CN112281277B - Flame-retardant polyester rolling curtain fabric and preparation method thereof - Google Patents

Flame-retardant polyester rolling curtain fabric and preparation method thereof Download PDF

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Publication number
CN112281277B
CN112281277B CN202011102907.0A CN202011102907A CN112281277B CN 112281277 B CN112281277 B CN 112281277B CN 202011102907 A CN202011102907 A CN 202011102907A CN 112281277 B CN112281277 B CN 112281277B
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flame
retardant polyester
retardant
colored
functional
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CN112281277A (en
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李远明
李露曦
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Shaoxing Sanlida Textile Flame Retardant New Materials Co ltd
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Shaoxing Sanlida Textile Flame Retardant New Materials Co ltd
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    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01FCHEMICAL FEATURES IN THE MANUFACTURE OF ARTIFICIAL FILAMENTS, THREADS, FIBRES, BRISTLES OR RIBBONS; APPARATUS SPECIALLY ADAPTED FOR THE MANUFACTURE OF CARBON FILAMENTS
    • D01F1/00General methods for the manufacture of artificial filaments or the like
    • D01F1/02Addition of substances to the spinning solution or to the melt
    • D01F1/07Addition of substances to the spinning solution or to the melt for making fire- or flame-proof filaments
    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01FCHEMICAL FEATURES IN THE MANUFACTURE OF ARTIFICIAL FILAMENTS, THREADS, FIBRES, BRISTLES OR RIBBONS; APPARATUS SPECIALLY ADAPTED FOR THE MANUFACTURE OF CARBON FILAMENTS
    • D01F1/00General methods for the manufacture of artificial filaments or the like
    • D01F1/02Addition of substances to the spinning solution or to the melt
    • D01F1/10Other agents for modifying properties
    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01FCHEMICAL FEATURES IN THE MANUFACTURE OF ARTIFICIAL FILAMENTS, THREADS, FIBRES, BRISTLES OR RIBBONS; APPARATUS SPECIALLY ADAPTED FOR THE MANUFACTURE OF CARBON FILAMENTS
    • D01F1/00General methods for the manufacture of artificial filaments or the like
    • D01F1/02Addition of substances to the spinning solution or to the melt
    • D01F1/10Other agents for modifying properties
    • D01F1/103Agents inhibiting growth of microorganisms
    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01FCHEMICAL FEATURES IN THE MANUFACTURE OF ARTIFICIAL FILAMENTS, THREADS, FIBRES, BRISTLES OR RIBBONS; APPARATUS SPECIALLY ADAPTED FOR THE MANUFACTURE OF CARBON FILAMENTS
    • D01F1/00General methods for the manufacture of artificial filaments or the like
    • D01F1/02Addition of substances to the spinning solution or to the melt
    • D01F1/10Other agents for modifying properties
    • D01F1/106Radiation shielding agents, e.g. absorbing, reflecting agents
    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01FCHEMICAL FEATURES IN THE MANUFACTURE OF ARTIFICIAL FILAMENTS, THREADS, FIBRES, BRISTLES OR RIBBONS; APPARATUS SPECIALLY ADAPTED FOR THE MANUFACTURE OF CARBON FILAMENTS
    • D01F6/00Monocomponent artificial filaments or the like of synthetic polymers; Manufacture thereof
    • D01F6/88Monocomponent artificial filaments or the like of synthetic polymers; Manufacture thereof from mixtures of polycondensation products as major constituent with other polymers or low-molecular-weight compounds
    • D01F6/92Monocomponent artificial filaments or the like of synthetic polymers; Manufacture thereof from mixtures of polycondensation products as major constituent with other polymers or low-molecular-weight compounds of polyesters
    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01FCHEMICAL FEATURES IN THE MANUFACTURE OF ARTIFICIAL FILAMENTS, THREADS, FIBRES, BRISTLES OR RIBBONS; APPARATUS SPECIALLY ADAPTED FOR THE MANUFACTURE OF CARBON FILAMENTS
