CN209816397U - Jean fabric - Google Patents

Abstract

The utility model discloses a jean fabric, which is formed by interweaving warp yarns and weft yarns; the weft yarn is a fiber containing nano activated carbon particles or a core-spun yarn taking the fiber as a core, and the yarn count range of the weft yarn is 75D-450D; or the weft yarn is a blended yarn containing the fiber, and the yarn count range of the weft yarn is 8S-40S; the number of weft floats of the weft yarn is at least 3. The utility model provides a denim fabric, solved traditional denim fabric moisture absorption sweat-discharging performance not good and not durable problem.

Description

Jean fabric

Technical Field

The utility model relates to a surface fabric textile sector especially relates to a denim surface fabric.

Background

In recent years, with the improvement of living standard, people have demanded clothes which are not only for covering and keeping out cold, but also for novel style, beauty, comfort, hygiene, health care and the like. The jean fabric is originated from the United states of 1850 years, is a fashionable pet so far, and is a leisure clothes fabric which is popular with the public consumers. However, the traditional jean fabric does not have the functions of moisture absorption and sweat releasing, particularly in summer, the temperature is hot, people usually wear jean pants and can feel hot and sticky, and the using performance of the jean fabric in summer is greatly reduced. In order to meet the requirement of people on the denim fabric in summer, the denim fabric capable of meeting the performance required by users is developed by various methods in the market, for example, a layer of moisture absorption and sweat releasing coating is coated on the bottom surface of the denim fabric, or special soft oil is added during the washing of ready-made clothes to achieve the moisture absorption and sweat releasing functions, but the moisture absorption and sweat releasing functions of the denim fabric prepared by the methods are not durable, and the functions can be slowly weakened or lost after being washed for many times.

Accordingly, the prior art is yet to be improved and developed.

SUMMERY OF THE UTILITY MODEL

In view of the above prior art, an object of the utility model is to provide a denim fabric, adopt the fibre that contains nanometer activated carbon particle in this denim fabric's the woof, make denim fabric have moisture absorption sweat-discharging, quick-drying, antibacterial etc. effect, and have with endurance, aim at solving the problem that current denim fabric moisture absorption sweat-discharging performance is not durable.

A jean fabric is formed by interweaving warp yarns and weft yarns; the weft yarn is a fiber containing nano activated carbon particles or a core-spun yarn taking the fiber as a core, and the yarn count range of the weft yarn is 75D-450D; or the weft yarn is a blended yarn containing the fiber, and the yarn count range of the weft yarn is 8S-40S; the number of weft floats of the weft yarn is at least 3.

The denim fabric is characterized in that the weave structure of the denim fabric is satin or twill.

The jean fabric is characterized in that the weave structure of the jean fabric adopts 3/1 twill.

The jean fabric is of a double-layer weave structure, weft yarns are divided into surface weft yarns and lining weft yarns, and the surface weft yarns and the lining weft yarns are arranged at intervals; the surface weft yarns and the warp yarns are interwoven into a cloth surface layer, and the inner weft yarns and the warp yarns are interwoven into a cloth bottom layer;

the inner weft yarns are fibers containing nano activated carbon particles, core-spun yarns taking the fibers as cores, or blended yarns containing the fibers; the warp yarn float length on the inner weft yarn is more than or equal to 3.

The denim fabric comprises a first weft in-line structure point, 7 first warp in-line structure points, a second weft in-line structure point and 7 second warp in-line structure points, wherein the structure points are arranged on each weft in-line; the combination of the weave points is circularly arranged on the inner weft yarns;

on each surface weft yarn, the arrangement of the weave points sequentially comprises a first surface weft structure point, a first surface warp structure point, a second surface weft structure point, two second surface warp structure points, two third surface weft structure points, three third surface warp structure points, two fourth surface weft structure points and four fourth surface warp structure points; the combination of the weave points is circularly arranged on the surface weft yarns;

the weft flying number of the first weft-in structure point between adjacent weft-in yarns is 3;

the weft flying number of a first weft-weft structure point between adjacent weft-weft yarns is 3;

and one warp yarn is arranged between the first inner weft structure point and the first outer weft structure point on the adjacent inner weft yarn and outer weft yarn.

The denim fabric is characterized in that the surface weft yarns are cotton yarns, cotton-covered elastic yarns, tencel, modal or cotton blended yarns; the count range of the surface weft yarns is between 8S and 40S.

The denim fabric comprises surface weft yarns and surface weft yarns, wherein the surface weft yarns are fibers containing nano activated carbon particles, core-spun yarns taking the fibers as cores, or blended yarns containing the fibers.

