CN216069042U - Novel fabric - Google Patents

Abstract

The utility model discloses a novel fabric, relates to the technical field of textile fabrics, and aims to solve the problem that the traditional fabric is poor in oil stain resistance. The key points of the technical scheme are as follows: including bottom, intermediate level and the surface course of fixed connection in proper order from bottom to top, the hygroscopicity of bottom, intermediate level and surface course subtracts progressively in proper order, and the surface course is woven by anti-soil yarn longitude and latitude and is formed, and anti-soil yarn includes anti-soil core, moisture absorption cladding yarn and the anti oily yarn that sets gradually from inside to outside. The fluorocarbon material is arranged in the utility model, and the oil stain resistance of the whole structure is enhanced by utilizing the oil stain resistance of the novel material.

Description

Novel fabric

Technical Field

The utility model relates to the technical field of textile fabrics, in particular to a novel fabric.

Background

The fabric is an integral flaky material formed by different weaving modes of yarns.

With the development of economy and the progress of society, various technologies are gradually developed and mature, and the types and the purposes of fabrics are diversified, wherein the fabrics are more and more widely used in industries such as clothes, home textiles and the like, the fabrics can be also made into tablecloths to be used on dining tables, the fabrics tablecloths usually meet the condition that oil stains drip on the table tops in the using process, the traditional tablecloths usually form oil stains with large areas and deep colors on the surfaces of the tablecloths when the oil stains drip on the table tops, the tablecloths usually have a fixed cleaning period, the tablecloths are not generally cleaned and replaced after each meal unless the meal is overturned on the tablecloths, the oil stains can affect the cleanliness of the tablecloths, the mood of diners can be further affected, and therefore, a structure for reducing the cleanliness of the table tops affected by the oil stains is necessary.

The present invention proposes a new technical solution to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide a novel fabric, and the purpose of enhancing the overall oil stain resistance of the fabric is achieved through the arrangement of the structure.

The technical purpose of the utility model is realized by the following technical scheme: the utility model provides a novel fabric, includes bottom, intermediate level and the surface course of fixed connection in proper order from bottom to top, the hygroscopicity of bottom, intermediate level and surface course is steadilyd decrease in proper order, the surface course is woven by anti-soil yarn longitude and latitude and is formed, anti-soil yarn includes anti-soil core, moisture absorption cladding yarn and the anti oily yarn that sets gradually from inside to outside.

Through adopting above-mentioned technical scheme, utilize the bottom, intermediate level and surface course have the degressive performance of hygroscopicity gradually, make the oil stain of surface course can progressively enter into intermediate level and bottom in, reduce the influence of oil stain to the surface course, the whole oil resistance of surface course is strengthened to the anti-oil performance that utilizes anti-oil yarn to have, utilize moisture absorption cladding yarn to make the inside of anti-soil yarn can adsorb partial greasy dirt, reduce the time that the greasy dirt stops on surface course surface, the holistic antipollution of anti-soil yarn is further strengthened to the performance that utilizes anti-soil core to have.

The utility model is further configured to: the oil-resistant yarn comprises a first oil-resistant folded yarn and a second oil-resistant folded yarn which are spirally wound, wherein the first oil-resistant folded yarn is formed by twisting polypropylene fibers, and a fluorocarbon material is arranged in the second oil-resistant folded yarn.

Through adopting above-mentioned technical scheme, utilize the anti-oil performance that fluorocarbon material has to ensure that anti-oil strand two has stable anti-oil, the wet permeability that utilizes polypropylene fiber to have makes anti-oil yarn have stable wet permeability for the oil stain of surface course can enter into in intermediate level and the bottom layer sooner, reduces the production of oil stain area.

The utility model is further configured to: the oil-resistant folded yarn II is formed by twisting cotton fibers, and the moisture-absorbing wrapping yarn is formed by twisting cotton fibers and bamboo charcoal fibers.

By adopting the technical scheme, the oil-resistant strand II can absorb more fluorocarbon materials by utilizing the characteristic of good hygroscopicity of the cotton fibers, so that the stability of the oil-resistant performance of the oil-resistant strand is ensured, and the bacteriostatic property of the whole structure is enhanced by utilizing the bacteriostatic property of the bamboo carbon fibers.

The utility model is further configured to: the anti-fouling core is formed by twisting glass fibers.

By adopting the technical scheme, the characteristic that the glass fiber has poor hygroscopicity is utilized to prevent oil stains from being absorbed into the anti-fouling core, so that the anti-fouling performance of the anti-fouling yarn is enhanced.

The utility model is further configured to: the middle layer is formed by warp and weft weaving of moisture permeable yarns, and the moisture permeable yarns are formed by twisting polypropylene copper ion fibers.

