CN111593516A - Antibacterial polyester fabric processing technology - Google Patents

Abstract

The invention discloses an antibacterial polyester fabric processing technology, which comprises the following steps: step 1: preparing raw cloth, checking the quality of the grey cloth, checking the turnover of the grey cloth, and then distinguishing qualified grey cloth from unqualified grey cloth, wherein the step 2: designing the shape, cutting the qualified grey cloth into the specification meeting the processing requirement, and 3: and (3) rinsing with cold water, namely putting the grey cloth into the cold water for cleaning, and step 4: dyeing, namely placing the cleaned grey cloth into a dye vat for dyeing, and performing step 5: and (5) drying, namely drying the dyed grey cloth, and step 6: scalding, injecting hot water and an antibacterial agent into the cleaning pool, then stirring the cleaning pool, and finally placing the dyed grey cloth into the cleaning pool, wherein the step 7: and (5) secondary drying, namely drying the gray fabric subjected to the ironing and washing. The discovery can uniformly distribute the silver ion antibacterial agent outside and inside the grey cloth, thereby generating good antibacterial effect.

Description

Antibacterial polyester fabric processing technology

Technical Field

The invention relates to the technical field of polyester fabrics, in particular to an antibacterial polyester fabric processing technology.

Background

Polyester fibers, commonly known as "dacron". The PET fiber is a synthetic fiber obtained by spinning polyester formed by polycondensation of organic dibasic acid and dihydric alcohol, is called PET fiber for short, and belongs to a high molecular compound. Invented in 1941, is the first major variety of current synthetic fibers. The polyester fiber has the advantages of good crease resistance and shape retention, high strength and elastic recovery capability. It is firm and durable, has the functions of resisting wrinkle, preventing ironing and preventing hair from sticking.

Dacron fabric can also be used as a material for producing clothes, with the development of times, articles contacted with the Dacron fabric in daily life are more and more, so that more and more bacteria are generated, in order to cope with the situation, a small number of processing plants add an organic antibacterial agent to the fabric blank before processing the clothes, so as to play an antibacterial role, but at present, the safety of the organic antibacterial agent is studied, generally speaking, the organic antibacterial agent has poor heat resistance, is mostly attached to the surface of fabric cloth, is easy to hydrolyze, and has short antibacterial effective period.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an antibacterial polyester fabric processing technology, which has the advantages of antibiosis and the like and solves the problem that more bacteria are bred in clothes.

(II) technical scheme

In order to realize the antibacterial aim, the invention provides the following technical scheme: the antibacterial polyester fabric processing technology comprises the following raw materials in parts by weight: 400 portions and 420 portions of cold water; 400 portions of hot water and 420 portions of hot water; 60-80 parts of a coloring agent; 40-60 parts of silver ion antibacterial agent and 40-60 parts of disinfectant.

Preferably, the method comprises the following steps, step 1: preparing raw cloth, checking the quality of the grey cloth, checking the turnover of the grey cloth, and then distinguishing qualified grey cloth from unqualified grey cloth.

Step 2: and (4) designing the shape, and cutting the qualified grey cloth into the specification meeting the processing requirement.

And step 3: and (4) rinsing with cold water, and putting the grey cloth into cold water for cleaning.

And 4, step 4: and (4) dyeing, namely placing the cleaned grey cloth into a dye vat for dyeing.

And 5: and (5) drying, namely drying the dyed grey cloth.

Step 6: and (4) scalding, namely injecting hot water and an antibacterial agent into the cleaning pool, then stirring the cleaning pool, and finally placing the dyed grey cloth into the cleaning pool.

And 7: and (5) secondary drying, namely drying the gray fabric subjected to the ironing and washing.

And 8: and (3) printing and dyeing the antibacterial agent, wherein the powdery antibacterial agent is attached to the outer surface of the grey fabric in a printing and dyeing mode.

And step 9: and (5) shaping, namely shaping the dried grey cloth by using a shaping machine.

Step 10: and (4) rolling, namely rolling the processed and formed grey cloth by using a rolling machine.

Step 11: and (5) packaging, namely packaging the rolled grey cloth by adopting a packaging machine.

