CN105386220A - Antifouling anti-bacteria anti-static super-fine warp knitting fabric and processing technologies thereof - Google Patents

Abstract

The invention discloses an antifouling anti-bacteria anti-static super-fine warp knitting fabric and processing technologies thereof. The technologies include the conductive fiber technology, the fine denier anti-bacteria moisture-conducting elasticity-enhancing polyester filament yarn elasticity enhancing technology, the warping technology, the warping knitting weaving technology, the warp knitting fabric dyeing technology, the warp knitting fabric antifouling technology and the warp knitting fabric arrangement technology. The fine denier polyester with the anti-bacteria and moisture-conducting function intersects with conductive fiber yarn, and the antifouling anti-bacteria anti-static super-fine warp knitting fabric with the good performance is successfully developed through warp knitting machine weaving, single-side-face antifouling coating treatment and other working procedures; the fabric has the good anti-static performance due to the conductive fiber, the fabric has the moisture-conducting and anti-bacteria effects due to fine denier anti-bacteria moisture-conducting elasticity-enhancing polyester filaments, and the fabric is not likely to be stained with dust, resistant to soiling and easy to wash due to the antifouling coating.

Description

A kind of ultra-fine warp-knitted face fabric of antifouling bacteriostatic antistatic and processing technology thereof

[technical field]

The present invention relates to the technical field of textile technology, particularly the technical field of the ultra-fine warp-knitted face fabric of a kind of antifouling bacteriostatic antistatic and processing technology thereof.

[background technology]

Present fabric is generally be made up of the chemical fibre such as terylene, polyamide fibre, and these fiber hygroscopicity are little, and antistatic property is poor, and in the season that environment is drier, the problem of electrostatic just clearly.Electrostatic phenomenon easily makes clothes covered with dust dirt, skin-proximal with slight electric-shock feeling etc.Related data shows, electrostatic has very large harm to human body.Lasting electrostatic can make the alkalescence in blood raise, and Determination of Calcium in Serum content reduces, and in urine, CaE amount increases.Too much electrostatic is piled up in human body, also can cause cranial nerve cell membrance current conduction abnormalities, affect nervous centralis.Electrostatic also can disturb blood circulation of human body, immunity and nervous system, affects the normal work of each internal organs.In inflammable and explosive area, human body also can cause fire with electrostatic, and the people worked under conductive environment and electromagnetic environment will wear corresponding anti-electrostatic clothing especially, to guarantee safety.

[summary of the invention]

Object of the present invention solves the problems of the prior art exactly, proposes the ultra-fine warp-knitted face fabric of a kind of antifouling bacteriostatic antistatic and processing technology thereof, fabric can be made to integrate antifouling, antibacterial, antistatic, also have soft comfortable simultaneously, the advantage of the easily washing that bears dirty.

For achieving the above object, the present invention proposes the ultra-fine warp-knitted face fabric of a kind of antifouling bacteriostatic antistatic, comprise stain-proofing layer, bacteriostatic antistatic layer, the ultra-fine warp-knitted face fabric of described antifouling bacteriostatic antistatic is composited by bacteriostatic antistatic layer, stain-proofing layer from top to bottom successively, described stain-proofing layer is one deck nonpolluting coating being positioned at bacteriostatic antistatic layer surface, and described bacteriostatic antistatic layer is antibacterially led wet adding by conductive fiber and 43dtex/72f thin dawn and play polyester filament and weave and form.

The present invention proposes the processing technology of the ultra-fine warp-knitted face fabric of a kind of antifouling bacteriostatic antistatic, comprise the following steps successively:

A conductive fiber technique: that conductive fiber is processed to form by composite spinning mode by conductive black master batch and conventional polymer or formed by the low-temperature carbonization process of acrylic fibre, then carries out through the process of spinning, stretching, deformation processing the performance improving conductive fiber successively;

