CN212955549U - Acetic acid jade ice silk satin - Google Patents

Abstract

The utility model discloses a acetic acid jade ice silk satin is interweaved according to the satin by warp and woof and forms, the warp includes the acetate filament through the twisting, the woof includes jade fiber filament. The utility model relates to a acetic acid jade ice silk satin, acetic acid filament are as the warp, and jade fiber filament is as the woof to adopt the satin to interweave, according to the characteristics of satin, make this surface fabric one side present acetic acid filament's effect, the another side presents jade fibre, makes this surface fabric have concurrently acetate fibre fluffy smooth and neat effect including the bone sense, has still had the effect of the fibrous cool sense of jade. Compared with acetate filaments, jade fibers have higher thermal conductivity, so that the fabric has good thermal conductivity. The heat transfer of the human body can be timely dissipated by utilizing the difference of heat conduction among different raw materials, so that the aim of reducing the surface temperature of the skin of the human body is fulfilled.

Description

Acetic acid jade ice silk satin

Technical Field

The utility model belongs to the technical field of textile fabric technique and specifically relates to a sour jade icy silk satin.

Background

With the improvement of living conditions of people, basic requirements of covering body and keeping warm for clothes are not satisfied, and fabrics with various special functions are continuously developed. With the deterioration of global ecological environment and the increasingly hot summer, modern people need to be able to embody comfortable functions for clothes besides aesthetic requirements, people need clothes to improve wearing conditions and have cool wearing feeling, and meanwhile, the use of air conditioners can be reduced, so that the clothes are environment-friendly and save electric energy.

In the cool processing of the traditional fabric, xylitol is generally used as an addition aid, and the addition aid is added during fabric finishing, so that xylitol has the characteristic of absorbing a large amount of heat during dissolution, and a wearer of the fabric can absorb a large amount of heat energy due to the dissolution of the xylitol after sweating, so that the wearer has a cool feeling. However, industrial xylitol has purity problems, causing skin damage from other chemicals; excess xylitol can cause triglyceride elevation, causing a problem of coronary atherosclerosis; in addition, clothes made of the cool fabric processed by the xylitol have poor washing fastness, and after more than 10 times of washing, the cool effect is greatly reduced.

The acetate filament fabric has better moisture absorption and air permeability and rebound resilience, does not generate static electricity or hair balls, is comfortable to be attached to skin, and is very suitable for manufacturing noble dresses, scarves and the like. Meanwhile, the acetic acid fabric can also be used for replacing natural silk broadcloth to manufacture various high-grade brand fashion linings, such as windcheaters, fur clothing, full dress, cheongsam, wedding dresses, Tang suits, winter dresses and the like. The advantages of the nylon fiber are that the abrasion resistance is superior to that of other fibers, secondly, the elasticity is good, the elastic recovery rate is comparable to that of wool, and the nylon fiber has light weight and specific gravity of 1.14, so that in the commercialized synthetic fiber, the nylon fiber is only inferior to polypropylene (polypropylene fiber, the specific gravity is less than 1) and is lighter than polyester fiber (the specific gravity is 1.38), therefore, the nylon fiber can be processed into fine, uniform, soft and smooth filaments for weaving into attractive and durable fabrics, and the nylon fiber has the advantages of corrosion resistance, worm resistance and mildew resistance like the polyester fiber.

The acetate fiber series fabrics, especially the fabrics interwoven with novel functional fiber filaments, do not exist in the market at present. In addition, the fabric containing acetate fibers and having cool feeling is not reported. The development of the fabric with the effects of fluffy, smooth, stiff and smooth acetate fibers and bone feeling and cool feeling is required.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an acetic acid jade ice silk satin, the one side presents the effect of acetate filament, and the another side presents jade fibre for this surface fabric has had the fluffy smooth and refreshing effect of having the bone sense of acetate simultaneously, has still had the effect of the fibrous cool sense of jade.

In order to solve the technical problem, the purpose of the utility model is to realize like this:

the utility model relates to a acetic acid jade ice silk satin interweaves according to the satin by warp and woof and forms, the warp includes the acetate filament through the twisting, the woof includes jade fiber filament.

As a further explanation of the above scheme, the acetate filaments have a fineness of 55D, a twist of 9T/10cm and a twist direction of S.

As a further explanation of the above scheme, the fineness of the jade fiber filament is 50D.

As a further explanation of the above scheme, the satin is a five-by-three fly surface satin.

As a further illustration of the above solution, the density of the warp yarns is 106 yarns/cm and the density of the weft yarns is 52 yarns/cm.

As a further illustration of the above scheme, the weft yarn is a strand composed of jade fiber filaments and cuprammonium filaments.

As a further illustration of the above scheme, the weft yarns are jade fiber filaments and cuprammonium filaments according to a ratio of 1: 1 root in sequence.

As a further explanation of the scheme, the weft yarn is an elastic core-spun yarn, the cladding layers are jade fiber filaments and cuprammonia filaments, and the core layer is 40D spandex filaments.

The utility model has the advantages that: the utility model relates to a acetic acid jade ice silk satin, acetic acid filament are as the warp, and jade fiber filament is as the woof to adopt the satin to interweave, according to the characteristics of satin, make this surface fabric one side present acetic acid filament's effect, the another side presents jade fibre, makes this surface fabric have concurrently acetate fibre fluffy smooth and neat effect including the bone sense, has still had the effect of the fibrous cool sense of jade. Compared with acetate filaments, jade fibers have higher thermal conductivity, so that the fabric has good thermal conductivity. The heat transfer of the human body can be timely dissipated by utilizing the difference of heat conduction among different raw materials, so that the aim of reducing the surface temperature of the skin of the human body is fulfilled.