Through adopting above-mentioned technical scheme, utilize polypropylene fibre copper ion fibre to have the poor characteristics of hygroscopicity for oil stain on entering into the intermediate level can cross the intermediate level better and get into in the bottom layer, reduces the influence of oil stain to the surface course, utilizes free copper ion to ensure that the intermediate level has stable antibacterial performance simultaneously.

The utility model is further configured to: the bottom layer is formed by weaving moisture absorption yarns in a warp-weft mode, and the moisture absorption yarns are formed by twisting bamboo fibers and ramie fibers.

Through adopting above-mentioned technical scheme, utilize the moisture absorption that bamboo fiber and ramie fiber have effectual with the stable characteristics of moisture absorption effect to ensure that moisture absorption yarn and bottom have stable moisture absorption performance, realize the stable absorption of oil stain and accomodate, utilize the antibacterial performance that bamboo fiber and ramie fiber have to strengthen the holistic antibacterial performance of structure.

The utility model is further configured to: the bottom of the bottom layer is fixedly connected with an anti-penetration layer.

Through adopting above-mentioned technical scheme, the impervious layer of setting realizes the stable separation to the oil stain, avoids the oil stain to see through whole desktop that is infected with.

In conclusion, the utility model has the following beneficial effects:

utilize the bottom, intermediate level and surface course have the degressive performance that subtracts progressively for the oil stain of surface course can progressively enter into in intermediate level and the bottom course, reduce the influence of oil stain to the surface course, the whole anti-oiliness of surface course is strengthened to the anti-oil performance that utilizes anti-oil yarn to have, utilize moisture absorption cladding yarn to make the inside of anti-soil yarn can adsorb partial greasy dirt, reduce the time that the greasy dirt stops on the surface course surface, the holistic antipollution of anti-soil yarn is further strengthened to the performance that utilizes anti-soil core to have.

Drawings

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

FIG. 2 is an enlarged view taken at A in FIG. 1;

FIG. 3 is a schematic structural view of a soil resistant yarn of the present invention;

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

fig. 5 is a schematic view of the structure of the absorbent yarn of the present invention.

In the figure: 1. a bottom layer; 2. an intermediate layer; 3. a surface layer; 4. an anti-soil yarn; 5. an anti-soil core; 6. moisture-absorbing wrap yarns; 7. oil-resistant yarn; 8. oil-resistant strand I; 9. a second oil-resistant folded yarn; 10. polypropylene fibers; 11. cotton fibers; 12. bamboo charcoal fiber; 13. glass fibers; 14. moisture permeable yarns; 15. polypropylene copper ion fiber; 16. a moisture-wicking yarn; 17. bamboo fiber; 18. ramie fibers; 19. and a permeation-proof layer.

Detailed Description

The utility model is described in detail below with reference to the figures and examples.

A novel fabric comprises a bottom layer 1, a middle layer 2 and a surface layer 3 which are sequentially fixedly connected in a yarn sewing mode from bottom to top, the bottom layer 1, the middle layer 2 and the surface layer 3 are fixedly connected in a yarn sewing mode, more pores can be formed among yarns of the bottom layer 1, the middle layer 2 and the surface layer 3, oil stains can better fall into the middle layer 2 and the bottom layer 1, the influence of the oil stains on the surface layer 3 is reduced, the hygroscopicity of the bottom layer 1, the middle layer 2 and the surface layer 3 is gradually reduced, the structure ensures that the oil stains can better fall into the middle layer 2 and the bottom layer 1, the surface layer 3 is formed by plain weaving of anti-fouling yarns 4 through a shuttle loom, the anti-fouling yarns 4 comprise anti-fouling cores 5, moisture absorption covering yarns 6 and anti-oil yarns 7 which are sequentially arranged from inside to outside, the retention time of the oil stains on the surfaces of the anti-fouling yarns 4 is reduced by utilizing the oil resistance of the anti-oil yarns 7, the moisture absorption covering yarn 6 is utilized to absorb oil stains, so that the oil stains on the surface of the oil-resistant yarn 7 can better enter the anti-oil stain yarn 4, and the time for the oil stains to stay on the surface of the oil-resistant yarn 7 is shortened.

