CN217968793U - Moisture-absorbing antistatic polyester taffeta - Google Patents

Abstract

The utility model discloses a moisture absorption is antistatic washes taffeta relates to surface fabric technical field, aims at solving the surface fabric perspire and easily produces the problem of static when keeping dry, and its technical scheme main points are: <xnotran> , , , , , , , , , , , . </xnotran> The utility model discloses an it is antistatic that moisture absorption washes taff has reached and has made the surface fabric surface can the moisture absorption prevent to produce the effect of static through using flax fiber.

Description

Moisture-absorbing antistatic polyester taffeta

Technical Field

The utility model relates to a surface fabric technical field, more specifically say, it relates to a moisture absorption is antistatic to wash taff.

Background

Polyester taffeta is commonly referred to as taffeta. Also known as taffeta silk, is a mature-woven high-grade silk fabric woven by plain weave. The warp adopts the compound twisted boiled silk, the weft adopts the doubling single twisted boiled silk, the plain weave is used as the ground, the fabric density is high, the fabric is the tightest variety in the silk fabric, the texture is hard, the luster is soft, and the fabric is generally used for manufacturing the outer layer of clothes and bedding articles.

When the filling station work, because outdoor high temperature, the health very easily produces the sweat, consequently need design into the easy sweat of perspiring of filling station and keep dry structure, increase the comfort level of clothing, but the oil vapor is filled in the air of filling station, and dry clothes friction produces static and can produce the spark, leads to explosion danger easily, has the clothing surface fabric dry and easily produces static and lead to the explosion problem.

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 a moisture absorption is antistatic to wash taff reaches the effect of the antistatic sweat-discharging moisture absorption in surface of fabric through setting up of structure.

The above technical purpose of the present invention can be achieved by the following technical solutions: the moisture-absorbing antistatic polyester taff comprises a sweat-releasing layer and an antistatic layer, wherein the sweat-releasing layer is woven into an elastic satin weave through antistatic yarns and elastic yarns in a warp-weft weaving mode, and the elastic satin weave sequentially comprises a five-lower-upper weft face weave, a four-lower-two weft face weave, a three-lower-three coplanar weave, a four-lower-two weft face weave and a three-upper-three-lower coplanar weave from left to right.

The utility model discloses further set up to: the elastic satin weave is 6 pages of healds, the warp floating points are floating, the weft floating points are sinking, and the weave cycle of the elastic satin weave from left to right and from bottom to top is as follows: <xnotran> , , , , , , , , , . </xnotran>

The utility model discloses further set up to: the antistatic yarn comprises polyester fibers and a wrapping yarn wrapping the polyester fibers, and the wrapping yarn comprises polyamide fibers and a plurality of flax fibers wound on the outer sides of the polyamide fibers.

The utility model discloses further set up to: the elastic yarn comprises polyester fibers and a plurality of polyester profiled cross-section fibers wrapping the polyester fibers, and the cross sections of the polyester profiled cross-section fibers are C-shaped.

The utility model discloses further set up to: the antistatic layer is formed by weaving a plurality of static yarns in a warp-weft mode, and a plurality of sweat discharging holes are formed in the surface of the antistatic layer.

The utility model discloses further set up to: the electrostatic yarn is formed by twisting viscose fiber and polyamide fiber

The utility model discloses further set up to: the specification of the antistatic yarn is 90D, the specification of the elastic yarn is 40D, and the machine weft density of the sweat removing layer is 144 pieces/inch.

The utility model discloses further set up to: the width of the sweat discharging layer is 160cm, and the total number of the warp threads of the sweat discharging layer is 10800.

