CN218436095U - Antistatic grey cloth - Google Patents

Abstract

The utility model discloses an antistatic grey cloth relates to the fabric, aims at solving prior art, and grey cloth and cloth roller friction easily produce and carry static, make dust and impurity easily adsorb on the surface of grey cloth, can influence the problem of stamp or bleaching and dyeing effect, and its technical scheme main points are: including a plurality of integrated into one piece's crease-resistant portion, parent's skin portion and rib, crease-resistant portion, parent's skin portion and rib are all woven through a plurality of warps and woof and are formed, and the warp includes parent's skin yarn, hygroscopic yarn and crease-resistant electrically conductive yarn, and parent's skin portion weaves into plain weave through a plurality of parent's skin yarn and woof, the utility model discloses simple structure, through hygroscopic capacity and the crease-resistant ability who utilizes rib and crease-resistant portion, can guarantee crease-resistant nature and the hygroscopicity of grey cloth, can improve the antistatic properties of grey cloth to can reduce dust and impurity and adhere to the surface at grey cloth, improve the effect of stamp, through the silk yarn, can improve the moisture absorption of rib and put the moisture, more be favorable to guaranteeing the moist condition of grey cloth.

Description

Antistatic grey cloth

Technical Field

The utility model relates to a fabric, more specifically say, it relates to an antistatic grey cloth.

Background

The grey cloth refers to natural color cotton cloth for printing and dyeing processing, the industrial grey cloth generally refers to cloth or laminated grey cloth, namely, the grey cloth which is not bleached and dyed from the top to the bottom of a weaving machine, and the smooth grey cloth refers to the grey cloth which is bleached and dyed, and along with the improvement of living standard, the application of grey cloth products is increasingly wide, and the demand of domestic and foreign grey cloth materials is increasing day by day. The grey cloth material needs the advantages of good air permeability, water absorption, elasticity, good hand feeling and the like, but has higher cost.

After the grey cloth is subjected to steps of warping, sizing, drying and the like, patterns are formed on the surface of the grey cloth in a printing or dyeing and finishing mode, the grey cloth on the market is usually woven by materials such as chemical fibers, and in the cloth feeding and other processes, the grey cloth is easy to rub a cloth roller, static electricity is generated and carried on the grey cloth, and dust and impurities are adsorbed on the surface of the grey cloth in the advancing and other processes, so that the printing or bleaching and dyeing effects are influenced.

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

SUMMERY OF THE UTILITY MODEL

To the deficiency that prior art exists, the utility model aims to provide an antistatic grey cloth.

The above technical purpose of the present invention can be achieved by the following technical solutions: the utility model provides an antistatic grey cloth, includes a plurality of integrated into one piece's crease-resistant portion, close skin portion and rib, crease-resistant portion, close skin portion and rib are all woven through a plurality of warps and woof and are formed, the warp includes close skin yarn, moisture absorption yarn and crease-resistant electrically conductive yarn, close skin portion weaves into plain weave tissue through a plurality of close skin yarn and woof, crease-resistant portion and rib weave into leno tissue through a plurality of crease-resistant electrically conductive yarn, moisture absorption yarn and woof respectively, just the titer of moisture absorption yarn is greater than the titer of close skin yarn and woof, is less than the titer of crease-resistant electrically conductive yarn.

By adopting the technical scheme, grey cloth adopts crease resistant portion, rib part and close skin portion integrated into one piece, the fibre number of hygroscopic yarn is greater than the fibre number of close skin yarn and woof, be less than the fibre number of crease-resistant electrically conductive yarn, the three-dimensional effect on grey cloth surface has been improved, can be at grey cloth in-process such as cloth feeding, can reduce the area of contact of grey cloth and cloth roller, thereby can reduce the production of static, because crease-resistant electrically conductive yarn has crease-resistant ability and conducting capacity, can dredge the static ion that carries on the crease-resistant portion, can also improve the crease-resistant performance of grey cloth, simultaneously because hygroscopic yarn has the moisture absorption ability, can dredge the moisture that carries on close skin portion, and can improve the electric conductivity of crease-resistant portion under the humid condition, make when the stamp, can reduce dust and impurity and attach to the surface of grey cloth, thereby the effect of stamp has been improved.

The utility model discloses further set up to: crease-resistant portion, close skin portion and rib three crisscross setting, the rib is located between close skin portion and the crease-resistant portion, just crease-resistant portion includes two crease-resistant strips, the rib includes two enhancement strips, and adjacent between the enhancement strip, all be equipped with a plurality of bleeder vents between enhancement strip and the crease-resistant strip.