As shown in fig. 2 and 3, the oil-resistant yarn 7 includes a first oil-resistant strand 8 and a second oil-resistant strand 9, the first oil-resistant strand 8 is formed by twisting polypropylene fibers 10 by a twisting machine, fluorocarbon materials are arranged in the second oil-resistant strand 9, the second oil-resistant strand 9 is formed by twisting cotton fibers 11 by the twisting machine, the second oil-resistant strand 9 can absorb more fluorocarbon materials when being soaked by utilizing the characteristic of good moisture absorption of the cotton fibers 11, the second oil-resistant strand 9 is ensured to have stable oil-resistant performance by utilizing the oil-resistant performance of the fluorocarbon materials and sufficient fluorocarbon materials in the second oil-resistant strand 9, the moisture-absorbing covering yarn 6 is formed by twisting the cotton fibers 11 and the bamboo charcoal fibers 12, and the oil stain entering the oil-resistant yarn 4 can be absorbed into the moisture-absorbing yarn 6 more quickly by utilizing the stable moisture absorption performance of the cotton fibers 11 and the bamboo charcoal fibers 12, shorten the time that the greasy dirt stayed in the anti-oil yarn 7 outside, and then reduce the influence of greasy dirt to surface layer 3 surface, utilize the performance of the absorption peculiar smell that bamboo charcoal fiber 12 has and degerming to further strengthen the holistic performance of structure simultaneously, anti-soil core 5 is twisted by glass fiber 13 and forms, the inside that the hygroscopicity that utilizes glass fiber 13 to have was poor comes the reduction greasy dirt to enter into anti-soil core 5 for the greasy dirt can flow into in intermediate level 2 and the bottom 1 more.

As shown in fig. 2 and 4, the intermediate layer 2 is formed by plain weaving of moisture permeable yarns 14 by a shuttle loom, the moisture permeable yarns 14 are formed by twisting polypropylene copper ion fibers 15 by a twisting machine, and the wicking effect unique to the polypropylene copper ion fibers 15 is utilized to realize the flow guiding effect on oil stains, so that the oil stains entering the moisture permeable yarns 14 and the intermediate layer 2 can flow to the bottom layer 1 through crossing the intermediate layer 2 more quickly, the influence of the oil stains on the surface layer 3 is reduced, and the antibacterial property of the whole structure is further enhanced by utilizing the bactericidal property of free copper ions in the polypropylene copper ion fibers 15.

As shown in fig. 2 and 5, the bottom layer 1 is formed by plain weaving of the moisture absorption yarn 16 by the shuttle loom, the moisture absorption yarn 16 is formed by twisting the bamboo fiber 17 and the ramie fiber 18, and the moisture absorption yarn 16 can stably absorb oil stains by utilizing the characteristics of good moisture absorption of the bamboo fiber 17 and the ramie fiber 18, and can inhibit and kill the microbial breeding process by utilizing the bacteriostatic and bactericidal performances of the bamboo fiber 17 and the ramie fiber 18, so that the damage of harmful substances generated in the microbial breeding process to a user can be reduced, and the stable protection of the user can be realized.

As shown in fig. 1 and 2, adhesive fixedly connected with anti-permeability layer 19 is passed through to the bottom of bottom 1, and anti-permeability layer 19's material sets up to rubber, utilizes the waterproof performance that rubber has to realize avoiding oil stain influence desktop to the separation of the oil stain that oozes down from surface course 3, intermediate level 2 and bottom 1, utilizes the rough surface's that rubber has characteristics simultaneously for the state that anti-permeability layer 19 placed on the desktop is more stable.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the utility model may occur to those skilled in the art without departing from the principle of the utility model, and are considered to be within the scope of the utility model.

Claims (7)

1. A novel fabric is characterized in that: including bottom (1), intermediate level (2) and surface course (3) from bottom to top fixed connection in proper order, the hygroscopicity of bottom (1), intermediate level (2) and surface course (3) is degressive in proper order, surface course (3) are woven by anti-soil yarn (4) longitude and latitude and are formed, anti-soil yarn (4) are including anti-soil core (5), moisture absorption cladding yarn (6) and anti oily yarn (7) that set gradually from inside to outside.

2. The novel fabric according to claim 1, wherein: the oil-resistant yarn (7) comprises a first spirally wound oil-resistant folded yarn (8) and a second spirally wound oil-resistant folded yarn (9), wherein the first oil-resistant folded yarn (8) is formed by twisting polypropylene fibers (10), and a fluorocarbon material is arranged in the second oil-resistant folded yarn (9).

3. The novel fabric according to claim 2, wherein: the oil-resistant folded yarn II (9) is formed by twisting cotton fibers (11), and the moisture-absorbing wrapping yarn (6) is formed by twisting cotton fibers (11) and bamboo charcoal fibers (12).

4. The novel fabric according to claim 1, wherein: the anti-fouling core (5) is formed by twisting glass fibers (13).

5. The novel fabric according to claim 1, wherein: the middle layer (2) is formed by warp and weft weaving of moisture permeable yarns (14), and the moisture permeable yarns (14) are formed by twisting polypropylene copper ion fibers (15).

6. The novel fabric according to claim 1, wherein: bottom layer (1) is formed by moisture absorption yarn (16) warp and weft knitting, moisture absorption yarn (16) are formed by bamboo fibre (17) and ramie fibre (18) twisting.

7. The novel fabric according to claim 1, wherein: the bottom of the bottom layer (1) is fixedly connected with an anti-penetration layer (19).

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