The B thin dawn is antibacterial leads wet adding and plays polyester filament texturing craft: the thin dawn is antibacterial leads and wetly add that to play polyester filament be that 43dtex/72f thin dawn antibacterial leading wetly adds bullet polyester filament, adopt elasticizer equipment to be processed to form 43dtex/72f thin dawn antibacterial leading and wetly add bullet polyester filament, precursor is successively by the first roller on elasticizer, twist arrester, first hot case, false twister, second roller, the nozzle of interlace, tractive roller, second hot case, 3rd hot case and oiling to form 43dtex/72f thin dawn antibacterial leading after roller and wetly adds bullet polyester filament, the speed of a motor vehicle of elasticizer is: 450 ~ 500m/min, temperature in first hot case: 170 ~ 180 DEG C, temperature in second hot case: 140 ~ 150 DEG C, draw ratio: 1.60 ~ 1.70, speed ratio: 1.50, the 43dtex/72f thin dawn is antibacterial leads that wet to add the intensity playing polyester filament be 3.75cN/dtex, and crimp contraction is 14.7%,

C warping technology:

C1 conductive fiber warping technology parameter: speed of beaming is 200 ~ 300m/min, tension in Warping: 5.80 ~ 7.82cN; Workshop temperature: 18 ~ 22 DEG C; Workshop relative humidity: 75% ~ 80%; Warping radical: front and back comb is 370; To entry mode: front and back comb is completely to be worn;

The C243dtex/72f thin dawn is antibacterial leads wet adding and plays polyester filament warping technology parameter: speed of beaming is 300 ~ 400m/min, tension in Warping: 6.90 ~ 9.60cN; Workshop temperature: 18 ~ 22 DEG C; Workshop relative humidity: 75% ~ 80%; Warping radical: front and back comb is 370; To entry mode: front and back comb is completely to be worn;

D warp-knitted face fabric weaving process: by warp knitting machine, leads the wet bullet polyester filament that adds as rear comb using antibacterial for thin for the 43dtex/72f dawn, using conductive fiber as being front comb, adopting the mode of two combs through putting down tiltedly tissue to weave and forming fabric embryo cloth;

E warp-knitted face fabric dyeing: prepare working solution under room temperature, warp-knitted face fabric is devoted oneself to work in liquid, with 1 DEG C/min ramp to 60 DEG C, then dyeing auxiliaries AC-G105 is added, continue to be warming up to 70 ~ 75 DEG C, insulation a period of time, take out warp-knitted face fabric, dry after washing, stand-by after then warp-knitted face fabric being carried out plucking, cropping process; Described working solution comprises each component of following ratio: black cationic dye: 5 ~ 6% (o.w.f), levelling agent: 0.2 ~ 0.5g/L, dyeing auxiliaries AC-G105:8 ~ 15g/L, glacial acetic acid: 0.8 ~ 1.6g/L; The bath raio of described working solution is: 1:20, and the pH value of working solution is 5;

The antifouling technique of F warp-knitted face fabric: adopt nonpolluting coating technique to carry out antifouling process by the side external surface of anti-fouling material to warp-knitted face fabric;

G warp-knitted face fabric finishing technique: adopt two padding process that roll of leaching two to carry out antifouling Final finishing to warp-knitted face fabric by dressing liquid, finally successively through preliminary drying, bake, wash, soap and stoving process.

As preferably, in described step B, the thin dawn antibacterially leads wet adding and plays silver, copper or zinc ionophoric antiseptic in polyester filament fiber and account for the 4-8% of total fiber mass.

As preferably, the anti-fouling material in described step F is polytetrafluoroethylene (PTFE).

As preferably, dressing liquid in described step G is the mixed liquor of organic-silicon-modified hydrophilic polyether finishing agent and water; bath raio is 1:30; described organic-silicon-modified hydrophilic polyether finishing agent carries out modified formation by linearity block polyethers amino to organic silicone finishing agent; dressing liquid is that organic-silicon-modified hydrophilic polyether finishing agent and water are mixed to form according to the ratio of 1:20, the pick-up 9O% of padding process.

As preferably, the levelling agent in described step e adopts leveling agent d C, and product property is stablized, resistance to light and heat, acidproof but not alkaline-resisting, resistance to hard water, resistance to inorganic salts, non-volatility, should long storage periods, there is more powerful affinity to polyster fibre, have good homogenized diet to the dyeing of cation dyes.

Beneficial effect of the present invention: the present invention adopts has the fine denier polyester of antibacterial wet guiding function and conductive fiber yarn interweaves, weaved by warp knitting machine and carry out the ultra-fine warp-knitted face fabric of antifouling bacteriostatic antistatic that the operations such as single side face nonpolluting coating process successfully have developed function admirable, conductive fiber makes fabric have excellent antistatic performance, the thin dawn is antibacterial leads wet adding and plays polyester filament and have and lead wet antibacterial effect, nonpolluting coating can make fabric not easily be stained with dirt, and bear dirty easily washing.The warp-knitted face fabric of the present invention's exploitation integrates antifouling, antibacterial, antistatic, also there is soft comfortable simultaneously, bear dirty the advantage of easily washing, and overcomes some defect of ordinary polyester warp knitting nap class knit product, improve class and the added value of product in taking.