The denim fabric is characterized in that the warp yarns are cotton yarns, tencel, modal, blended yarns of cotton and other fibers or core-spun yarns of cotton and other fibers; the yarn count of the warp yarn ranges from 6S to 40S.

The denim fabric is characterized in that the warp yarns are cotton yarns.

The denim fabric is characterized in that the warp yarns are indigo yarns.

Has the advantages that: the utility model provides a denim fabric adopts the fibre that contains nanometer activated carbon particle in the woof to adopt this fibre cooperation warp of specific yarn count within range to interweave and form denim fabric, make denim fabric possess moisture absorption, quick-drying, antibacterial, deodorization lastingly, ultraviolet resistance, ventilative multiple functions, solved traditional denim fabric moisture absorption sweat releasing performance not good and not durable problem.

Drawings

Fig. 1 is a schematic view of the structure cycle of the jean fabric of the present invention.

Fig. 2 is a schematic view of the weave cycle of another embodiment of the jean fabric of the present invention.

Fig. 3 is a schematic plan view of the bottom of the jean fabric of the present invention.

Detailed Description

The utility model provides a jean surface fabric, for making the utility model discloses a purpose, technical scheme and effect are clearer, more clear and definite, following right the utility model discloses further detailed description. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The utility model provides a jean fabric, which is formed by interweaving warps and wefts, wherein the wefts adopt fibers containing nano activated carbon particles; the weft yarn can be fiber containing nano activated carbon particles or core-spun yarn taking the fiber as a core, and the yarn count range is 75D-450D; also can be blended yarn containing the fiber, and the yarn count range is 8S-40S; the number of weft floats of the weft yarn is at least 3.

The fiber containing nano activated carbon particles is produced by cocona technology with 37.5, and can manage the body temperature and skin humidity and maintain the body at 37.5% humidity and 37.5 ℃ core body temperature. Prior to the filing date, the technology was directed to the sportswear market. In the scheme, in order to solve the problem that the conventional denim fabric is poor in moisture absorption and sweat release, the fiber containing the nano activated carbon particles is used in the denim fabric, so that the denim fabric has the moisture absorption and sweat release functions. Thus, even in summer, the fiber containing the nano activated carbon particles does not have hot and sticky feeling, and the nano activated carbon particles are embedded into the fiber layer for spinning, so the fiber is not a finishing process, has permanent functions, does not lose efficacy and has good durability.

Specifically, the yarn count range of the warp yarns of the denim fabric is 6S-40S.

The material of the warp yarn is not required, and cotton yarn, tencel, modal, blended yarn of cotton and other fibers or core-spun yarn of cotton and other fibers can be adopted. Preferably, the warp yarns are cotton yarns, and the cotton yarns can enable the fabric to have better hand feeling and better wearing comfort. Furthermore, the warp yarns are indigo yarns and the warp yarns are surface layers of the fabric, so that the denim fabric has a unique denim style.

The jean fabric can be in a weave structure commonly used by the jean fabric, such as satin weave, twill weave or any weave structure. It is preferable to adopt 3/1 twill weave as shown in fig. 1 (the columns represent the warp yarns, the rows represent the weft yarns, the black dots represent the floating surface of the warp yarns, and the white dots represent the floating surface of the weft yarns), because in the bottom surface of the jean fabric, the weft yarns can float on the surface of the warp yarns across 3 warp yarns, so that the jean fabric is more in contact with human bodies and has better moisture absorption and sweat releasing effects.

More preferably, in order to maximize the moisture absorption and sweat releasing functions of the jean fabric and make the jean fabric more comfortable to wear, a double-layer weave structure is further provided in the scheme, as shown in fig. 2, the weave structure is as follows:

the weft yarns are divided into surface weft yarns and lining weft yarns, and the surface weft yarns and the lining weft yarns are arranged at intervals; the surface weft yarns and the warp yarns are interwoven into a cloth surface layer, and the inner weft yarns and the warp yarns are interwoven into a cloth bottom layer;

the inner weft yarns are fibers containing nano activated carbon particles, core-spun yarns taking the fibers as cores, or blended yarns containing the fibers; the warp yarn float length on the inner weft yarn is more than or equal to 3.

In order to enable the fibers containing the nano activated carbon particles to be in contact with the skin more and not to influence the cloth cover style of the denim fabric, weft yarns are set as surface weft yarns and inner weft yarns, the surface weft yarns and warp yarns are interwoven to form a surface layer, and the surface layer with the denim flavor can be interwoven according to the requirement; the inner weft yarns and the warp yarns are interwoven to form an inner layer, the floating length of the warp yarns on the inner weft yarns is more than or equal to 3, the larger the floating length of the warp yarns is, the more the inner weft yarns are contacted with the skin of a human body, and the nanometer activated carbon particles enhance the performance of the waterproof breathable fabric by accelerating the diffusion of vapor and the vaporization of liquid, so that the moisture absorption, sweat release, bacteriostasis and deodorization achieve the best effect, and the skin of the human body is kept dry, comfortable, clean and sanitary all the time.

