with volume resistivity less than 1010 Ω & cm under standard condition (20 ℃ and 65% relative humidity) or a fiber with static charge dissipation half life less than 60s, and the antistatic fiber 11 is not easy to accumulate static charge; the conductive fiber 12 has excellent static electricity eliminating and preventing properties, and the specific resistance value is persistent and substantially unaffected by humidity, and the conductive fiber 12 can rapidly leak and disperse generated static electricity, effectively preventing local accumulation of static electricity.

The antistatic fiber group formed by intertwining the antistatic fiber 11 and the conductive fiber 12 has an excellent antistatic effect.

The second warp comprises transverse polyamide fibers 13, the transverse polyamide fibers 13 and the antistatic fiber groups are distributed alternately, the weft comprises vertical polyamide fibers 14, every two vertical polyamide fibers 14 are attached together, the vertical polyamide fibers 14 and the transverse polyamide fibers 13 are interwoven, and the polyamide fibers are wear-resistant preferential fibers in all textile fibers, the wear resistance of the wear-resistant preferential fibers is 10 times that of cotton, 20 times that of wool and 50 times that of viscose fibers.

When the mesh cloth is cut, if the cut is vertical, the vertical polyamide fiber 14 is cut, and the vertical polyamide fiber 14 has excellent wear resistance, so that burrs cannot be generated due to wear;

if the incision is in the transverse direction, the transverse polyamide fibers 13 and the antistatic fiber group are cut, and the antistatic fiber group is not scattered easily to generate burrs because the transverse polyamide fibers 13 have excellent wear resistance, and because the antistatic fiber group is clamped between the two vertical polyamide fibers 14, a plurality of clamping cavities 15 are formed between every two vertical polyamide fibers 14, and the antistatic fiber group is clamped in the clamping cavities 15, so that the antistatic fiber group is clamped by the vertical polyamide fibers 14.

Referring to fig. 4-5 of the specification, the thermal insulation layer 2 includes a thermal insulation fabric 21 and a thermal insulation fabric 22 arranged outside the thermal insulation fabric 21.

The thermal fabric 21 is woven by using the composite fibers of the acenitrile, which breaks through the technical bottleneck of blending the natural fibers and the polyacrylonitrile fibers, successfully realizes the combination of the natural fibers and the polyacrylonitrile fibers at the molecular level, has the characteristics of easy dyeing, wear resistance, static resistance and the like while keeping warm and resisting bacteria, and has excellent pilling resistance, wear resistance, acid and alkali resistance and good static resistance.

The heat-insulating fabric 22 is oxford fabric, and the oxford fabric has flame-retardant heat-insulating function.

The heat insulation fabric 22 comprises protruding portions 23 and recessed portions 24 which are distributed at intervals, the recessed portions 24 are in contact with the outer side of the heat insulation fabric 21 and are in hot-pressing compounding with the heat insulation fabric 21, accommodating cavities 25 are formed between the protruding portions 23 and the heat insulation fabric 21, a plurality of heat storage heat insulation master batches 26 for heat storage and heat insulation are filled in each accommodating cavity 25, the heat storage heat insulation master batches 26 are made of heat storage nanometer heating new materials, and the temperature difference between 4 ℃ and 5 ℃ can be realized due to small addition.

The heat-insulating clothing can be used for making clothing, the heat of a human body is accumulated through the heat-insulating master batch 26, and the heat dissipation of the heat-insulating master batch 26 is reduced through the heat-insulating fabric 22, so that the heat insulation is facilitated, and the comfort level of the human body is improved.

In addition, the skin-friendly layer 5 is made of pure cotton fabric, and the pure cotton fabric has the advantages of high hygroscopicity, warmth retention property, high heat resistance, skin-friendly property and the like, and the skin-friendly layer 5 is in direct contact with a human body and is comfortable when the garment manufactured by the utility model is worn.

While the utility model has been described in detail in the foregoing general description and specific examples, it will be apparent to those skilled in the art that modifications and improvements can be made thereto. Accordingly, such modifications or improvements may be made without departing from the spirit of the utility model and are intended to be within the scope of the utility model as claimed.

Claims (7)

1. An antistatic mesh cloth, which is characterized in that: the anti-static heat insulation fabric comprises a first anti-static layer (1), a heat insulation layer (2), a second anti-static layer (3), a mesh cloth layer (4) and a skin-friendly layer (5) which are sequentially arranged from outside to inside, wherein the first anti-static layer (1), the heat insulation layer (2), the second anti-static layer (3), the mesh cloth layer (4) and the skin-friendly layer (5) are compounded together through hot pressing, and the first anti-static layer (1) and the second anti-static layer (3) have the same structure;

the first antistatic layer (1) is formed by mutually crossing and weaving a plurality of warps and a plurality of wefts;

the warp comprises a first warp and a second warp, the first warp comprises an antistatic fiber group, the antistatic fiber group is formed by mutually winding antistatic fibers (11) and conductive fibers (12), the second warp comprises transverse polyamide fibers (13), and the transverse polyamide fibers (13) and the antistatic fiber group are distributed at intervals;

the weft comprises vertical polyamide fibers (14), every two vertical polyamide fibers (14) are attached together, the antistatic fiber group is clamped between the two vertical polyamide fibers (14), and the vertical polyamide fibers (14) and the transverse polyamide fibers (13) are interwoven.

2. An antistatic scrim as defined in claim 1, wherein: a plurality of clamping cavities (15) are formed between every two vertical polyamide fibers (14), and the antistatic fiber groups are clamped in the clamping cavities (15).

3. An antistatic scrim as defined in claim 1, wherein: the thermal insulation layer (2) comprises a thermal insulation fabric (21) and a thermal insulation fabric (22) arranged on the outer side of the thermal insulation fabric (21), the thermal insulation fabric (22) comprises protruding portions (23) and recessed portions (24) which are distributed at intervals, and the recessed portions (24) are contacted with the outer side of the thermal insulation fabric (21) and are in thermal compression compounding with the thermal insulation fabric (21);

the first antistatic layer (1) covers the outer side of the heat insulation fabric (22), and the second antistatic layer (3) covers the inner side of the heat insulation fabric (21).

4. An antistatic scrim according to claim 3, wherein: and a containing cavity (25) is formed between the bulge (23) and the thermal fabric (21), and a plurality of thermal insulation master batches (26) for thermal insulation are filled in each containing cavity (25).

5. An antistatic scrim according to claim 3, wherein: the thermal fabric (21) is formed by knitting acetate-nitrile composite fibers.

6. An antistatic scrim according to claim 3, wherein: the heat insulation fabric (22) is oxford.

7. An antistatic scrim as defined in claim 1, wherein: the skin-friendly layer (5) is made of pure cotton fabric.