CN109016717A - The production technology of overcoat fabric - Google Patents

Abstract

The present invention provides a kind of production technology of overcoat fabric, comprising the following steps: fiber mixing；Raw fibre is dyed；Spinning and weaving step；Weave final finishing step；It is in uniformly to be laid to stenlizing layer into mesh grid through knitting device by bamboo fibre and nano-class antibacterial silver ion master batch protofibre, the side of stenlizing layer and insulation cotton layer is carried out compound；In one layer of mesh layer of cloth of stenlizing layer surface recombination；In the insulation cotton layer other side, coating viscose glue bonds elastic base fabric；3D flocking processing is carried out on elastic base fabric surface by flocking machine；Trimming cuts, batches.

Description

The production technology of overcoat fabric

Technical field

The present invention relates to the production technologies of overcoat fabric.

Background technique

In the boundless universe lithium of clothes, the cashmere fabric of clothes is varied, at a tremendous pace.Generally, high-quality, Advanced cloth mostly has the characteristic of the several respects such as wear comfortable, sweat-absorbing breathable, pendency is wide, vision is honorable.Traditional sheep Suede overcoat comfort is preferable, but there are poor air permeability, easily breed bacterium, easily mouldy the problems such as damaging by worms.

Summary of the invention

It is an object of the invention to overcome the shortcomings of above-mentioned technology, to provide a kind of production technology of overcoat fabric, thoroughly Gas is good, and has certain sterilizing function, and warming effect is more excellent.

Technical solution used by inventing is such that a kind of production technology of overcoat fabric, comprising the following steps:

S1: fiber mixing, by 30%Sorona polymer fiber, 30% ultra-fine thermal fiber, 30% three-dimensional hollow thermal fiber, 10% Primary cotton fiber is mixed by cotton blender machine；

S2: raw fibre is dyed, and is added in dyeing course into levelling agent, auxiliary agent and antistatic agent；

S3: spinning and weaving step；

S4: weaving final finishing step, the final finishing step include immersion, fulling milling, drying, cropping and spin, and discharging is protected Warm cotton layer；

S4: being in uniformly to be laid to through knitting device into mesh grid by bamboo fibre and nano-class antibacterial silver ion master batch protofibre Stenlizing layer carries out the side of stenlizing layer and insulation cotton layer compound；

S5: in one layer of mesh layer of cloth of stenlizing layer surface recombination；

S6: in the insulation cotton layer other side, coating viscose glue bonds elastic base fabric, and ventilative auxiliary agent is added in the viscose glue, described Ventilative auxiliary agent includes following components in percentage by weight: 2,5- bis aminomethyl furans: 18-30, propylene carbonate: and 18-30, C12-C14 alkyl glycidyl ether: 8-16, triglycidyl group para-aminophenol: 8-16, bicyclopentadiene diepoxide Object: 8-16, ethyl alcohol: 18-30, sodium benzoate: 1-3, trihydroxymethylpropanyltri diglycidyl ether: 1-3, water: 45-80；

S7,3D flocking processing is carried out on elastic base fabric surface by flocking machine；

S8, the wool fabric after fitting is carried out shaping by baking oven, after sizing by winding bead cutter carry out trimming, cutting, It batches.

By using preceding solution, the beneficial effects of the present invention are: having by using mesh layer of cloth good Gas effect, and joined ventilative auxiliary agent in viscose glue and further increase air permeability effect, it can be mentioned significantly by using stenlizing layer High sterilization and insect prevention effect, insulation cotton layer provide more preferably warming effect.

Specific embodiment

The present invention is further illustrated below in conjunction with specific embodiment.

The present invention discloses a kind of production technology of overcoat fabric, comprising the following steps:

S1: fiber mixing, by 30%Sorona polymer fiber, 30% ultra-fine thermal fiber, 30% three-dimensional hollow thermal fiber, 10% Primary cotton fiber is mixed by cotton blender machine；

S2: raw fibre is dyed, and is added in dyeing course into levelling agent, auxiliary agent and antistatic agent；

S3: spinning and weaving step；

S4: weaving final finishing step, the final finishing step include immersion, fulling milling, drying, cropping and spin, and discharging is protected Warm cotton layer；

S4: being in uniformly to be laid to through knitting device into mesh grid by bamboo fibre and nano-class antibacterial silver ion master batch protofibre Stenlizing layer carries out the side of stenlizing layer and insulation cotton layer compound；