    • D01F8/00Conjugated, i.e. bi- or multicomponent, artificial filaments or the like; Manufacture thereof
    • D01F8/04Conjugated, i.e. bi- or multicomponent, artificial filaments or the like; Manufacture thereof from synthetic polymers
    • D01F8/14Conjugated, i.e. bi- or multicomponent, artificial filaments or the like; Manufacture thereof from synthetic polymers with at least one polyester as constituent
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06BTREATING TEXTILE MATERIALS USING LIQUIDS, GASES OR VAPOURS
    • D06B3/00Passing of textile materials through liquids, gases or vapours to effect treatment, e.g. washing, dyeing, bleaching, sizing, impregnating
    • D06B3/10Passing of textile materials through liquids, gases or vapours to effect treatment, e.g. washing, dyeing, bleaching, sizing, impregnating of fabrics
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06CFINISHING, DRESSING, TENTERING OR STRETCHING TEXTILE FABRICS
    • D06C15/00Calendering, pressing, ironing, glossing or glazing textile fabrics
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06CFINISHING, DRESSING, TENTERING OR STRETCHING TEXTILE FABRICS
    • D06C7/00Heating or cooling textile fabrics
    • D06C7/02Setting
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06LDRY-CLEANING, WASHING OR BLEACHING FIBRES, FILAMENTS, THREADS, YARNS, FABRICS, FEATHERS OR MADE-UP FIBROUS GOODS; BLEACHING LEATHER OR FURS
    • D06L1/00Dry-cleaning or washing fibres, filaments, threads, yarns, fabrics, feathers or made-up fibrous goods
    • D06L1/12Dry-cleaning or washing fibres, filaments, threads, yarns, fabrics, feathers or made-up fibrous goods using aqueous solvents
    • D06L1/14De-sizing
    • DTEXTILES; PAPER
    • D10INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
    • D10BINDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
    • D10B2331/00Fibres made from polymers obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds, e.g. polycondensation products
    • D10B2331/04Fibres made from polymers obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds, e.g. polycondensation products polyesters, e.g. polyethylene terephthalate [PET]

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  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • General Chemical & Material Sciences (AREA)
  • Manufacturing & Machinery (AREA)
  • Woven Fabrics (AREA)
  • Artificial Filaments (AREA)

Abstract

The invention discloses a flame-retardant polyester roller shutter fabric and a preparation method thereof, wherein non-flame-retardant polyester chips or non-flame-retardant polyester chips are mixed with high-viscosity copolymerized flame-retardant polyester chips, or the non-flame-retardant polyester chips are mixed with phosphorus flame retardant master batches, then the master batches are respectively added for blending to carry out dope colored spinning, and the obtained roller shutter fabric material is composed of 100% of colored polyester fibers containing flame-retardant functional and functional materials, or is composed of 100% of colored polyester fibers containing flame-retardant functional and functional materials and 100% of colored polyester fibers containing non-flame-retardant functional and functional materials by interweaving. The flame-retardant polyester roller shutter fabric is prepared by mixing the non-flame-retardant polyester chips with low cost with flame-retardant materials, and the cost is greatly reduced on the premise of meeting the mandatory fire-fighting technical standards GB 8624B 1 and B2 in public places in China.

Description

Flame-retardant polyester rolling curtain fabric and preparation method thereof
Technical Field
The invention relates to the technical field of roller blinds (sun shades) made of flame-retardant polyester materials, in particular to a flame-retardant polyester roller blind fabric and a preparation method thereof.