Through adopting above-mentioned technical scheme, because the rib locates between close skin portion and the crease-resistant portion, increased the area of contact of moisture absorption yarn and crease-resistant portion, be favorable to guaranteeing the humidity of crease-resistant layer to further improved the electric conductive property of crease-resistant portion, further reduced dust and impurity and attached on grey cloth, and through setting up the bleeder vent, can improve the gas permeability of grey cloth, travelling comfort when can improving the dress.

The utility model discloses further set up to: the gauze weave uses eight paths as a cycle, and the structural weave thereof sequentially comprises from left to right: the structural organization of the first path and the fourth path is four, one above the other; the structural organization of the second path and the third path is four, one for one; the structural organization of the fifth path, the sixth path, the eleventh path and the twelfth path is two, upper, lower and lower; the structure of the seventh, eighth, ninth and tenth ways are all two lower and two upper.

By adopting the technical scheme, the structural organization of the first path and the fourth path is four, one above the other; the structural organization of the second path and the third path is four, one for one; the structural organization of the fifth path, the sixth path, the eleventh path and the twelfth path is two, upper, lower and lower; the structure tissue of the seventh way, the eighth way, the ninth way and the tenth way is two and two, the lower part and the upper part, floating points generated by the anti-wrinkle conductive yarn are reduced, the possibility that the anti-wrinkle conductive yarn is hooked is reduced, the weaving strength between the anti-wrinkle conductive yarn and weft yarn is improved, and the anti-wrinkle property of the fabric is favorably ensured.

The utility model discloses further set up to: the denier of the skin-friendly yarn and the denier of the weft yarn are 65D, the denier of the moisture-absorbing yarn is 80D, the denier of the anti-wrinkle conductive yarn is 122D, the skin-friendly part is woven by four skin-friendly yarns and the weft yarn, the reinforcing strip is woven by two mutually interwoven moisture-absorbing yarns and the weft yarn, the anti-wrinkle strip is woven by four anti-wrinkle conductive yarns and the weft yarn, and any two anti-wrinkle conductive yarns are synthesized into one strand.

By adopting the technical scheme, the reinforcing strip is woven by the two mutually interwoven moisture-absorbing yarns and the weft yarns, the crease-resistant strip is woven by the four crease-resistant conductive yarns and the weft yarns, the titer of the skin-friendly yarns and the titer of the weft yarns are 65D, the titer of the moisture-absorbing yarns is 80D, and the titer of the crease-resistant conductive yarns is 122D, so that the three-dimensional effect of the surface of grey cloth is improved, and the crease-resistant function of the fabric is further improved.

The utility model discloses further set up to: the anti-wrinkle conductive yarn is formed by stranding anti-wrinkle yarns and conductive yarns which are twisted with each other, the anti-wrinkle yarns are formed by twisting a plurality of polyester-linen blended yarns, and the conductive yarns are formed by twisting a plurality of conductive fibers.

By adopting the technical scheme, the polyester-flax blended yarn has the advantages of coolness, good moisture absorption and desorption performance, good crease resistance and good dyeability, and can be favorable for ensuring the wettability, crease resistance and skin affinity of the crease-resistant conductive yarn, so that the conductive fiber can better dredge static electricity, the generation of static electricity is further reduced, and the grey cloth can be dyed more favorably.

The utility model discloses further set up to: the skin-friendly yarn is formed by twisting Shengma yarn and tencel, the moisture absorption yarn is formed by twisting a plurality of silk yarns, the weft yarn comprises a yarn core and a plurality of linen yarns wound on the yarn core, and the yarn core is formed by twisting a plurality of bamboo fibers.

Through adopting above-mentioned technical scheme, because the silk yarn has better function of putting wet and prevent static function, can disperse its self moisture to crease-resistant portion to because linen yarn and bamboo fibre all have better hygroscopicity, be favorable to guaranteeing the wettability of crease-resistant conductive yarn like this, thereby further reduced grey cloth to the production of static.

To sum up, the utility model discloses following beneficial effect has:

grey cloth adopts crease resistant portion, rib part and close skin portion integrated into one piece, the fibre number of moisture absorption yarn is greater than the fibre number of close skin yarn and woof, be less than the fibre number of crease-resistant electrically conductive yarn, the three-dimensional effect on grey cloth surface has been improved, can be at grey cloth in-process such as advancing cloth, can reduce the area of contact of grey cloth and cloth roller, thereby can reduce the production of static, because crease-resistant electrically conductive yarn has crease-resistant ability and conducting capacity, can dredge the static ion that carries on the crease-resistant portion, can also improve the crease-resistant performance of grey cloth, simultaneously because moisture absorption yarn has the hygroscopic capacity, can dredge the moisture that close skin portion carried, and can improve the electric conductive property of crease-resistant portion under the humid condition, make when the stamp, can reduce dust and impurity and attach to the surface of grey cloth, thereby the effect of stamp has been improved.