Feature of the present invention and advantage will be described in detail by reference to the accompanying drawings by embodiment.

[accompanying drawing explanation]

Fig. 1 is the main TV structure schematic diagram of elasticizer in the present invention;

Fig. 2 is the process chart of the ultra-fine warp-knitted face fabric processing technology of a kind of antifouling bacteriostatic antistatic in the present invention.

In figure: 1-precursor, 2-first roller, 3-twist arrester, the hot case of 4-first, 5-false twister, 6-second roller, 7-the nozzle of interlace, 8-tractive roller, the hot case of 9-second, the hot case of 10-the 3rd, 11-oil roller.

[detailed description of the invention]

Consult Fig. 1 and Fig. 2, the ultra-fine warp-knitted face fabric of a kind of antifouling bacteriostatic antistatic of the present invention, comprise stain-proofing layer, bacteriostatic antistatic layer, the ultra-fine warp-knitted face fabric of described antifouling bacteriostatic antistatic is composited by bacteriostatic antistatic layer, stain-proofing layer from top to bottom successively, described stain-proofing layer is one deck nonpolluting coating being positioned at bacteriostatic antistatic layer surface, and described bacteriostatic antistatic layer is antibacterially led wet adding by conductive fiber and 43dtex/72f thin dawn and play polyester filament and weave and form.

The processing technology of the ultra-fine warp-knitted face fabric of a kind of antifouling bacteriostatic antistatic of the present invention, comprises the following steps successively:

A conductive fiber technique: that conductive fiber is processed to form by composite spinning mode by conductive black master batch and conventional polymer or formed by the low-temperature carbonization process of acrylic fibre, then carries out through the process of spinning, stretching, deformation processing the performance improving conductive fiber successively;

The B thin dawn is antibacterial leads wet adding and plays polyester filament texturing craft: the thin dawn is antibacterial leads and wetly add that to play polyester filament be that 43dtex/72f thin dawn antibacterial leading wetly adds bullet polyester filament, adopt elasticizer equipment to be processed to form 43dtex/72f thin dawn antibacterial leading and wetly add bullet polyester filament, precursor 1 is successively by the first roller 2 on elasticizer, twist arrester 3, first hot case 4, false twister 5, second roller 6, the nozzle of interlace 7, tractive roller 8, second hot case 9, form 43dtex/72f thin dawn antibacterial leading after 3rd hot case 10 and the roller 11 that oils and wetly add bullet polyester filament, the speed of a motor vehicle of elasticizer is: 450 ~ 500m/min, temperature in first hot case: 170 ~ 180 DEG C, temperature in second hot case: 140 ~ 150 DEG C, draw ratio: 1.60 ~ 1.70, speed ratio: 1.50, the 43dtex/72f thin dawn is antibacterial leads that wet to add the intensity playing polyester filament be 3.75cN/dtex, and crimp contraction is 14.7%,

C warping technology:

C1 conductive fiber warping technology parameter: speed of beaming is 200 ~ 300m/min, tension in Warping: 5.80 ~ 7.82cN; Workshop temperature: 18 ~ 22 DEG C; Workshop relative humidity: 75% ~ 80%; Warping radical: front and back comb is 370; To entry mode: front and back comb is completely to be worn;

The C243dtex/72f thin dawn is antibacterial leads wet adding and plays polyester filament warping technology parameter: speed of beaming is 300 ~ 400m/min, tension in Warping: 6.90 ~ 9.60cN; Workshop temperature: 18 ~ 22 DEG C; Workshop relative humidity: 75% ~ 80%; Warping radical: front and back comb is 370; To entry mode: front and back comb is completely to be worn;

D warp-knitted face fabric weaving process: by warp knitting machine, leads the wet bullet polyester filament that adds as rear comb using antibacterial for thin for the 43dtex/72f dawn, using conductive fiber as being front comb, adopting the mode of two combs through putting down tiltedly tissue to weave and forming fabric embryo cloth;