Background
Because a large amount of flammable and combustible materials are used in public places, fire disasters occur continuously, crowd death and crowd injuries are caused, and great loss is caused to the safety of lives and properties of people. The fire-proof performance of twenty-sixth building components, building materials, interior decoration and decorative materials which are newly added in the 'fire-fighting law' revised and implemented in 2009 in China must meet the national standard; there is no national standard and must meet industry standards. The indoor decoration and decoration of the intensive personnel places should use non-combustible and flame-retardant materials according to the requirements of fire-fighting technical standards. "content, in the regulation of" fire control law ", the fire protection technical standard belonging to the level of flame retardant materials is the national mandatory flame retardant 1 level of the standard of GB 20286-2006" requirements and identifications of combustion performance of flame retardant products and components in public places "and the B1 level of the standard of GB 8624-2012" grading of combustion performance of fire retardant materials for buildings ". In GB50222 "fire code for interior decoration design of buildings", the fire code divides different places according to the degree of risk of fire, and defines the application ranges of GB 8624B 1 level or B2 level, that is: in the decoration and decoration materials of public places, except that GB 8624B 1 grade is required to be used according to 26 th regulation of fire control Law, GB 8624B 2 grade can be used as the decoration and decoration materials of some parts according to the fire protection regulation of GB50222 standard. In public places such as office buildings (rooms), waiting halls, train high-speed rails and the like in places with dense people in China, a large number of roller shutters with sun-shading function are used all the time, but few flame-retardant roller shutters capable of meeting the regulations of laws, regulations and flame-retardant standards are available in the market. The 'combustion performance is specified in JG/T254-2015' architectural soft roller blind, the indoor application is not lower than the GB8624-2012 B2 requirement, namely B2 is the lowest requirement, and the improvement standard exceeding B2 is encouraged to be B1. Therefore, the market space for flame retardant roll-up window curtains is very large and the demand is increasing.
The flame-retardant roller shutter fabric produced in the prior art is difficult to meet GB8624-2012 B1 (flame-retardant material), and the roller shutter fabric which can meet GB8624-2012 B2 standard is generally produced by a method of adding a flame-retardant coating or glass fiber woven cloth to a polyester material and then coating. The flame-retardant roller shutter fabric produced by adopting the method of weaving glass fiber and then coating still has the following obvious defects: the process is complex, the cost is high, the product price is high, and simultaneously, the glass fiber material is not friendly to human body and environment in the using process. The production technology method of the flame-retardant roller shutter fabric in the market is as follows: the polyester fiber cloth is produced by coating materials such as PVC and the like with flame retardant, but the products of the technical method can not meet GB 8624B 1 (LOI is more than or equal to 32.0 percent) and can meet GB 8624B 2 (LOI is more than or equal to 26.0 percent) standards, but the technology and the products still have defects, namely the products are coated with the flame retardant together with organic materials such as PVC and the like, the production cost is still high, and the production coating process has great influence on human health and environment. In addition, the unreasonable proportion of flame-retardant materials to non-flame-retardant materials can not ensure the flame-retardant effect of the product.
Disclosure of Invention
The invention aims to provide a flame-retardant terylene rolling screen fabric and a preparation method thereof, which adopt non-flame-retardant polyester slices with lower cost to be mixed with flame-retardant materials to prepare the flame-retardant terylene rolling screen fabric, and greatly reduce the cost on the premise of meeting the mandatory fire-fighting technical standards GB 8624B 1 and B2 in public places in China.