Drawings

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

FIG. 2 is an organizational chart of the present invention;

fig. 3 is a schematic structural view of the crease-resistant conductive yarn of the present invention.

In the figure: 1. a wrinkle-resistant portion; 2. a skin-friendly portion; 3. a reinforcing portion; 4. a weft yarn; 5. skin-friendly yarn; 6. a moisture-absorbing yarn; 7. crease-resistant conductive yarn; 8. air holes are formed; 9. anti-wrinkle yarn; 10. a conductive yarn; 11. and (3) polyester-flax blended yarn.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

The embodiment is as follows:

an antistatic grey fabric is shown in figures 1-3 and comprises a plurality of integrally formed crease resistant portions 1, skin-friendly portions 2 and reinforcing portions 3, the crease resistant portions 1, the skin-friendly portions 2 and the reinforcing portions 3 are formed by weaving a plurality of warps and wefts 4, the warps comprise skin-friendly yarns 5, moisture-absorbing yarns 6 and crease-resistant conductive yarns 7, the skin-friendly portions 2 are woven into plain weave by the skin-friendly yarns 5 and the wefts 4, the crease resistant portions 1 and the reinforcing portions 3 are woven into leno weave by the wrinkle-resistant conductive yarns 7, the moisture-absorbing yarns 6 and the wefts 4 respectively, and the titer of the moisture-absorbing yarns 6 is larger than that of the skin-friendly yarns 5 and the wefts 4 and smaller than that of the crease-resistant conductive yarns 7.

As shown in fig. 1 and 2, crease-resistant portion 1, close skin portion 2 and 3 three crisscross settings of rib, rib 3 locates between close skin portion 2 and crease-resistant portion 1, and crease-resistant portion 1 includes two crease-resistant strips, rib 3 includes two enhancement strips, and between the adjacent enhancement strip, all be equipped with a plurality of bleeder vents 8 between enhancement strip and the crease-resistant strip, the titer of close skin yarn 5 and woof 4 is 65D, the titer of moisture absorption yarn 6 is 80D, the titer of crease-resistant electrically conductive yarn 7 is 122D, close skin portion 2 is worked out with woof 4 through four close skin yarns 5, the rib is worked out with woof 4 through two moisture absorption yarns 6 that interweave each other, crease-resistant strip is worked out through four crease-resistant electrically conductive yarns 7 and woof 4, and two arbitrary crease-resistant electrically conductive yarns 7 are synthetic one.

As shown in fig. 2, the leno weave takes eight paths as a cycle, and the structural weave thereof sequentially comprises from left to right: the structural organization of the first path and the fourth path is four, one above the other; the structural organization of the second path and the third path is four, one for one; the structural organization of the fifth path, the sixth path, the eleventh path and the twelfth path is two, upper, lower and lower; the structure of the seventh, eighth, ninth and tenth ways are all two lower and two upper.

As shown in fig. 3, the anti-wrinkle conductive yarn 7 is formed by twisting an anti-wrinkle yarn 9 and a conductive yarn 10 which are twisted with each other, the anti-wrinkle yarn 9 is formed by twisting a plurality of polyester-flax blended yarns 11, the conductive yarn 10 is formed by twisting a plurality of conductive fibers, in the present embodiment, the conductive fibers are chemical fibers spun by mixing a conductive medium in a polymer, and include carbon fibers, the skin-friendly yarn 5 is formed by twisting a sance hemp yarn and a tencel, the moisture-absorbing yarn 6 is formed by twisting a plurality of silk yarns, the weft yarn 4 includes a yarn core and a plurality of linen yarns wound on the yarn core, and the yarn core is formed by twisting a plurality of bamboo fibers.