S5: in one layer of mesh layer of cloth of stenlizing layer surface recombination；

S6: in the insulation cotton layer other side, coating viscose glue bonds elastic base fabric, and ventilative auxiliary agent is added in the viscose glue, described Ventilative auxiliary agent includes following components in percentage by weight: 2,5- bis aminomethyl furans: 18-30, propylene carbonate: and 18-30, C12-C14 alkyl glycidyl ether: 8-16, triglycidyl group para-aminophenol: 8-16, bicyclopentadiene diepoxide Object: 8-16, ethyl alcohol: 18-30, sodium benzoate: 1-3, trihydroxymethylpropanyltri diglycidyl ether: 1-3, water: 45-80；

S7,3D flocking processing is carried out on elastic base fabric surface by flocking machine；

S8, the wool fabric after fitting is carried out shaping by baking oven, after sizing by winding bead cutter carry out trimming, cutting, It batches.

The surface of the flocking layer is coated with hydrophobic fluorine quaternary amine silane coupling agen coating, nano-silicon particle layer and hydrophobicity The combination of fluorine quaternary amine silane coupling agen layer, hydrone are easily detected by, and gas molecule can pass through, and are refused so that fabric be made to have The ventilative effect of water, makes people feel comfortable during wearing.

The Antibacterial Mechanism of silver is Action of Metal Ions and photocatalysis:

1, silver-colored chemical structure determines that silver catalytic capability with higher, the reduction potential of high oxidation state silver are high, it is sufficient to make it Surrounding space generates elemental oxygen.There is elemental oxygen strong oxidizing property can sterilize；

2, Ag+ can consumingly attract the sulfydryl (- SH) in bacterial body on protease to make albumen rapidly together with it Enzyme loss of activity, leads to bacterial death.

3, after bacterium is killed by Ag+, Ag+ is contacted by separate out in bacterium corpse, then with other bacterium colonies again, in cycles Ground proceeds as described above, this is also that silver sterilizes persistent reason.

4, detected through authoritative institution (SGS), the product to staphylococcus aureus, Escherichia coli, Candida albicans it is anti- For bacterium rate up to 99% or more, and after 150 washings, antibiotic rate is constant.

Basic principles and main features and its advantage of the invention have been shown and described above, the technical staff of the industry answers The understanding, the present invention is not limited to the above embodiments, only illustrates original of the invention described in above-described embodiment and explanation Reason, without departing from the spirit and scope of the present invention, various changes and improvements may be made to the invention, these changes and improvements It all fall within the protetion scope of the claimed invention, the claimed scope of the invention is by appended claims and its equivalent circle It is fixed.

Claims (1)

1. the production technology of overcoat fabric, it is characterised in that: the following steps are included:

S1: fiber mixing, by 30%Sorona polymer fiber, 30% ultra-fine thermal fiber, 30% three-dimensional hollow thermal fiber, 10% Primary cotton fiber is mixed by cotton blender machine；

S2: raw fibre is dyed, and is added in dyeing course into levelling agent, auxiliary agent and antistatic agent；

S3: spinning and weaving step；

S4: weaving final finishing step, the final finishing step include immersion, fulling milling, drying, cropping and spin, and discharging is protected Warm cotton layer；

S4: being in uniformly to be laid to through knitting device into mesh grid by bamboo fibre and nano-class antibacterial silver ion master batch protofibre Stenlizing layer carries out the side of stenlizing layer and insulation cotton layer compound；

S5: in one layer of mesh layer of cloth of stenlizing layer surface recombination；

S6: in the insulation cotton layer other side, coating viscose glue bonds elastic base fabric, and ventilative auxiliary agent is added in the viscose glue, described Ventilative auxiliary agent includes following components in percentage by weight: 2,5- bis aminomethyl furans: 18-30, propylene carbonate: and 18-30, C12-C14 alkyl glycidyl ether: 8-16, triglycidyl group para-aminophenol: 8-16, bicyclopentadiene diepoxide Object: 8-16, ethyl alcohol: 18-30, sodium benzoate: 1-3, trihydroxymethylpropanyltri diglycidyl ether: 1-3, water: 45-80；

S7,3D flocking processing is carried out on elastic base fabric surface by flocking machine；

S8, the wool fabric after fitting is carried out shaping by baking oven, after sizing by winding bead cutter carry out trimming, cutting, It batches.