CN217373738U - Antibacterial and anti-pilling polyester fabric - Google Patents

Abstract

The utility model discloses an antibiotic anti-pilling polyester fabric relates to textile fabric technical field, aims at solving the problem that traditional surface fabric pilling easily. The key points of the technical scheme are as follows: including the interior moisture-conducting layer of reciprocal anchorage and outer wear-resisting layer, the hygroscopicity on outer wear-resisting layer is greater than interior moisture-conducting layer, and outer wear-resisting layer is woven by the wear-resisting yarn longitude and latitude of moisturizing and is formed, and the wear-resisting yarn of moisturizing includes the yarn core that sets gradually from inside to outside, the yarn of moisturizing and wear-resisting discharge yarn. The utility model discloses in be provided with fine denier polypropylene fibre, utilize the wicking effect that this type of novel material has to improve the holistic ventilative and hydrofuge performance of surface fabric.

Description

Antibacterial and anti-pilling polyester fabric

Technical Field

The utility model relates to a textile fabric technical field, more specifically says that it relates to an antibiotic anti-pilling polyester fabric.

Background

The fabric is a sheet material formed by various weaving modes of various yarns.

The traditional fabrics are various in types, most of the traditional fabrics are various fabrics, the fabrics are usually materials for manufacturing various clothes, the traditional clothes have some disadvantages more or less in the using process, one of the disadvantages is the phenomenon of pilling easily, the reason of the pilling of the fabrics is usually related to static electricity and the structure of yarns, the wearing experience of a user is usually influenced after the pilling of the fabrics, and therefore, the pilling phenomenon of the fabrics is needed to be improved by arranging a structure.

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

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide an antibiotic anti-pilling polyester fabric reaches the purpose of improving the easy pilling of surface fabric through the setting of structure.

The above technical purpose of the present invention can be achieved by the following technical solutions: this antibiotic anti-pilling polyester fabric, including the interior moisture-conducting layer and the outer wear-resisting layer of reciprocal anchorage, the hygroscopicity on outer wear-resisting layer is greater than interior moisture-conducting layer, outer wear-resisting layer is woven by the wear-resisting yarn longitude and latitude of moisturizing and is formed, the wear-resisting yarn of moisturizing includes from inside to outside the yarn core that sets gradually, the yarn of moisturizing and wear-resisting discharge yarn.

Through adopting above-mentioned technical scheme, the wear resistance that the wear-resisting layer has is strengthened the wear resistance in the surface fabric outside utilizing, the moisture-conducting performance that the moisture-conducting layer has in utilizing ensures that the surface fabric can guide inboard water to the outside, ensure user's comfort level of wearing on the one hand, on the other hand increases the water yield in the wear-resisting layer, and then ensure the stability of the whole antistatic properties of outer wear-resisting layer, reduce the balling-up phenomenon that appears on the wear-resisting layer of outer, the wear-resisting moisturizing performance that the wear-resisting yarn of utilizing moisturizing has ensures the stability of the whole wear-resisting moisturizing performance of outer wear-resisting layer, the stability of the wear-resisting yarn moisturizing performance of utilizing moisturizing, the wear resistance and the antistatic performance that the wear-resisting and discharge performance that the wear-resisting yarn that utilizes wear-resisting discharge yarn to have strengthened moisturizing.

The utility model discloses further set up to: the moisture-keeping yarn is spirally wound on the outer side of the yarn core, the wear-resistant discharging yarn is spirally wound on the outer side of the moisture-keeping yarn, and the winding directions of the moisture-keeping yarn and the wear-resistant discharging yarn are opposite.

Through adopting above-mentioned technical scheme, the setting of this structure is through keeping wet the opposite of turning to between yarn and the wear-resisting discharge yarn for realize mutual limiting displacement between the two, ensure the stability of the wear-resisting yarn structure of keeping wet, and then strengthen the anti pilling performance of the wear-resisting yarn of keeping wet.