To sum up, the utility model discloses following beneficial effect has: the fabric is provided with the sweat discharging layer and the antistatic layer, the sweat discharging layer is used for being attached to a body and discharging moisture generated by the body, the antistatic layer is in contact with the outside, static electricity is generated on the outer side of the placed clothes to cause sparks, the sweat discharging layer is formed by weaving antistatic yarns and elastic yarn warps and wefts, the elastic satin weave sequentially comprises a five-lower-upper-weft-surface weave, a four-lower-second-weft-surface weave, a three-lower-third-upper-surface weave, a four-lower-second-weft-surface weave, a four-lower-second-upper-lower-third-upper-lower-surface weave, the elastic satin weave is represented by the combination of a part of plain weave and a part of satin weave, the fabric has the toughness of the sweat discharging layer and the elasticity of the satin weave, the sweat discharging layer is discharged through the characteristics of holes on the satin weave surface, the satin weave is easy to make surface fiber rise, the contact area of the satin weave is increased, the antistatic layer and the antistatic layer is difficult to generate the antistatic effect.

Drawings

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

FIG. 2 is a weave diagram of an elastic satin weave according to the present invention;

FIG. 3 is a schematic view of the structure of the antistatic yarn of the present invention;

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

FIG. 5 is a schematic view of the structure of the electrostatic yarn of the present invention;

in the figure: 1. an antistatic layer; 2. a perspiration layer; 3. polyester fiber; 4. flax fibers; 5. nylon fiber; 6. an antistatic yarn; 7. an elastic yarn; 8. terylene profiled cross section fiber; 9. viscose fibers; 10. an electrostatic yarn; 11. and (4) sweat discharge holes.

Detailed Description

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

A moisture-absorbing antistatic polyester taffeta comprises a sweat-discharging layer 2 and an antistatic layer 1, wherein the sweat-discharging layer 2 is woven into an elastic satin weave by antistatic yarns 6 and elastic yarns 7 in a warp-weft mode, as shown in figure 1.

<xnotran> , , , , , , , , , . </xnotran>

The elastic satin weave is represented by the combination of a part of plain weave and a part of satin weave, so that the fabric has the toughness of the plain weave and the elasticity of the satin weave, sweat is discharged by the characteristic that holes are numerous on the surface of the plain weave, the satin weave easily enables surface fibers to warp, the contact area between the sweat discharging layer 2 and the antistatic layer 1 is increased, and the sweat discharging effect of the sweat discharging layer 2 is strengthened.

The elastic satin weave is 6 pages of healds, the warp floating points are floating, the weft floating points are sinking, and the weave cycle of the elastic satin weave from left to right and from bottom to top is as follows: <xnotran> , , , , , , , , , . </xnotran>

The elastic satin weave formed by the warp and weft weaving has the elastic performance of the satin weave and the characteristic of a plurality of firm holes of the plain weave, so that the fabric has the characteristics of elasticity, firmness and wear resistance, and the sweat discharging effect of the sweat discharging layer 2 and the comfort degree of close fitting of the fabric are enhanced.

Antistatic yarn 6 includes polyester fiber 3 and the cladding yarn of cladding polyester fiber 3, and the cladding yarn includes polyamide fiber 5 and a plurality of flax fiber 4 of winding in the 5 outsides of polyamide fiber, and elastic yarn 7 includes polyester fiber 3 and a plurality of cladding polyester fiber 3's dacron dysmorphism cross-section fibre 8, and a plurality of dacron dysmorphism cross-section fibre 8's cross-section is the C style of calligraphy.

The polyester fiber 3 has the characteristic of high strength, the tenacity of the antistatic yarn 6 is guaranteed, the abrasion resistance of the polyamide fiber 5 is high, the abrasion resistance of the covered yarn is strengthened by covering the outer side, the linen fiber 4 is not prone to generating static electricity, the antistatic effect of the covered yarn is strengthened, the C-shaped profiled cross-section fiber has the moisture absorption effect, the moisture absorption capacity of the elastic layer is strengthened, and the sweat releasing layer 2 can absorb moisture and release sweat while static electricity is prevented.

The antistatic layer 1 is formed by weaving a plurality of static yarns 10 in a warp-weft mode, a plurality of sweat discharge holes 11 are formed in the surface of the antistatic layer 1, and the static yarns 10 are formed by twisting viscose fibers 9 and nylon fibers 5.

Set up a plurality of sweat discharge holes 11 on antistatic layer 1 surface, make things convenient for the sweat to discharge, static yarn 10 is twisted with fingers mutually by viscose 9 and polyamide fibre 5 and forms, and the viscose 9 hygroscopicity is strong, can absorb the sweat that spreads out for the surface fabric surface is moist, places the friction and produces static.