The working process is as follows: the gray fabric is integrally formed by the crease-resistant part 1, the reinforcement part 3 and the skin-friendly part 2, the reinforcement strip is woven by two mutually interwoven moisture-absorbing yarns 6 and weft yarns 4, the crease-resistant strip is woven by four crease-resistant conductive yarns 7 and weft yarns 4, the titer of the skin-friendly yarns 5 and the titer of the weft yarns 4 are 65D, the titer of the moisture-absorbing yarns 6 is 80D, the titer of the crease-resistant conductive yarns 7 is 122D, the three-dimensional effect of the surface of the gray fabric is improved, the contact area of the gray fabric and a cloth roller can be reduced in the cloth feeding process and other processes of the gray fabric, the generation of static electricity can be reduced, the moisture-absorbing performance of the crease-resistant conductive yarns 7, the crease-resistant performance and the skin-friendly performance can be favorably ensured through the crease-resistant yarns 9 and the conductive yarns 10, the conductive fibers can better dredge static electricity, meanwhile, the moisture of the silk yarns can be dispersed to the crease-resistant part 1 due to the better moisture releasing function and the anti-static electricity function, the moisture of the silk yarns can be dispersed to the crease-resistant part 1, the moisture of the silk fabric and the anti-wrinkle fabric can be favorably ensured, the moisture-absorbing performance of the crease-absorbing layer and the anti-wrinkle part 3 and the anti-static electricity, the moisture-absorbing effect of the crease-absorbing layer can be improved, the anti-wrinkle fabric can be further improved, the moisture-absorbing effect of the crease-absorbing fabric when the fabric is improved, the fabric, the crease-absorbing effect of the crease-resistant fabric, the crease-resistant fabric is improved, the crease-resistant fabric, the fabric is further improved.

The structure organization of the first path and the fourth path is four, one above the other; the structural organization of the second path and the third path is four, one for one; the structure organization of the fifth path, the sixth path, the eleventh path and the twelfth path is two, upper, lower and lower; the structure tissues of the seventh path, the eighth path, the ninth path and the tenth path are two, two lower and two upper, floating points generated by the anti-wrinkle conductive yarn 7 are reduced, the possibility that the anti-wrinkle conductive yarn 7 is hooked is reduced, the knitting strength between the anti-wrinkle conductive yarn 7 and the weft yarn 4 is improved, the anti-wrinkle property of the fabric is favorably ensured, and the service life of the grey fabric is prolonged.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (6)

1. An antistatic grey cloth is characterized in that: including a plurality of integrated into one piece's crease-resistant portion (1), close skin portion (2) and rib (3), crease-resistant portion (1), close skin portion (2) and rib (3) are all woven through a plurality of warps and woof (4) and are formed, the warp includes close skin yarn (5), moisture absorption yarn (6) and crease-resistant electrically conductive yarn (7), close skin portion (2) are woven into plain weave through a plurality of close skin yarn (5) and woof (4), crease-resistant portion (1) and rib (3) are woven into leno tissue through a plurality of crease-resistant electrically conductive yarn (7), moisture absorption yarn (6) and woof (4) respectively, just the titer of moisture absorption yarn (6) is greater than the titer of close skin yarn (5) and woof (4), is less than the titer of crease-resistant electrically conductive yarn (7).

2. The antistatic gray fabric of claim 1, wherein: crease-resistant portion (1), parent's skin portion (2) and rib (3) three crisscross setting, between parent's skin portion (2) and crease-resistant portion (1) are located in rib (3), just crease-resistant portion (1) includes two crease-resistant strips, rib (3) include two enhancement strips, and adjacent between the enhancement strip, all be equipped with a plurality of bleeder vents (8) between enhancement strip and the crease-resistant strip.

3. An antistatic gray fabric according to claim 1 wherein: the leno weave uses eight paths as a circulation, and the structural weave thereof sequentially comprises from left to right: the structural organization of the first path and the fourth path is four, one above the other; the structural organization of the second path and the third path is four, one for one; the structural organization of the fifth path, the sixth path, the eleventh path and the twelfth path is two, upper, lower and lower; the structure of the seventh, eighth, ninth and tenth ways are all two lower and two upper.

4. An antistatic gray fabric according to claim 2 wherein: the denier of parent skin yarn (5) and woof (4) is 65D, the denier of moisture absorption yarn (6) is 80D, the denier of crease-resistant electrically conductive yarn (7) is 122D, parent skin portion (2) are worked out with woof (4) through four parent skin yarns (5), the enhancement strip is worked out with woof (4) through two moisture absorption yarns (6) that interweave each other, crease-resistant strip is worked out through four crease-resistant electrically conductive yarn (7) and woof (4), and arbitrary two crease-resistant electrically conductive yarn (7) are synthetic one.

5. An antistatic gray fabric according to claim 1 wherein: the anti-wrinkle conductive yarn (7) is formed by stranding anti-wrinkle yarns (9) and conductive yarns (10) which are twisted with each other, the anti-wrinkle yarns (9) are formed by twisting a plurality of polyester-flax blended yarns (11), and the conductive yarns (10) are formed by twisting a plurality of conductive fibers.

6. An antistatic gray fabric according to claim 1 wherein: parent's skin yarn (5) are formed through saint numb yarn and tencel twisting, moisture absorption yarn (6) are formed through a plurality of silk yarn twists, woof (4) include yarn core and a plurality of linen thread of twining on the yarn core, the yarn core forms through a plurality of bamboo fibre twists.

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