On one hand, the invention provides a preparation method of flame-retardant polyester roller shutter fabric, which comprises the following steps of mixing non-flame-retardant polyester chips, or mixing the non-flame-retardant polyester chips with high-viscosity copolymerized flame-retardant polyester chips, or mixing the non-flame-retardant polyester chips with phosphorus flame retardant master batches, respectively adding the master batches for blending to carry out stock solution coloring spinning, weaving gray fabric and treating by a dye factory:
step 1,1) mixing a non-flame-retardant polyester chip with viscosity of 0.72-0.95 dL/g and a copolymerized flame-retardant polyester chip with phosphorus content of 5500-7100 ppm and viscosity of 0.72-0.95 dL/g, wherein the mixing ratio of the non-flame-retardant polyester chip and the copolymerized flame-retardant polyester chip is 35-65 wt% and the copolymerized flame-retardant polyester chip is 65-35 wt%, or 2) a copolymerized flame-retardant polyester chip with viscosity of 0.72-0.95 dL/g, or 3) a non-flame-retardant polyester chip with viscosity of 0.72-0.95 dL/g and a phosphorus flame retardant master batch;
respectively adding color master batches and functional materials into the raw materials 1) to 4), uniformly blending, and performing dope colored spinning and post-spinning to obtain colored functional flame-retardant polyester fibers and colored functional non-flame-retardant polyester fibers;
step 2, weaving colored functional flame-retardant polyester grey cloth by colored functional flame-retardant polyester fibers, or weaving colored functional flame-retardant polyester fibers and colored functional non-flame-retardant polyester fibers into colored functional flame-retardant polyester grey cloth;
and 3, adding a weak alkaline cleaning agent into the colored functional flame-retardant polyester gray fabric at the temperature of 100-120 ℃ for treatment or adding a desizing agent for desizing, adding a weak alkaline cleaning agent into the colored functional flame-retardant polyester gray fabric prepared by blending with the phosphorus flame retardant master batch at the temperature of 100-105 ℃ for treatment or adding the desizing agent for desizing, then performing cleaning treatment at the temperature of 80-95 ℃, and sizing at the temperature of 165-205 ℃ and the speed of 15-30 m/min on a setting machine to obtain the flame-retardant polyester roller shutter fabric.
The non-flame-retardant polyester chip, the copolymerization flame-retardant polyester chip and the organic phosphorus flame retardant master batch are all commercially available. Wherein, four kinds of fibers are obtained firstly, namely the colored functional flame-retardant polyester fiber prepared by the step 1,1), the colored functional flame-retardant polyester fiber prepared by the step 1,2), the colored functional non-flame-retardant polyester fiber prepared by the step 1,3) and the colored functional flame-retardant polyester fiber prepared by the step 1,4).
The colored functional flame-retardant polyester grey fabric consists of: all 1) the prepared colored functional flame-retardant polyester fibers are woven, or all 4) the prepared colored functional flame-retardant polyester fibers are woven, or 2) 65-35 wt% of the prepared colored functional flame-retardant polyester fibers and 3) 35-65 wt% of the prepared colored functional non-flame-retardant polyester fibers are interwoven, or 1) the colored functional flame-retardant polyester fibers are interwoven with 2) the colored functional flame-retardant polyester fibers, or 3) the colored functional non-flame-retardant polyester fibers are interwoven with 4) the colored functional flame-retardant polyester fibers, or other modes are interwoven under the condition of controlling a proper proportion under the condition that the flame-retardant effect of the product flame-retardant polyester roller shutter fabric can meet the condition that the oxygen index value reaches 26.3% or above.
The invention aims to reduce the consumption of flame-retardant components on the premise of ensuring that the combustion performance of the flame-retardant polyester roller shutter fabric meets GB 8624B 1 level and B2 level and the using function of the roller shutter fabric, for example, the non-flame-retardant slice and the flame-retardant slice are mixed for spinning, for example, the non-flame-retardant yarn is interwoven with the flame-retardant yarn, or the non-flame-retardant slice and the flame retardant are mixed for spinning, so that the production cost can be greatly reduced, and compared with the flame-retardant polyester roller shutter fabric produced by using 100 percent copolymerized flame-retardant polyester slice as a raw material, the production cost of the flame-retardant polyester roller shutter fabric is reduced by more than 15 percent.
The high-viscosity polyester slices are adopted as raw materials, because the molecular weight of the high-viscosity polyester is higher than that of the conventional polyester, the molecular chain length of the high-viscosity polyester is long, the slippage space between molecules is reduced, the flame-retardant terylene or non-flame-retardant terylene DTY (textured yarn) interlaced yarn and/or ATY (oriented yarn) with high breaking strength can be obtained by spinning, the stiffness of the fiber is increased, the fiber is woven into grey cloth by a machine, the grey cloth is subjected to high-temperature treatment by a dye factory to shrink the fiber, and the extensibility and the stiffness of the fiber and the fabric are fixed by high-temperature shaping, so that the fabric is not deformed and wrinkled, and the using function of the roller shutter fabric is met; when the fabric is not coated, the stiffening agent and similar substances are not added, the combustion performance of the roller shutter fabric is not influenced by combustible organic substances to reach the required flame-retardant grade, and the fabric material components are kept to be composed of 100% of colored functional flame-retardant polyester fibers or are formed by interweaving the colored functional flame-retardant polyester fibers and the colored functional non-flame-retardant polyester fibers.