The specification of the antistatic yarn 6 is 90D, the specification of the elastic yarn 7 is 40D, the machine weft density of the perspiration layer 2 is 144 pieces/inch, the width of the perspiration layer 2 is 160cm, and the total number of the warp threads of the perspiration layer 2 is 10800 pieces.

The weight of each 9000m of the antistatic yarn 6 is 90g, the weight of each 9000m of the elastic yarn 7 is 40g, the machine weft density of the sweat releasing layer 2 is 144 pieces/inch, the width of the sweat releasing layer 2 is 160cm, and the total number of the warps of the sweat releasing layer 2 is 10800, so that the tightness and the antistatic sweat absorbing capacity of the structures of the antistatic yarn 106 and the elastic yarn 7 are ensured.

Firstly putting polyamide fiber 5 and flax fiber 4 into a twisting machine, forming wrapping yarn in the twisting machine, putting the wrapping yarn and polyester fiber 3 into a ring twisting machine to form antistatic yarn 6, then putting a plurality of C-shaped profiled cross-section fibers and polyester fiber 3 into the ring twisting machine to form elastic yarn 7, putting the elastic yarn 7 and the antistatic yarn 6 into a shuttle loom, weaving warp and weft into an elastic satin weave to form an antistatic layer 2, putting viscose fiber 9 and polyamide fiber 5 into the twisting machine to form the antistatic yarn 10, putting a plurality of the antistatic yarns 10 into the shuttle loom to weave into an antistatic layer 1, punching a plurality of sweat discharge holes 11 on the surface of the antistatic layer 1 by using a laser punching machine, and finally sewing the antistatic layer 1 and the antistatic layer 2 to obtain the fabric with moisture absorption and sweat discharge effects and capable of preventing static generation.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection not only limits in above-mentioned embodiment, and the fan 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 modifications and embellishments within the scope of the present disclosure may be made by those skilled in the art without departing from the principles of the present disclosure.

Claims (8)

1. The utility model provides a moisture absorption is antistatic washes taff which characterized in that: <xnotran> (2) (1), (2) (6) (7) , , , , , , , , , , . </xnotran>

2. The moisture-absorbing antistatic polyester taff according to claim 1, wherein: the elastic satin weave is characterized in that the elastic satin weave is 6-page healds, warp floating points are floating, weft floating points are sinking, and the weave cycle of the elastic satin weave from left to right and from bottom to top is as follows: <xnotran> , , , , , , , , , . </xnotran>

3. The moisture-absorbing antistatic polyester taff according to claim 1, wherein: the antistatic yarn (6) comprises polyester fibers (3) and a wrapping yarn wrapping the polyester fibers (3), and the wrapping yarn comprises polyamide fibers (5) and a plurality of flax fibers (4) wound on the outer sides of the polyamide fibers (5).

4. The moisture absorbing antistatic polyester taff according to claim 1, wherein: the elastic yarn (7) comprises polyester fibers (3) and a plurality of polyester profiled cross-section fibers (8) wrapping the polyester fibers (3), and the cross section of each polyester profiled cross-section fiber (8) is C-shaped.

5. The moisture-absorbing antistatic polyester taff according to claim 1, wherein: the antistatic layer (1) is formed by weaving a plurality of static yarns (10) in a warp-weft mode, and a plurality of sweat discharge holes (11) are formed in the surface of the antistatic layer (1).

6. The moisture absorbing antistatic polyester taff according to claim 5, wherein: the electrostatic yarn (10) is formed by twisting viscose fibers (9) and nylon fibers (5).

7. The moisture absorbing antistatic polyester taff according to claim 1, wherein: the specification of the antistatic yarn (6) is 90D, the specification of the elastic yarn (7) is 40D, and the weft density of the upper machine of the sweat releasing layer (2) is 144 threads/inch.

8. The moisture absorbing antistatic polyester taff according to claim 7, wherein: the width of the sweat-discharging layer (2) is 160cm, and the total number of the warp threads of the sweat-discharging layer (2) is 10800.

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