Specifically, as shown in fig. 2 (the columns represent warp yarns, the rows represent weft yarns, the black dots represent warp yarn floating surfaces, and the white dots represent weft yarn floating surfaces), the weave structure of the denim fabric is as follows:

on each inner weft yarn, the arrangement of the weave points sequentially comprises a first inner weft structure point, 7 first inner warp structure points, a second inner weft structure point and 7 second inner warp structure points; the combination of the weave points is circularly arranged on the inner weft yarns;

on each surface weft yarn, the arrangement of the weave points sequentially comprises a first surface weft structure point, a first surface warp structure point, a second surface weft structure point, two second surface warp structure points, two third surface weft structure points, three third surface warp structure points, two fourth surface weft structure points and four fourth surface warp structure points; the combination of the weave points is circularly arranged on the surface weft yarns;

the weft flying number of the first weft-in structure point between adjacent weft-in yarns is 3;

the weft flying number of a first weft-weft structure point between adjacent weft-weft yarns is 3;

and one warp yarn is arranged between the first inner weft structure point and the first outer weft structure point on the adjacent inner weft yarn and outer weft yarn.

As shown in figure 3, figure 3 is a schematic view of a cloth bottom plane of the denim fabric, after the denim fabric is interwoven, weft yarns in a bottom layer cross a plurality of warp yarns and float on the surface of the warp yarns, and the design enables the function of the fiber containing the nano activated carbon particles to achieve the best effect.

The surface weft yarns are preferably cotton yarns or cotton-covered elastic yarns, and the cotton yarns can enable the fabric to have better hand feeling; then, tencel, modal or cotton blended yarns can be selected, and the cotton blended yarns can have elasticity; the count range of the surface weft yarns is between 8S and 40S. Of course, the surface weft yarns can also be fibers containing nano activated carbon particles or core-spun yarns taking the fibers as cores, and the yarn count range is 75D-450D, so that the moisture absorption and sweat releasing effects of the jean fabric are further improved.

The present solution is further illustrated by the following specific examples.

Example 1

The warp yarns are 8S cotton yarns, the weft yarns are 10S blended yarn packages containing nanometer activated carbon particles, namely 40D spandex, and 3/1 right twill weave is adopted, as shown in figure 1.

Example 2

The warp yarns are 8S cotton yarns, the weft yarns are 40D spandex wrapped by 300D polyester filament yarns containing nano activated carbon particles, and 3/1 right twill weave is adopted, as shown in figure 1.

Comparative example 1

The warp yarns are 8S cotton yarns, the weft yarns are 40D spandex wrapped by 10S pure cotton yarns, and 3/1 right twill weave is adopted, as shown in figure 1.

Example 3

The warp yarns adopt 16S cotton yarns, the inner weft yarns adopt 200D polyester filament yarns containing nano activated carbon particles, the surface weft yarns adopt 21S cotton yarns, and the fabric structure adopts the structure shown in figure 2.

Comparative example 2

The warp yarns adopt 16S cotton yarns, the inner weft yarns adopt 200D polyester filaments, the surface weft yarns adopt 21S cotton yarns, and the fabric structure adopts a structure shown in figure 2.

The fabrics obtained in the examples and comparative examples were subjected to performance tests, and the results are shown in table 1.

The heat preservation rate is measured according to the GB/T11048-1989 standard. The method A is a flat plate type, washing is carried out for 3 times through the procedures of GB/T8629-2001 and 5A, and drying is carried out through a roller. The heat preservation rate is 30 percent.

The test standards of the drip diffusion time are GB/T21655.1-20088.2, GB/T8629 and 2017, PROCEDURE: 3X 4N, FLAT DRY IN OVEN. Washing for 3 times by a GB/T8629-2017, 4N program, and drying in an oven. The qualified line of the dripping water diffusion time is less than or equal to 5 s.

The height of the wick is measured by FZ/T01071-. Washing for 3 times by a GB/T8629-2017, 4N program, and drying in an oven. The qualified line of the height of the absorbent core is equal to or more than 90mm in WARP direction of WARP, equal to or more than 90mm in WEFT direction of WEFT, GB/T21655.1-2008.