Preferably, the batching in step 1 is to distinguish the fabric quality according to the length, width, weight, density, strength, etc. of the fabric, and to place the fabric in batches.

Preferably, the shape design in step 2 is to cut the blank fabric by using a cutting tool, so as to meet different processing requirements.

Preferably, the cold water rinsing in step 3 is to inject cold water into the cleaning pool, then add the disinfectant, sufficiently fuse the cold water and the disinfectant by stirring, and then put the grey cloth into the washing pool, so as to achieve the disinfection of the grey cloth.

Preferably, the scalding in step 6 is performed by discharging the mixture of the cold disinfectant and the disinfectant from the washing bath, injecting the hot water and the powdered silver ion-based antibacterial agent, fusing the hot water and the powdered silver ion-based antibacterial agent by stirring, and putting the gray fabric therein so that the mixture of the hot water and the powdered silver ion-based antibacterial agent can be fused into the gray fabric.

Preferably, in the secondary drying in step 7, after the gray fabric is finished to be ironed, the gray fabric is placed in a dryer, and hot air generated by the dryer circulates inside the dryer, so that the gray fabric can be quickly dried.

Preferably, the step 8 is to place the powdered silver ion-based antibacterial agent in a dyeing machine and compress the powdered silver ion-based antibacterial agent to the surface of the raw fabric by pressing.

Preferably, the setting in step 9 is to fix the crimp effect by stretching the blank fabric, and to make the fibers of the blank fabric meet the requirements.

The invention has the beneficial effects that:

compared with the prior art, the invention provides an antibacterial polyester fabric processing technology, which has the following beneficial effects:

the antibacterial polyester fabric processing technology is added with the disinfectant, and impurities and a plurality of bacteria in the grey fabric can be cleaned in the cold water rinsing process, so that the aim of disinfecting and cleaning the grey fabric for one time is fulfilled. The bacteria which are difficult to clean in the gray fabric are disinfected and cleaned for the second time in a hot water scalding mode, the cleanliness of the gray fabric in the subsequent processing process can be guaranteed to the maximum extent through the matching use of the disinfection and cleaning for the two times, the silver ion type antibacterial agent is added in the secondary scalding process, the silver ion type antibacterial agent can be fully guaranteed to be dissolved by hot water, the silver ion type antibacterial agent and the hot water are completely mixed together in a stirring mode, the silver ion type antibacterial agent is prevented from being precipitated in the stirring process, the silver ion type antibacterial agent can enter the gray fabric in a mode of soaking the gray fabric, the silver ion type antibacterial agent can be completely fused into the outer surface fibers of the gray fabric in a subsequent silver ion type antibacterial agent powder printing and dyeing mode, and dyeing of the silver ion type antibacterial agent can be completely fused into the outer surface fibers of the gray fabric, and therefore the inner fibers and the outer fibers of the gray fabric can be covered with the silver ion type antibacterial agent, thereby producing a good antibacterial effect.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows: the antibacterial polyester fabric processing technology comprises the following raw materials in parts by weight: 400 parts of cold water; 400 parts of hot water; 60 parts of a coloring agent; 40 parts of silver ion antibacterial agent and 40 parts of disinfectant.

The method comprises the following steps:

step 1: preparing raw cloth, checking the quality of the grey cloth, checking the turnover of the grey cloth, and then distinguishing qualified grey cloth from unqualified grey cloth.

Step 2: and (4) designing the shape, and cutting the qualified grey cloth into the specification meeting the processing requirement.

And step 3: and (4) rinsing with cold water, and putting the grey cloth into cold water for cleaning.

And 4, step 4: and (4) dyeing, namely placing the cleaned grey cloth into a dye vat for dyeing.

And 5: and (5) drying, namely drying the dyed grey cloth.

Step 6: and (4) scalding, namely injecting hot water and an antibacterial agent into the cleaning pool, then stirring the cleaning pool, and finally placing the dyed grey cloth into the cleaning pool.

And 7: and (5) secondary drying, namely drying the gray fabric subjected to the ironing and washing.