The utility model discloses further set up to: the yarn core is formed by twisting polyester copper ion fibers, and the moisture-keeping yarn is formed by twisting modal fibers.

By adopting the technical scheme, the moisture absorption and retention of the modal fibers are utilized to ensure the stability of the moisture retention performance of the moisture-retaining yarns, and the structural strength stability of the polyester copper ion fibers is utilized to ensure the structural stability of the moisture-retaining wear-resistant yarns and the outer wear-resistant layer.

The utility model discloses further set up to: the wear-resistant discharge yarn is formed by twisting lyocell fibers, flax fibers and copper fibers.

By adopting the technical scheme, the wear-resisting and anti-pilling performance of the wear-resisting discharge yarn is ensured to be stable by utilizing the characteristics of good wear resistance and good antistatic performance of the lyocell fibers and the flax fibers, and the antistatic performance of the wear-resisting discharge yarn is enhanced by utilizing the characteristic of stable conductivity and discharge performance of the copper fibers.

The utility model discloses further set up to: the inner moisture-conducting layer is formed by plain weaving of moisture-conducting yarns, the outer wear-resistant layer is of plain weave, and the moisture-conducting yarns are formed by twisting fine denier polypropylene fibers.

Through adopting above-mentioned technical scheme, utilize the stable in structure's that plain weave had characteristics to strengthen interior wet guide and the holistic structural strength of outer wear-resisting layer, and then strengthen the holistic anti pilling performance of outer wear-resisting layer, utilize the wicking effect that fine denier polypropylene fibre has to ensure the stability of wet guide yarn and the whole wet guide performance of interior wet guide.

The utility model discloses further set up to: and the gap between the adjacent moisture-conducting yarns is larger than the gap between the adjacent moisture-preserving wear-resistant yarns.

Through adopting above-mentioned technical scheme, the setting up of this structure makes the whole structure that leads wet from the one-way of inside to outside that forms of surface fabric for the intraformational water yield of leading wet is less than the water yield on outer wear-resisting layer in the interior, reduces the static phenomenon that outer wear-resisting layer appears, and then has strengthened the anti-pilling performance on outer wear-resisting layer.

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

wear resistance that the outer wear-resisting layer of utilization has strengthens the wear resistance in the surface fabric outside, the wet performance that leads that the wet layer has in the utilization ensures that the surface fabric can guide inboard water to the outside, ensure user's comfort level of wearing on the one hand, on the other hand increases the water yield in the outer wear-resisting layer, and then ensure the stability of outer wear-resisting layer whole antistatic properties, reduce the balling-up phenomenon that appears on the outer wear-resisting layer, the wear-resisting moisturizing performance that the wear-resisting yarn that utilizes to moisturize has ensures the stability of outer wear-resisting layer whole wear-resisting moisturizing performance, utilize the moisturizing yarn to ensure the stability of moisturizing wear-resisting yarn moisturizing performance, the wear resistance and the antistatic performance that the wear-resisting and discharge performance that the wear-resisting discharge yarn that utilize to wear-resisting discharge yarn has strengthened moisturizing wear-resisting yarn.

Drawings

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

FIG. 2 is an enlarged view of FIG. 1 at A;

fig. 3 is a schematic structural view of the moisture-preserving and wear-resistant yarn of the present invention;

fig. 4 is a schematic structural view of the middle moisture-permeable yarn of the present invention.

In the figure: 1. an inner moisture-wicking layer; 2. an outer wear layer; 3. moisture-preserving wear-resistant yarns; 4. a yarn core; 5. moisture-retaining yarn; 6. wear-resistant discharge yarn; 7. terylene copper ion fiber; 8. modal fibers; 9. lyocell fibers; 10. flax fibers; 11. copper fibers; 12. moisture-conducting yarns; 13. fine denier polypropylene fiber.