E warp-knitted face fabric dyeing: prepare working solution under room temperature, warp-knitted face fabric is devoted oneself to work in liquid, with 1 DEG C/min ramp to 60 DEG C, then dyeing auxiliaries AC-G105 is added, continue to be warming up to 70 ~ 75 DEG C, insulation a period of time, take out warp-knitted face fabric, dry after washing, stand-by after then warp-knitted face fabric being carried out plucking, cropping process; Described working solution comprises each component of following ratio: black cationic dye: 5 ~ 6% (o.w.f), levelling agent: 0.2 ~ 0.5g/L, dyeing auxiliaries AC-G105:8 ~ 15g/L, glacial acetic acid: 0.8 ~ 1.6g/L; The bath raio of described working solution is: 1:20, and the pH value of working solution is 5;

The antifouling technique of F warp-knitted face fabric: adopt nonpolluting coating technique to carry out antifouling process by the side external surface of anti-fouling material to warp-knitted face fabric;

G warp-knitted face fabric finishing technique: adopt two padding process that roll of leaching two to carry out antifouling Final finishing to warp-knitted face fabric by dressing liquid, finally successively through preliminary drying, bake, wash, soap and stoving process.

In described step B, the thin dawn antibacterially leads wet adding and plays silver in polyester filament fiber, copper or zinc ionophoric antiseptic account for the 4-8% of total fiber mass, anti-fouling material in described step F is polytetrafluoroethylene (PTFE), dressing liquid in described step G is the mixed liquor of organic-silicon-modified hydrophilic polyether finishing agent and water, bath raio is 1:30, described organic-silicon-modified hydrophilic polyether finishing agent carries out modified formation by linearity block polyethers amino to organic silicone finishing agent, dressing liquid is that organic-silicon-modified hydrophilic polyether finishing agent and water are mixed to form according to the ratio of 1:20, the pick-up 9O% of padding process, levelling agent in described step e adopts leveling agent d C, product property is stablized, resistance to light and heat, acidproof but not alkaline-resisting, resistance to hard water, resistance to inorganic salts, non-volatility, suitable long storage periods, more powerful affinity is had to polyster fibre, good homogenized diet is had to the dyeing of cation dyes.

The warp-knitted face fabric of the present invention's exploitation integrates antifouling, antibacterial, antistatic, also there is soft comfortable simultaneously, bear dirty the advantage of easily washing, and overcomes some defect of ordinary polyester warp knitting nap class knit product, improve class and the added value of product in taking.

Above-described embodiment is to explanation of the present invention, is not limitation of the invention, anyly all belongs to protection scope of the present invention to the scheme after simple transformation of the present invention.

Claims (6)

1. the ultra-fine warp-knitted face fabric of antifouling bacteriostatic antistatic, it is characterized in that: comprise stain-proofing layer, bacteriostatic antistatic layer, the ultra-fine warp-knitted face fabric of described antifouling bacteriostatic antistatic is composited by bacteriostatic antistatic layer, stain-proofing layer from top to bottom successively, described stain-proofing layer is one deck nonpolluting coating being positioned at bacteriostatic antistatic layer surface, and described bacteriostatic antistatic layer is antibacterially led wet adding by conductive fiber and 43dtex/72f thin dawn and play polyester filament and weave and form.

2. a processing technology for the ultra-fine warp-knitted face fabric of antifouling bacteriostatic antistatic, is characterized in that: comprise the following steps successively:

(A) conductive fiber technique: that conductive fiber is processed to form by composite spinning mode by conductive black master batch and conventional polymer or formed by the low-temperature carbonization process of acrylic fibre, then carries out through the process of spinning, stretching, deformation processing the performance improving conductive fiber successively;

(B) the thin dawn antibacterially leads wet adding and plays polyester filament texturing craft: the thin dawn is antibacterial leads and wetly add that to play polyester filament be that 43dtex/72f thin dawn antibacterial leading wetly adds bullet polyester filament, adopt elasticizer equipment to be processed to form 43dtex/72f thin dawn antibacterial leading and wetly add bullet polyester filament, precursor (1) is successively by the first roller (2) on elasticizer, twist arrester (3), first hot case (4), false twister (5), second roller (6), the nozzle of interlace (7), tractive roller (8), second hot case (9), 3rd hot case (10) and the roller that oils (11) form 43dtex/72f thin dawn antibacterial leading afterwards and wet add bullet polyester filament, the speed of a motor vehicle of elasticizer is: 450 ~ 500m/min, temperature in first hot case: 170 ~ 180 DEG C, temperature in second hot case: 140 ~ 150 DEG C, draw ratio: 1.60 ~ 1.70, speed ratio: 1.50, the 43dtex/72f thin dawn is antibacterial leads that wet to add the intensity playing polyester filament be 3.75cN/dtex, and crimp contraction is 14.7%,