The moisture permeability is GB/T12704.1-2009, the environment of a TEST CONDITION TEST box is 38.0 ℃, the temperature is 90.0%, and the moisture permeability TIME of the REACTION TIME is 1 h. The METHOD of METHOD is DESICCANT METHOD wet METHOD, GB/T8629-2017, PROCEDURE 3X 4N, FLAT DRY IN OVEN. Washing for 3 times by a GB/T8629-2017, 4N program, and drying in an oven. 8000g/(m 24 h).

TABLE 1

	Rate of heat preservation	Duration of drip diffusion	Suction core height (weft direction)	Moisture permeability
					Example 1	33.00%	2S	≥110mm	8300g/(m²·24h)
Example 2	32.50%	1.8S	≥110mm	8500g/(m²·24h)
					Comparative example 1	25%	7S	≥87mm	7800g/(m²·24h)
Example 3	35%	3S	≥110mm	8600g/(m²·24h)
					Comparative example 2	28%	12S	≥80mm	7500g/(m²·24h)

Through the embodiment and the comparative example, the weft adopts the fiber containing the nano activated carbon particles, so that the fabric has higher heat preservation rate and obviously improved moisture absorption and moisture removal effects. When a special double-layer structure is adopted, the heat preservation rate and the moisture absorption and removal effects of the fabric are particularly good.

To sum up, the utility model provides a denim fabric adopts the fibre that contains nanometer active carbon particle in the woof to adopt this fibre cooperation warp of specific yarn count within range to interweave and form denim fabric, make denim fabric possess moisture absorption, quick-drying, antibacterial, deodorization lastingly, ultraviolet resistance, ventilative multiple functions, solved traditional denim fabric moisture absorption sweat releasing performance not good and not durable problem.

It is to be understood that the invention is not limited to the above-described embodiments, and that modifications and variations may be made by those skilled in the art in light of the above teachings, and all such modifications and variations are intended to be included within the scope of the invention as defined in the appended claims.

Claims (10)

1. A denim fabric is characterized in that the denim fabric is formed by interweaving warp yarns and weft yarns; the weft yarn is a fiber containing nano activated carbon particles or a core-spun yarn taking the fiber as a core, and the yarn count range of the weft yarn is 75D-450D; or the weft yarn is a blended yarn containing the fiber, and the yarn count range of the weft yarn is 8S-40S; the number of weft floats of the weft yarn is at least 3.

2. The denim fabric according to claim 1, wherein the denim fabric weave structure is satin or twill.

3. The denim fabric according to claim 1, wherein the denim fabric weave structure is 3/1 twill.

4. The denim fabric according to claim 1, wherein the denim fabric is of a double-layer structure, weft yarns are divided into surface weft yarns and inner weft yarns, and the surface weft yarns and the inner weft yarns are arranged at intervals; the surface weft yarns and the warp yarns are interwoven into a cloth surface layer, and the inner weft yarns and the warp yarns are interwoven into a cloth bottom layer;

the inner weft yarns are fibers containing nano activated carbon particles, core-spun yarns taking the fibers as cores, or blended yarns containing the fibers; the warp yarn float length on the inner weft yarn is more than or equal to 3.

5. The denim fabric according to claim 4, wherein the weave points are arranged on each weft-in yarn as a first weft-in weave point, 7 first warp-in weave points, a second weft-in weave point and 7 second warp-in weave points in sequence; the combination of the weave points is circularly arranged on the inner weft yarns;

on each surface weft yarn, the arrangement of the weave points sequentially comprises a first surface weft structure point, a first surface warp structure point, a second surface weft structure point, two second surface warp structure points, two third surface weft structure points, three third surface warp structure points, two fourth surface weft structure points and four fourth surface warp structure points; the combination of the weave points is circularly arranged on the surface weft yarns;

the weft flying number of the first weft-in structure point between adjacent weft-in yarns is 3;

the weft flying number of a first weft-weft structure point between adjacent weft-weft yarns is 3;

and one warp yarn is arranged between the first inner weft structure point and the first outer weft structure point on the adjacent inner weft yarn and outer weft yarn.

6. The denim fabric according to claim 4, wherein the surface weft yarns are cotton yarns, cotton covered stretch yarns, tencel, modal or cotton blended yarns; the count range of the surface weft yarns is between 8S and 40S.

7. The denim fabric according to claim 4, wherein the weft yarns are fibers containing nano-activated carbon particles, core-spun yarns with the fibers as cores, or blended yarns containing the fibers.

8. The denim fabric according to claim 1 ~ 7, wherein the warp yarns are cotton yarns, tencel yarns, modal yarns, blended yarns of cotton and other fibers, or core-spun yarns of cotton and other fibers, and the count of the warp yarns is in the range of 6S-40S.

9. The denim fabric according to claim 8, wherein the warp yarns are cotton yarns.

10. The denim fabric according to claim 8, wherein the warp yarns are indigo yarns.