And 8: and (3) printing and dyeing the antibacterial agent, wherein the powdery antibacterial agent is attached to the outer surface of the grey fabric in a printing and dyeing mode.

And step 9: and (5) shaping, namely shaping the dried grey cloth by using a shaping machine.

Step 10: and (4) rolling, namely rolling the processed and formed grey cloth by using a rolling machine.

Step 11: and (5) packaging, namely packaging the rolled grey cloth by adopting a packaging machine.

The step 1 is that the quality of the grey cloth is distinguished according to the length, amplitude, weight, density, strength and the like of the grey cloth and the grey cloth is placed in batches, the shape design in the step 2 is that the grey cloth is cut by using a cutting tool so as to meet different processing requirements, the cold water rinsing in the step 3 is that cold water is injected into a cleaning pool, then disinfectant is added, the cold water and the disinfectant are fully fused in a stirring mode, then the grey cloth is placed into the cleaning pool so as to achieve the disinfection work of the grey cloth, the step 6 is that the mixture of the cold water and the disinfectant in the cleaning pool is discharged, then hot water and powdered silver ion antibacterial agents are injected, the hot water and the powdered silver ion antibacterial agents are fused in a stirring mode, then the grey cloth is placed into the cleaning pool so that the mixture of the hot water and the powdered silver ion antibacterial agents can be fused into the grey cloth, and 7, secondary drying, namely after the gray fabric is subjected to ironing washing, placing the gray fabric into a dryer, circulating hot air generated by the dryer in the dryer to rapidly dry the gray fabric, placing the powdery silver ion antibacterial agent into a dyeing machine in step 8, compressing the powdery silver ion antibacterial agent to the surface of the gray fabric in an extruding mode, and fixing the curling effect of the gray fabric in a stretching mode in step 9 to enable the fiber of the gray fabric to meet the requirement.

Example two: the antibacterial polyester fabric processing technology comprises the following raw materials in parts by weight: 410 parts of cold water; 410 parts of hot water; 70 parts of a coloring agent; 50 parts of silver ion antibacterial agent and 50 parts of disinfectant.

The method comprises the following steps:

step 1: preparing raw cloth, checking the quality of the grey cloth, checking the turnover of the grey cloth, and then distinguishing qualified grey cloth from unqualified grey cloth.

Step 2: and (4) designing the shape, and cutting the qualified grey cloth into the specification meeting the processing requirement.

And step 3: and (4) rinsing with cold water, and putting the grey cloth into cold water for cleaning.

And 4, step 4: and (4) dyeing, namely placing the cleaned grey cloth into a dye vat for dyeing.

And 5: and (5) drying, namely drying the dyed grey cloth.

Step 6: and (4) scalding, namely injecting hot water and an antibacterial agent into the cleaning pool, then stirring the cleaning pool, and finally placing the dyed grey cloth into the cleaning pool.

And 7: and (5) secondary drying, namely drying the gray fabric subjected to the ironing and washing.

And 8: and (3) printing and dyeing the antibacterial agent, wherein the powdery antibacterial agent is attached to the outer surface of the grey fabric in a printing and dyeing mode.

And step 9: and (5) shaping, namely shaping the dried grey cloth by using a shaping machine.

Step 10: and (4) rolling, namely rolling the processed and formed grey cloth by using a rolling machine.

Step 11: and (5) packaging, namely packaging the rolled grey cloth by adopting a packaging machine.

The step 1 is that the quality of the grey cloth is distinguished according to the length, amplitude, weight, density, strength and the like of the grey cloth and the grey cloth is placed in batches, the shape design in the step 2 is that the grey cloth is cut by using a cutting tool so as to meet different processing requirements, the cold water rinsing in the step 3 is that cold water is injected into a cleaning pool, then disinfectant is added, the cold water and the disinfectant are fully fused in a stirring mode, then the grey cloth is placed into the cleaning pool so as to achieve the disinfection work of the grey cloth, the step 6 is that the mixture of the cold water and the disinfectant in the cleaning pool is discharged, then hot water and powdered silver ion antibacterial agents are injected, the hot water and the powdered silver ion antibacterial agents are fused in a stirring mode, then the grey cloth is placed into the cleaning pool so that the mixture of the hot water and the powdered silver ion antibacterial agents can be fused into the grey cloth, and 7, secondary drying, namely after the gray fabric is subjected to ironing washing, placing the gray fabric into a dryer, circulating hot air generated by the dryer in the dryer to rapidly dry the gray fabric, placing the powdery silver ion antibacterial agent into a dyeing machine in step 8, compressing the powdery silver ion antibacterial agent to the surface of the gray fabric in an extruding mode, and fixing the curling effect of the gray fabric in a stretching mode in step 9 to enable the fiber of the gray fabric to meet the requirement.