Drawings

FIG. 1 is a structure diagram of acerola cryo-satin jade according to the present invention;

fig. 2 is a schematic structural view of a strand wire involved in the second embodiment;

FIG. 3 is a schematic structural view of the elastic core spun yarn according to the fourth embodiment;

the designations in the figures illustrate the following: 1-warp yarns; 2-the weft yarn; 3-jade fiber filaments; 4-cuprammonium filaments; 5-spandex filament.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments.

Examples

This embodiment will be described in detail with reference to fig. 1. The acetic acid jade icy silk satin related to this embodiment is formed by warp 1 and weft 2 interweaving according to the satin, the warp includes the acetate filament of twisting, the weft includes jade fiber filament.

Cellulose acetate is a thermoplastic resin obtained by esterification of acetic acid as a solvent and acetic anhydride as an acetylating agent in the presence of a catalyst. Is the cellulose organic acid ester which is produced commercially at the earliest time in cellulose derivatives and is continuously developed. The cellulose acetate is used as a porous membrane material, and has the characteristics of high selectivity, large water permeability, simple processing and the like. The jade fiber is prepared by extracting and nano-technology to make jade particles reach sub-nanometer particle size, then melting the jade particles into a polyamide spinning melt, and spinning. The acetate filaments used in this example had a fineness of 55D, a twist of 9T/10cm and a twist direction of S. The fineness of the jade fiber filament is 50D. The density of the warp yarns is 106 yarns/cm, and the density of the weft yarns is 52 yarns/cm.

Further, the satin used in this embodiment is a five-by-three fly surface satin. If the satin weave with higher number of weave cycles is adopted, the fabric is softer, and is not suitable for being used as the fabric of fashion coats and jacket skirts. After testing, the fabric prepared from only 5 fabrics with 3 fly satin weaves is softer as far as possible on the premise of ensuring that the fabric has certain stiffness. And the warp and weft density is adopted, so that the gram weight of the fabric reaches about 110 g, and the fabric meets the requirements of the garment fabric. The warp-faced satin weave can make one side of the fabric show the effect of warp yarns, and the surface of the other side of the fabric has the effect of weft yarns. In this embodiment, specifically, one surface of the fabric shows the effect of the acetate filament, and the other surface of the fabric shows the jade fiber, so that the fabric has the effects of fluffy, smooth, stiff and smooth acetic acid fiber and bone feeling, and also has the effect of cool feeling of the jade fiber.

And the larger the moisture in the jade fiber is, the better the heat conductivity is, so the cellulose acetate filament with high hygroscopicity and high water permeability is adopted in the fabric tissue structure, the fabric with good heat conductivity can be formed by matching the two raw materials, and the two fibers play a role in enabling the moisture to flow from one side of the fabric to the other side of the fabric, so that the heat energy is driven to move by the flow of the moisture, and the heat conductivity of the fabric is improved.

Example two

The present embodiment will be described in detail with reference to fig. 1 and 2. The difference between the acerose jade icy satin according to the embodiment and the embodiment one is that: the related weft yarn is a strand yarn consisting of jade fiber filaments 3 and cuprammonium rayon filaments 4.

The copper ammonia fiber has the following characteristics: 1. the environment is protected, the copper ammonia fiber is easy to be decomposed by bacteria in soil and water, and toxic gas can not be emitted during combustion. 2. The fabric has good moisture absorption, moisture release and moisture conduction performances, so that the fabric cannot generate the stuffy and hot adverse effect. 3. The cross section is approximately circular, the surface is smooth, and the friction with the skin is less. 4. The copper ammonia fiber has high moisture regain and moisture absorption similar to real silk. 5. The moisture absorption performance is better, can be fast absorb the moisture that discharges on the human body and discharge.

EXAMPLE III

The difference between the acer jade icy silk satin related to the embodiment and the embodiment one is that: the weft yarns in the embodiment are jade fiber filaments and cuprammonium filaments according to the ratio of 1: 1 root in sequence.

Example four

With reference to fig. 1 and fig. 3, a detailed description is made of the acer jade icy satin according to the present embodiment, which is different from the first embodiment in that: the weft yarn is elastic core-spun yarn, the cladding layers are jade fiber filaments 3 and cuprammonia filaments 4, and the core layer is 40D spandex filaments 5.

The foregoing has described in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions that can be obtained by a person skilled in the art through logic analysis, reasoning or limited experiments based on the prior art according to the concepts of the present invention should be within the scope of protection defined by the claims.

Claims (8)

1. The acetic acid jade icy silk satin is formed by interweaving warp yarns and weft yarns according to satin, and is characterized in that the warp yarns comprise twisted acetic acid filaments, and the weft yarns comprise jade fiber filaments.

2. The acetate jade icy silk satin according to claim 1, wherein the acetate filaments have a fineness of 55D, a twist of 9T/10cm and a twist direction S.

3. The acetate jade icy silk satin according to claim 1, wherein the fineness of the jade fiber filament is 50D.

4. The acetate jade icy silk satin according to claim 1, where the satin is a five-flyaway surface satin.

5. The acetate jade icy silk satin according to claim 1, where the density of the warp yarns is 106 yarns/cm and the density of the weft yarns is 52 yarns/cm.

6. The acer jade icy satin according to claim 1, where in the weft is a yarn of jade fiber filaments and cuprammonium filaments.

7. The acer jade icy silk satin as claimed in claim 1, wherein the weft yarns are jade fiber filaments and cuprammonium filaments according to a ratio of 1: 1 root in sequence.

8. The acer jade icy silk satin as claimed in claim 1, wherein the weft yarn is an elastic covering yarn, the covering layer is a jade fiber filament and a cuprammonium filament, and the core layer is a 40D spandex filament.

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