Detailed Description

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

The antibacterial and anti-pilling polyester fabric comprises an inner moisture-guiding layer 1 and an outer wear-resisting layer 2 which are fixedly connected with each other in a yarn sewing mode, the moisture absorption of the outer wear-resisting layer 2 is larger than that of the inner moisture-guiding layer 1, the structure is arranged so that the inner moisture-guiding layer 1 contacted with the skin of a user can guide the moisture in the inner moisture-guiding layer into the outer wear-resisting layer 2, on one hand, the wearing comfort of the user is better, on the other hand, more moisture can be ensured in the outer wear-resisting layer 2, the electrostatic phenomenon of the outer wear-resisting layer 2 is reduced, the outer wear-resisting layer 2 is formed by weaving the moisture-preserving wear-resisting yarns 3 in a warp-weft mode, the moisture-preserving wear-resisting yarns 3 comprise yarn cores 4, moisture-preserving yarns 5 and wear-resisting discharging yarns 6 which are sequentially arranged from inside to outside, the structural strength of the yarn cores 4 is utilized to enhance the structural strength of the moisture-preserving yarns 3, the stability of the moisture-resisting yarns 3 is ensured by the moisture-preserving yarns 5, and further, the stability of the antistatic performance of the moisturizing wear-resistant yarn 3 is ensured, the wear-resistant strength and the antistatic performance of the moisturizing wear-resistant yarn 3 are enhanced by the wear-resistant and discharge performance of the wear-resistant discharge yarn 6, and the overall pilling phenomenon of the fabric is improved.

As shown in fig. 3, the 5 spiral windings of moisturizing yarn are in the outside of yarn core 4, the 6 spiral windings of wear-resisting discharge yarn are opposite in the outside of moisturizing yarn 5 and the winding direction of moisturizing yarn 5 and wear-resisting discharge yarn 6, the setting up of this structure makes the crisscross cladding of moisturizing yarn 5 and wear-resisting discharge yarn 6 make crisscross offset between the two in the outside of yarn core 4, avoid the condition that relative skidding appears in both, the holistic structural stability of 3 of the wear-resisting yarn of reinforcing moisturizing, and then the holistic anti-pilling performance of 3 of the wear-resisting yarn of reinforcing moisturizing.

As shown in fig. 3, the yarn core 4 is formed by twisting the terylene copper ion fiber 7 by a twisting machine, the structural strength stability of the terylene copper ion fiber 7 and the moisture-preserving and wear-resisting yarn 3 is ensured by utilizing the characteristics of high structural strength and good wear resistance of the terylene copper ion fiber 7, the antibacterial and bacteriostatic performance of the whole fabric is improved by utilizing the bactericidal performance of free copper ions in the terylene copper ion fiber 7, the moisture-preserving yarn 5 is formed by twisting the modal fiber 8 by the twisting machine, the high strength and good moisture absorption of the modal fiber 8 are utilized to ensure the good moisture-preserving performance of the moisture-preserving yarn 5 and the moisture-preserving and wear-resisting yarn 3, the wear-resisting and discharge yarn 6 is formed by twisting the lyocell fiber 9, the flax fiber 10 and the copper fiber 11, the stability of the whole structural strength of the wear-resisting and discharge yarn 6 is ensured by utilizing the characteristics of high strength and good wear resistance of the lyocell fiber 9 and the flax fiber 10, the phenomenon of pilling caused by the breakage of the lyocell fibers 9 and the flax fibers 10 is avoided, meanwhile, the stability of the antistatic performance of the wear-resistant discharge yarn 6 is ensured by utilizing the characteristic of good antistatic performance of the lyocell fibers 9 and the flax fibers 10, and further, the pilling phenomenon caused by the occurrence of the electrostatic phenomenon can be improved, so that the antistatic performance of the whole structure is better, the wear-resistant performance of the wear-resistant discharge yarn 6 is enhanced by utilizing the characteristic of good wear resistance of the copper fibers 11, meanwhile, the function of guiding and discharging charges in the fabric is realized by utilizing the characteristic of good conductivity of the copper fibers 11, and the pilling phenomenon caused by the occurrence of the electrostatic phenomenon is further improved.