Example three: the antibacterial polyester fabric processing technology comprises the following raw materials in parts by weight: 420 parts of cold water; 420 parts of hot water; 70 parts of a coloring agent; 50 parts of silver ion antibacterial agent and 50 parts of disinfectant.

The method comprises the following steps:

step 1: preparing raw cloth, checking the quality of the grey cloth, checking the turnover of the grey cloth, and then distinguishing qualified grey cloth from unqualified grey cloth.

Step 2: and (4) designing the shape, and cutting the qualified grey cloth into the specification meeting the processing requirement.

And step 3: and (4) rinsing with cold water, and putting the grey cloth into cold water for cleaning.

And 4, step 4: and (4) dyeing, namely placing the cleaned grey cloth into a dye vat for dyeing.

And 5: and (5) drying, namely drying the dyed grey cloth.

Step 6: and (4) scalding, namely injecting hot water and an antibacterial agent into the cleaning pool, then stirring the cleaning pool, and finally placing the dyed grey cloth into the cleaning pool.

And 7: and (5) secondary drying, namely drying the gray fabric subjected to the ironing and washing.

And 8: and (3) printing and dyeing the antibacterial agent, wherein the powdery antibacterial agent is attached to the outer surface of the grey fabric in a printing and dyeing mode.

And step 9: and (5) shaping, namely shaping the dried grey cloth by using a shaping machine.

Step 10: and (4) rolling, namely rolling the processed and formed grey cloth by using a rolling machine.

Step 11: and (5) packaging, namely packaging the rolled grey cloth by adopting a packaging machine.

The step 1 is that the quality of the grey cloth is distinguished according to the length, amplitude, weight, density, strength and the like of the grey cloth and the grey cloth is placed in batches, the shape design in the step 2 is that the grey cloth is cut by using a cutting tool so as to meet different processing requirements, the cold water rinsing in the step 3 is that cold water is injected into a cleaning pool, then disinfectant is added, the cold water and the disinfectant are fully fused in a stirring mode, then the grey cloth is placed into the cleaning pool so as to achieve the disinfection work of the grey cloth, the step 6 is that the mixture of the cold water and the disinfectant in the cleaning pool is discharged, then hot water and powdered silver ion antibacterial agents are injected, the hot water and the powdered silver ion antibacterial agents are fused in a stirring mode, then the grey cloth is placed into the cleaning pool so that the mixture of the hot water and the powdered silver ion antibacterial agents can be fused into the grey cloth, and 7, secondary drying, namely after the gray fabric is subjected to ironing washing, placing the gray fabric into a dryer, circulating hot air generated by the dryer in the dryer to rapidly dry the gray fabric, placing the powdery silver ion antibacterial agent into a dyeing machine in step 8, compressing the powdery silver ion antibacterial agent to the surface of the gray fabric in an extruding mode, and fixing the curling effect of the gray fabric in a stretching mode in step 9 to enable the fiber of the gray fabric to meet the requirement.