If the viscosity of the polyester chip is low, such as the viscosity is below 0.7dL/g, the breaking strength of the spun fiber is low and the spun fiber is soft, and the produced fabric cannot be stiff and smooth, is easy to soften and wrinkle, and cannot be used as a roller shutter fabric; however, if the viscosity of the polyester chip is more than 1.0dL/g, spinning and network adding of multi-F DTY are difficult, the breaking strength of the spun fiber reaches more than 6.5dL/g, the weaving is difficult, the stiffness of the woven grey cloth after treatment is high, and the fabric is difficult to roll or cannot be rolled and compacted and cannot be used as a roller shutter fabric.
The color master batch and the polyester chip are added and blended to carry out dope dyed spinning, so that the advantages are two, firstly, the light fastness of the fabric woven by the color spinning is at least 1 grade or even more than 2 grades higher than that of the dyed fabric, and the high standard requirement of the roller shutter fabric on the light fastness can be met; and secondly, the dope dyed spinning does not additionally increase the environmental pollution during spinning, namely, dyeing is not needed in a dye factory, and no dyeing wastewater is discharged, so that the dope dyed spinning is environment-friendly. The addition amount of the color master batch is determined according to the color requirement, and the preferable conditions are not determined.
One or more of the antibacterial master batch, the ultraviolet-resistant master batch and the negative ion master batch are added and blended together in the stock solution coloring spinning, so that the roller shutter fabric has the additional functions of resisting bacteria and mildew, and/or has the additional functions of resisting ultraviolet rays and shielding ultraviolet rays, and/or has the additional function of releasing negative ions while having high flame retardance and high light fastness.
Preferably, in step 1, the "functionality" in the fiber is formed by one or more functional materials of antibacterial master batch, ultraviolet-resistant master batch and anion master batch added during spinning, and the addition amount is 0-4.8% respectively. The antibacterial master batch, the ultraviolet resistant master batch and the negative ion master batch are commercially available.
Preferably, in step 1, the dope color spinning is melt spinning comprising: 1) mixing non-flame-retardant polyester chips with copolymerization flame-retardant polyester chips in a certain proportion, 2) 100% of copolymerization flame-retardant polyester chips, 3) 100% of non-flame-retardant polyester chips, 4) mixing the non-flame-retardant polyester chips with phosphorus flame retardant master batches in a certain proportion, and respectively adding the master batches and the blend of the functional materials into the 1) to the 4) to dry until the water content is below 35ppm, the temperature is 263-288 ℃, and the melt pressure is 15.5-19.5 MPa.
Preferably, in step 1, the colored functional flame-retardant polyester fibers comprise colored functional flame-retardant polyester DTY network yarns and colored functional flame-retardant polyester ATY, and the colored functional non-flame-retardant polyester fibers comprise colored functional non-flame-retardant polyester DTY network yarns and colored functional non-flame-retardant polyester ATY.
Preferably, the colored functional flame-retardant polyester DTY network yarn is obtained by further heating and drafting a colored functional flame-retardant polyester POY formed by dope colored spinning, the colored functional non-flame-retardant polyester DTY network yarn is obtained by further heating and drafting a colored functional non-flame-retardant polyester POY formed by dope colored spinning, the colored functional flame-retardant polyester ATY is obtained by further heating, drafting and air-texturing a colored functional flame-retardant polyester POY formed by dope colored spinning on an air texturing machine, and the colored functional non-flame-retardant polyester ATY is obtained by further heating, drafting and air-texturing a colored functional non-flame-retardant polyester POY formed by dope colored spinning on an air texturing machine.
