CN109750489A

CN109750489A - A kind of processing technology of antibacterial and deodouring textile

Info

Publication number: CN109750489A
Application number: CN201811649124.7A
Authority: CN
Inventors: 陈新凯; 饶永聪
Original assignee: Fujian Jinyifeng Industry And Trade Co Ltd
Current assignee: Fujian Jinyifeng Industry And Trade Co Ltd
Priority date: 2018-12-30
Filing date: 2018-12-30
Publication date: 2019-05-14

Abstract

The invention discloses a kind of processing technology of antibacterial and deodouring textile, operating method is the following steps are included: prepared by substrate: using fibre-grade inorganic nano material for antibacterial matrices, while being aided with the antibacterial body material based on silver zinc complex object.The present invention is prepared by substrate, overlay film, colloidal sol preparation, the setting of impregnation and squeezing drying, the ontology of fabric and surface can be provided with nano photocatalyst catalytic material, fabric is immersed in nano photo-catalytic aqueous solution simultaneously, to make textile reach antibiotic property, durability and the good effect of washing fastness, it solves simultaneously at present, it is many to the research report of textile material antibacterial processing, antibacterial used is mostly organic antibacterial agent such as quaternary ammonium salt, guanidine, fatty acid and metallic compound etc., it is wherein most toxic, not environmentally, some antibacterial agents are at high cost, processing technology is complicated, some antibacterial effects are not good enough, durability, the problem of washability difference.

Description

A kind of processing technology of antibacterial and deodouring textile

Technical field

The present invention relates to textile technology field, specially a kind of processing technology of antibacterial and deodouring textile.

Background technique

Currently, the research of textile material antibacterial processing is reported it is very much, antibacterial used be mostly organic antibacterial agent such as Quaternary ammonium salt, guanidine, fatty acid and metallic compound etc., wherein most toxic, not environmentally, some antibacterial agents are at high cost, add Work complex process, some antibacterial effects are not good enough, and durability, washability are poor, we use a kind of novel antimicrobial solvent-thus The nano photo-catalytic hydrosol, it is equal which prepares simple, low in cost and antibiotic property, durability and washing fastness To be good, highly promote.

Summary of the invention

The purpose of the present invention is to provide a kind of processing technology of antibacterial and deodouring textile, have antibiotic property, durability and The good advantage of washing fastness solves currently, reporting that much antibacterial used is mostly to the research of textile material antibacterial processing Organic antibacterial agent such as quaternary ammonium salt, guanidine, fatty acid and metallic compound etc., wherein most toxic, not environmentally, some is anti- Microbial inoculum is at high cost, and processing technology is complicated, and some antibacterial effects are not good enough, the problem of durability, washability difference.

To achieve the above object, the invention provides the following technical scheme: a kind of processing technology of antibacterial and deodouring textile, Operating method the following steps are included:

A. prepared by substrate: using fibre-grade inorganic nano material for antibacterial matrices, while being aided with the antibacterial based on silver zinc complex object Body material and incorporating ultrafine TiO2 carrier are prepared at nano photocatalyst catalytic material, and by nano-antibacterial master batch, silver zinc complex Object antibacterial body material and superfine TiO2 carrier it is prepared at nano photocatalyst catalytic material be prepared into threadiness, then and in textile fabric The fiber in portion is combined, that is, can be made into nano photo-catalytic antibacterial fabric；

B. overlay film: one layer of nano photo-catalytic antibacterial film is prepared on the pet substrate using Magnetron reactive sputtering, because of nanometer light Catalyst particles surface-active greatly, easily occurs to reunite and be not easy to fibrous material combination fixation, so using adhesive method nanometer Photo-catalytic antibacterial film is applied to the surface of cotton fabric；

C. prepared by colloidal sol: using butyl titanate for presoma, and adopts water as solvent, while glacial acetic acid is stabilizer, by titanium Acid butyl ester, clear water and glacial acetic acid are placed in mixing arrangement according to a certain ratio to be mixed, by solution left standstill one after mixing The section time can be made into the nano photo-catalytic hydrosol；

D. impregnation: nano photo-catalytic hydrosol solution is placed on and is padded in slot, fabric is sent to through conveying roller then and is equipped with Padding in slot for the nano photo-catalytic hydrosol is contacted with the nano photo-catalytic hydrosol, can set at this time draw cloth apparatus draw cloth speed Degree, contacts textile fabric adequately with the nano photo-catalytic hydrosol；

E. roll compacting dry: draw cloth apparatus by textile fabric extraction pad slot after, by roll compaction equipment by after impregnation textile fabric carry out Roll compacting is immersed in Photocatalyst water colloidal sol completely in textile fabric, and textile fabric can pass through drying after roll compaction equipment roll compacting Device is dried, and drying unit can set optimal drying temperature value and carry out drying operation, after then cloth-rolling device will dry Textile fabric wound.

Preferably, the ratio of the antibacterial matrices is 20%, and the ratio of the silver zinc complex object is 50%, the TiO2 carrier Ratio be 30%, and the nano photocatalyst catalytic material and the ratio of fabric are 1:100.

Preferably, the PET matrix with a thickness of 0.175 ± 1mm, transmitance >=80% is heat-shrinked: MD≤1.3, TD≤ 1.0, temperature range: -70 DEG C -150 DEG C.