And (4) judging the standard:

the antibacterial polyester fabric processing technology is added with the disinfectant, and impurities and a plurality of bacteria in the grey fabric can be cleaned in the cold water rinsing process, so that the aim of disinfecting and cleaning the grey fabric for one time is fulfilled. The bacteria which are difficult to clean in the gray fabric are disinfected and cleaned for the second time in a hot water scalding mode, the cleanliness of the gray fabric in the subsequent processing process can be guaranteed to the maximum extent through the matching use of the disinfection and cleaning for the two times, the silver ion type antibacterial agent is added in the secondary scalding process, the silver ion type antibacterial agent can be fully guaranteed to be dissolved by hot water, the silver ion type antibacterial agent and the hot water are completely mixed together in a stirring mode, the silver ion type antibacterial agent is prevented from being precipitated in the stirring process, the silver ion type antibacterial agent can enter the gray fabric in a mode of soaking the gray fabric, the silver ion type antibacterial agent can be completely fused into the outer surface fibers of the gray fabric in a subsequent silver ion type antibacterial agent powder printing and dyeing mode, and dyeing of the silver ion type antibacterial agent can be completely fused into the outer surface fibers of the gray fabric, and therefore the inner fibers and the outer fibers of the gray fabric can be covered with the silver ion type antibacterial agent, thereby producing a good antibacterial effect.

Claims (9)

1. The antibacterial polyester fabric processing technology is characterized by comprising cold water, hot water, a coloring agent and a silver ion antibacterial agent, wherein the raw materials are proportioned in parts by weight as follows: 400 portions and 420 portions of cold water; 400 portions of hot water and 420 portions of hot water; 60-80 parts of a coloring agent; 40-60 parts of silver ion antibacterial agent and 40-60 parts of disinfectant.

2. The antibacterial polyester fabric processing technology according to claim 1, comprising the following steps:

step 1: preparing raw cloth, checking the quality of the grey cloth, checking the turnover of the grey cloth, and then distinguishing qualified grey cloth from unqualified grey cloth.

Step 2: and (4) designing the shape, and cutting the qualified grey cloth into the specification meeting the processing requirement.

And step 3: and (4) rinsing with cold water, and putting the grey cloth into cold water for cleaning.

And 4, step 4: and (4) dyeing, namely placing the cleaned grey cloth into a dye vat for dyeing.

And 5: and (5) drying, namely drying the dyed grey cloth.

Step 6: and (4) scalding, namely injecting hot water and an antibacterial agent into the cleaning pool, then stirring the cleaning pool, and finally placing the dyed grey cloth into the cleaning pool.

And 7: and (5) secondary drying, namely drying the gray fabric subjected to the ironing and washing.

And 8: and (3) printing and dyeing the antibacterial agent, wherein the powdery antibacterial agent is attached to the outer surface of the grey fabric in a printing and dyeing mode.

And step 9: and (5) shaping, namely shaping the dried grey cloth by using a shaping machine.

Step 10: and (4) rolling, namely rolling the processed and formed grey cloth by using a rolling machine.

Step 11: and (5) packaging, namely packaging the rolled grey cloth by adopting a packaging machine.

3. The process of claim 2, wherein the batching in the step 1 is performed to distinguish the fabric quality according to the length, width, weight, density, strength, etc. of the fabric and to place the fabric in batches.

4. The process of claim 2, wherein the step 2 is performed by cutting the gray fabric using a cutting tool to meet different processing requirements.

5. The process of claim 2, wherein the cold water rinsing in step 3 is performed by injecting cold water into the cleaning tank, adding the disinfectant, sufficiently mixing the cold water with the disinfectant by stirring, and placing the gray fabric therein to sterilize the gray fabric.

6. The process of claim 2, wherein the rinsing in step 6 comprises discharging the mixture of the cold disinfectant and the disinfectant from the rinsing bath, injecting the hot water and the powdered silver ion-based antibacterial agent, blending the hot water and the powdered silver ion-based antibacterial agent by stirring, and placing the gray fabric therein such that the mixture of the hot water and the powdered silver ion-based antibacterial agent is blended into the gray fabric.

7. The process of claim 2, wherein the secondary drying of the step 7 is performed such that the gray fabric is rapidly dried by circulating hot air generated from the dryer inside the dryer after the gray fabric is ironed and washed, and the gray fabric is placed in the dryer.

8. The process of claim 2, wherein the step 8 is to place the powdered silver ion type antibacterial agent in a dyeing machine and compress it to the surface of the raw fabric by pressing.

9. The process of claim 2, wherein the step 9 of sizing is performed by stretching the gray fabric to fix the crimping effect and to make the fibers of the gray fabric meet the requirements.