(C) warping technology:

(C1) conductive fiber warping technology parameter: speed of beaming is 200 ~ 300m/min, tension in Warping: 5.80 ~ 7.82cN; Workshop temperature: 18 ~ 22 DEG C; Workshop relative humidity: 75% ~ 80%; Warping radical: front and back comb is 370; To entry mode: front and back comb is completely to be worn;

(C2) the 43dtex/72f thin dawn antibacterially leads wet adding and plays polyester filament warping technology parameter: speed of beaming is 300 ~ 400m/min, tension in Warping: 6.90 ~ 9.60cN; Workshop temperature: 18 ~ 22 DEG C; Workshop relative humidity: 75% ~ 80%; Warping radical: front and back comb is 370; To entry mode: front and back comb is completely to be worn;

(D) warp-knitted face fabric weaving process: by warp knitting machine, leads the wet bullet polyester filament that adds as rear comb using antibacterial for thin for the 43dtex/72f dawn, using conductive fiber as being front comb, adopting the mode of two combs through putting down tiltedly tissue to weave and forming fabric embryo cloth;

(E) warp-knitted face fabric dyeing: prepare working solution under room temperature, warp-knitted face fabric is devoted oneself to work in liquid, with 1 DEG C/min ramp to 60 DEG C, then dyeing auxiliaries AC-G105 is added, continue to be warming up to 70 ~ 75 DEG C, insulation a period of time, take out warp-knitted face fabric, dry after washing, stand-by after then warp-knitted face fabric being carried out plucking, cropping process; Described working solution comprises each component of following ratio: black cationic dye: 5 ~ 6% (o.w.f), levelling agent: 0.2 ~ 0.5g/L, dyeing auxiliaries AC-G105:8 ~ 15g/L, glacial acetic acid: 0.8 ~ 1.6g/L; The bath raio of described working solution is: 1:20, and the pH value of working solution is 5;

(F) the antifouling technique of warp-knitted face fabric: adopt nonpolluting coating technique to carry out antifouling process by the side external surface of anti-fouling material to warp-knitted face fabric;

(G) warp-knitted face fabric finishing technique: adopt two padding process that roll of leaching two to carry out antifouling Final finishing to warp-knitted face fabric by dressing liquid, finally successively through preliminary drying, bake, wash, soap and stoving process.

3. the processing technology of the ultra-fine warp-knitted face fabric of a kind of antifouling bacteriostatic antistatic as claimed in claim 2, is characterized in that: in described step (B), the thin dawn antibacterially leads wet adding and plays silver, copper or zinc ionophoric antiseptic in polyester filament fiber and account for the 4-8% of total fiber mass.

4. the processing technology of the ultra-fine warp-knitted face fabric of a kind of antifouling bacteriostatic antistatic as claimed in claim 2, is characterized in that: the anti-fouling material in described step (F) is polytetrafluoroethylene (PTFE).

5. the processing technology of the ultra-fine warp-knitted face fabric of a kind of antifouling bacteriostatic antistatic as claimed in claim 2, it is characterized in that: the dressing liquid in described step (G) is the mixed liquor of organic-silicon-modified hydrophilic polyether finishing agent and water; bath raio is 1:30; described organic-silicon-modified hydrophilic polyether finishing agent carries out modified formation by linearity block polyethers amino to organic silicone finishing agent; dressing liquid is that organic-silicon-modified hydrophilic polyether finishing agent and water are mixed to form according to the ratio of 1:20, the pick-up 9O% of padding process.

6. the processing technology of the ultra-fine warp-knitted face fabric of a kind of antifouling bacteriostatic antistatic as claimed in claim 2, it is characterized in that: the levelling agent in described step (E) adopts leveling agent d C, product property is stablized, resistance to light and heat, acidproof but not alkaline-resisting, resistance to hard water, resistance to inorganic salts, non-volatility, suitable long storage periods, has more powerful affinity to polyster fibre, has good homogenized diet to the dyeing of cation dyes.