Preferably, the ratio of the butyl titanate is 10%, and the ratio of the glacial acetic acid is 10%, and the ratio of the clear water is 80%, and it is stirred mixing using mixing arrangement, 15 minutes are stood after mixing.

Preferably, the speed of travel of fabric is 20-40 ms/min in the immersing glue process, the nano photo-catalytic hydrosol Temperature is maintained at 20-60 degrees Celsius.

Preferably, the roll compacting speed of the roll compaction equipment is 15-30 ms/min, the drying temperature model of drying unit setting Enclosing value is 90-120 degrees Celsius.

Compared with prior art, beneficial effects of the present invention are as follows:

1, the present invention, can be by the ontology of fabric by substrate preparation, overlay film, colloidal sol preparation, the setting of impregnation and squeezing drying And surface is provided with nano photocatalyst catalytic material, while fabric being immersed in nano photo-catalytic aqueous solution, so that textile be made to reach The good effect of antibiotic property, durability and washing fastness has been arrived, while having solved the research report currently, to the processing of textile material antibacterial There are many road, and antibacterial used is mostly organic antibacterial agent such as quaternary ammonium salt, guanidine, fatty acid and metallic compound etc., Middle majority is toxic, and not environmentally, some antibacterial agents are at high cost, and processing technology is complicated, and some antibacterial effects are not good enough, durability, washable Property difference problem.

2, the present invention is coated with a nanometer light by will mix nano photocatalyst catalytic material inside textile, and in textile surface The catalyst hydrosol can make textile reduce light transmittance, and only 0.9% nano photo-catalytic hydrosol painting is located at fabric table Face, fabric can reach 93%, and bacteriostasis rate of the fabric in human body room temperature to the rate of ultraviolet shield of wavelength 297nm (being directed to Escherichia coli, gold-coloured staphylococci, mould spore and Trichophyton rubrum) reaches 80%-90.8%, and nano photo-catalytic After antibiotic fabric can at least successively go through 12 washings, its photocatalytic activity is still kept to be basically unchanged, therefore its washing fastness It is very excellent, while can overcome nano photo-catalytic microparticle surfaces activity that reunion greatly, easily occurs using adhesive method and be not easy to Fibrous material combines fixed problem, and can increase broad spectrum antibacterial.

Detailed description of the invention

Fig. 1 is process flow chart of the invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Referring to Fig. 1, a kind of processing technology of antibacterial and deodouring textile, operating method the following steps are included:

Embodiment one:

A kind of processing technology of antibacterial and deodouring textile, operating method the following steps are included:

Embodiment two:

In example 1, following processes are added:

The ratio of antibacterial matrices is 20%, and the ratio of silver zinc complex object is that the ratio of 50%, TiO2 carrier is 30%, and the nanometer The ratio of photocatalyst material and fabric is 1:100.

Embodiment three:

In example 2, following processes are added:

PET matrix with a thickness of 0.175 ± 1mm, transmitance >=80% is heat-shrinked: MD≤1.3, TD≤1.0, temperature range: -70 ℃-150℃。

Example IV:

In the third embodiment, following processes are added:

The ratio of butyl titanate is 10%, and the ratio of glacial acetic acid is 10%, and the ratio of clear water is 80%, and using mixing arrangement into Row is stirred, and stands 15 minutes after mixing.

Embodiment five:

In example IV, following processes are added:

The speed of travel of fabric is 20-40 ms/min in immersing glue process, and the temperature of the nano photo-catalytic hydrosol is maintained at 20-60 Degree Celsius.

Embodiment six:

In embodiment five, following processes are added:

The roll compacting speed of roll compaction equipment is 15-30 ms/min, and the drying temperature value range that drying unit is set is Celsius as 90-120 Degree.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with A variety of variations, modification, replacement can be carried out to these embodiments without departing from the principles and spirit of the present invention by understanding And modification, the scope of the present invention is defined by the appended.

Claims

1. a kind of processing technology of antibacterial and deodouring textile, it is characterised in that: its operating method the following steps are included:

2. a kind of processing technology of antibacterial and deodouring textile according to claim 1, it is characterised in that: the antibacterial matrices Ratio be 20%, the ratio of the silver zinc complex object is 50%, and the ratio of the TiO2 carrier is 30%, and the nano photocatalyst Catalytic material and the ratio of fabric are 1:100.

3. a kind of processing technology of antibacterial and deodouring textile according to claim 1, it is characterised in that: the PET matrix With a thickness of 0.175 ± 1mm, transmitance >=80% is heat-shrinked: MD≤1.3, TD≤1.0, temperature range: -70 DEG C -150 DEG C.

4. a kind of processing technology of antibacterial and deodouring textile according to claim 1, it is characterised in that: the butyl titanate Ratio be 10%, the ratio of the glacial acetic acid is 10%, and the ratio of the clear water is 80%, and is stirred using mixing arrangement Mixing is mixed, stands 15 minutes after mixing.

5. a kind of processing technology of antibacterial and deodouring textile according to claim 1, it is characterised in that: the immersing glue process The speed of travel of middle fabric is 20-40 ms/min, and the temperature of the nano photo-catalytic hydrosol is maintained at 20-60 degrees Celsius.

6. a kind of processing technology of antibacterial and deodouring textile according to claim 1, it is characterised in that: the roll compaction equipment Roll compacting speed be 15-30 ms/min, the drying temperature value range that drying unit is set is 90-120 degree Celsius.