As shown in fig. 2 and 4, the inner moisture-guiding layer 1 is formed by plain weaving of the moisture-guiding yarns 12 by a shuttle loom, the outer wear-resistant layer 2 is set to be plain weave, the stability of the integral structure of the inner moisture-guiding layer 1 and the outer wear-resistant layer 2 is ensured by utilizing the characteristic of structural stability of the plain weave structure, the stability of the integral structural strength and the wear resistance of the outer wear-resistant layer 2 is ensured at the same time, the pilling phenomenon occurring in the outer wear-resistant layer 2 is improved, the moisture-guiding yarns 12 are formed by twisting the fine denier polypropylene fibers 13 by a twisting machine, the good moisture-guiding performance of the moisture-guiding yarns 12 is ensured by utilizing the wicking effect unique to the fine denier polypropylene fibers 13, the stability of the integral moisture-guiding performance of the moisture-guiding yarns 12 is ensured, and the stability of the antistatic performance of the outer wear-resistant layer 2 is ensured by ensuring that the inner moisture-guiding layer 1 can stably guide the water inside the outer wear-resistant layer 2.

As shown in fig. 1-4, the clearance between the adjacent moisture-guiding yarns 12 is greater than the clearance between the adjacent moisture-preserving wear-resistant yarns 3, the structure can form a stable one-way moisture-guiding structure between the inner moisture-guiding layer 1 and the outer wear-resistant layer 2, the water in the inner moisture-guiding layer 1 can better flow into the outer wear-resistant layer 2 by utilizing the principle of capillary phenomenon, on one hand, the wearing influence of sweat on a user is reduced, on the other hand, the sufficient moisture in the outer wear-resistant layer 2 is ensured, the static phenomenon appearing in the outer wear-resistant layer 2 is reduced, and then the phenomenon of pilling appearing in the outer wear-resistant layer 2 caused by the appearance of the static phenomenon is improved.

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 (4)

1. An antibacterial and anti-pilling polyester fabric is characterized in that: including interior wet layer (1) and outer wear-resisting layer (2) of leading of mutual fixation, the hygroscopicity of outer wear-resisting layer (2) is greater than interior wet layer (1), outer wear-resisting layer (2) is woven by moisturizing wear-resisting yarn (3) longitude and latitude and is formed, moisturizing wear-resisting yarn (3) include from inside to outside yarn core (4), moisturizing yarn (5) and wear-resisting discharge yarn (6) that set gradually, yarn core (4) are twisted by dacron copper ion fibre (7) and are formed, moisturizing yarn (5) are twisted by Modal fibre (8) and are formed, wear-resisting discharge yarn (6) are twisted by Lyocell fibre (9), flax fibre (10) and copper fibre (11) and are formed.

2. The antibacterial and anti-pilling polyester fabric as claimed in claim 1, wherein: moisture-retaining yarn (5) spiral winding is in the outside of yarn core (4), wear-resisting discharge yarn (6) spiral winding is in the outside of moisture-retaining yarn (5) and wear-resisting discharge yarn (6) winding opposite direction.

3. The antibacterial and anti-pilling polyester fabric as claimed in claim 1, wherein: the inner moisture-conducting layer (1) is formed by plain weaving of moisture-conducting yarns (12), the outer wear-resistant layer (2) is arranged to be plain weave, and the moisture-conducting yarns (12) are formed by twisting fine denier polypropylene fibers (13).

4. The antibacterial and anti-pilling polyester fabric as claimed in claim 3, wherein: the gap between the adjacent moisture-conducting yarns (12) is larger than the gap between the adjacent moisture-preserving wear-resistant yarns (3).

Images