Method for producing antimicrobial, electrostatic resistance, cartographic bi-bomb worsted cloth

A technology of warp and weft double elastic and production method, which is applied in the field of antibacterial, antistatic, warp and weft double elastic worsted wool fabrics, can solve the problems of hard board, single function of worsted fabric, spandex is not resistant to chlorine bleaching, etc., and achieve long-lasting elasticity Effect

Active Publication Date: 2008-08-27
山东希努尔男装有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The purpose of the present invention is to solve the problem of single function of worsted fabric and not lasting function; to solve the problem that when spandex is used to produce elastic fabric, the setting temperature is too high to cause damage to wool and other fibers,

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0015] 1. Use 30D antibacterial PTT195kg, 100 s 390kg of Australian wool, 20kg of 3D polyester-based carbon black high-conductivity fiber, and 130kg of 1.5D Tencel as raw materials.

[0016] 2. Wool and tencel are firstly mixed, then added with crude oil and water, after combing, polyester-based carbon black high-conductive fiber is added to make a mixed sliver.

[0017] 3. Spin the mixed sliver into 98 / 1 common count single yarn, one antibacterial PTT and two 98 / 1 common count single yarns are paralleled, control the PTT to be in a normal straight state, zero draft, and get 84 / 2 For public count yarns, the yarns are steamed at 75°C*45′ to stabilize the state of the yarns.

[0018] 4. An antibacterial PTT and a mixed strip are used for two-component spinning, and the antibacterial PTT is controlled to be in a normal straight state, with zero draft, to obtain a 50 / 1 male count yarn, and the yarn is steamed at 85°C*25′ to make the yarn The state is stable.

[0019] 5. Use the...

Embodiment 2

[0022] 1. Use 50D antibacterial PTT263kg, 80 s 831kg of Australian wool, 31.25kg of 3D polyester-based carbon black high-conductivity fiber, and 125kg of spun silk as raw materials.

[0023] 2. Wool and spun silk are first mixed, then added with crude oil and water, and 3D polyester-based carbon black high-conductivity fiber is added after combing to make a mixed strip.

[0024] 3. Spin the mixed sliver into 78 / 1 common count single yarn, one antibacterial PTT and two 78 / 1 common count wool single yarns are paralleled, control the antibacterial PTT to be in a normal straight state, zero draft, and get 64 / 2 metric yarn, steamed at 75°C for 45 minutes to stabilize the yarn state.

[0025] 4. One antibacterial PTT and the remaining mixed strips are used for two-component spinning, and the antibacterial PTT is controlled to be in a normal straight state, with zero draft, to obtain a 40 / 1 male count yarn, and the yarn is steamed at 85°C for 30 minutes to make the yarn The line s...

Embodiment 3

[0029] 1. Use 75D antibacterial PTT160kg, 70 s 367kg of Australian wool, 120kg of 3D modal fiber, and 20kg of 3D polyester-based carbon black high-conductivity fiber are raw materials.

[0030] 2. Wool and Modal are mixed first, the same as in Example 1 below.

[0031] 3. The mixed sliver is spun into 72 / 1 common count single yarn, one 75D antibacterial PTT is paralleled with two 72 / 1 common count wool single yarns, and the antibacterial PTT is controlled to be in a normal straight state, zero-fold draft, and obtained For 54 / 2 male count yarn, steam the yarn at 80°C for 50 minutes to stabilize the yarn state.

[0032] 4. A 75D antibacterial PTT and the remaining mixed strips are used for two-component spinning, and the antibacterial PTT is controlled to be in a normal straight state, zero-fold draft, and a 32 / 1 male count yarn is obtained, and the yarn is steamed at 85°C*30′ to make The state of the yarn is stable.

[0033] 5. Use the 54 / 2 male count yarn as the warp yarn f...

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PUM

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Abstract

The invention relates to a method for manufacturing antibiotic antistatic bi-stretch worsted fabric, which comprises the following steps: firstly, mixing by selecting polyester group carbon black high conductivity fiber with wool, tenel, modal fiber, spun silk or bamboo fiber, manufacturing mixed sliver with homogeneous mix, secondly, respectively adopting two spinning modes to the mixed sliver and antibiotic PTT, the spinning mode one is that: firstly, spinning the mixed sliver to single-yarn and carrying out the doubling and twisting to the single-yarn by selecting the antibiotic PTT, the spinning mode two is that: carrying out two-component spinning by selecting the antibiotic PTT and the mixed sliver, respectively obtaining two worsted yarn with different structures, thirdly, carrying out yarn steaming to the worsted yarn which is obtained by adopting the two different spinning modes, fourthly, taking the spinning yarn which is obtained by adopting the spinning mode one as warp yarn, warping and sizing, taking the spinning yarn which is obtained by adopting the spinning mode two as weft yarn to use, warping, weaving and obtaining the grey fabric, fifthly, carrying out birth repairing, post-processing and mellowing to the grey fabric, namely obtaining the antibiotic antistatic bi-stretch integrated worsted fabric. The worsted fabric which is manufactured by using the method of the invention has the advantages of gathering the antibiotic, the antistatic and the bi-stretch in integral whole.

Description

technical field [0001] The invention relates to a production method of an antibacterial, antistatic, warp and weft double elastic worsted wool fabric. It belongs to the technical field of wool fabric worsted spinning. Background technique [0002] Existing worsted elastic fabrics are mainly produced by spandex, and both spandex and polyolefin-based elastic fibers need to be covered with other fibers before use, and spandex is not resistant to chlorine bleaching and tends to loosen after long-term use. In addition, when used in warp yarn, due to the large difference in elongation between spandex and wool yarn, it is difficult to weave, resulting in bare silk and broken ends, and under the continuous tension of finishing, the warp direction is stretched and deformed, and the elasticity is not enough. To the expected effect, so it can only be used to produce weft elastic fabrics. Although conventional elastic fabrics can be treated with antibacterial additives and antistatic ...

Claims

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Application Information

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IPC IPC(8): D03D15/00D02G3/04D02G3/22D06M15/263D06M15/507D06M15/643D06M13/165D06M13/188D06M101/40D06M101/12D06M101/06D06M101/32D03D15/217D03D15/225D03D15/233D03D15/283D03D15/47D03D15/50D03D15/533D03D15/56
Inventor 白唯义
Owner 山东希努尔男装有限公司
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