Preferably, the colored functional flame-retardant polyester DTY interlaced yarn or the colored functional non-flame-retardant polyester DTY interlaced yarn is 108 to 512dtex/36 to 144f (or 97 to 461D/36 to 144 f), and the breaking strength is 3.6 to 6.1cN/dtex; the color functional flame-retardant polyester ATY or the color functional non-flame-retardant polyester ATY is 233-694 dtex/72-144 f (or 198-625D/72-144 f), and the breaking strength is 3.6-6.1 cN/dtex.
Preferably, in the step 2, during weaving, the colored functional flame-retardant polyester DTY interlaced yarn is warp yarn and/or weft yarn, the colored functional flame-retardant polyester ATY is warp yarn and/or weft yarn, and 35-65 wt% of the colored functional flame-retardant polyester DTY interlaced yarn or ATY is interwoven with 35-65 wt% of the colored functional non-flame-retardant polyester DTY interlaced yarn or ATY to obtain the colored functional flame-retardant polyester gray fabric. That is, the prepared colored functional flame-retardant polyester grey cloth can be woven by colored functional flame-retardant polyester DTY network yarns or colored functional flame-retardant polyester ATY, or is woven by colored functional flame-retardant polyester DTY network yarns or colored functional flame-retardant polyester ATY; or the fabric is formed by interweaving colored functional flame-retardant polyester DTY network yarns or ATY and colored functional non-flame-retardant polyester DTY network yarns or ATY.
Preferably, in the step 3, the cleaning treatment or the desizing treatment of the colored functional flame-retardant polyester grey fabric is carried out in a high-temperature jig dyeing machine cylinder, the cleaning treatment or the desizing treatment is carried out for 10 to 20 minutes, and the cleaning treatment is carried out again for 10 to 15 minutes.
Preferably, the drying and shaping process conditions of the fabric are as follows: the fabric is dried by a multi-roller steam dryer after being taken out of a jig dyeing machine cylinder, and is shaped by a tentering shaping machine under the conditions that the temperature is 165-205 ℃ and the speed is 10-30 m/min.
Preferably, to obtain the full-blackout fabric: the shading rate of the fabric which is not calendered after high-temperature setting can reach 95-98 percent, but if the fabric needs to reach 99-100 percent shading rate or requires high brightness, the fabric needs to be calendered for 1-4 times under the conditions that the temperature is controlled to be 110-160 ℃, the pressure is 5.5-11 MPa and the speed is 10-25 m/min on a calender. The full shading fabric refers to full shading or nearly full shading with the shading rate of 95-100%. After the fabric is subjected to calendaring treatment, the flatness, the stiffness and the brightness are increased, so that the shading effect of the fabric is further improved.
Preferably, in order to obtain a fabric having openness and light-transmitting properties: for the fabrics with small openness and light transmission, if the shading rate is 90-95%, the degree of the reduction of the warp and weft density is small during weaving, and slippage can not be generated by the self stability of the fibers.
On the other hand, the invention also provides a flame-retardant polyester roller shutter fabric, which is prepared by the preparation method, wherein the flame-retardant polyester roller shutter fabric is made of 100% of colored polyester fibers containing flame-retardant functional and functional materials, or is formed by interweaving 100% of colored polyester fibers containing flame-retardant functional and functional materials and 100% of colored polyester fibers containing non-flame-retardant functional and functional materials, the flame-retardant polyester roller shutter fabric is uncoated and does not contain stiffening agents and similar substances, and the gram weight of the flame-retardant polyester roller shutter fabric is 175-550 g/m 2 The oxygen index is 26.3-36.0%.
The combustion performance grade of the GB8624-2012 standard in China is graded as follows:
class a, non-combustible materials (and articles);
b1 grade, flame retardant material (and product), LOI is more than or equal to 32.0%;
b2 level, combustible material (and product), LOI more than or equal to 26.0%;
class B3, combustible materials (and articles); no performance requirements.
The oxygen index (LOI) of the flame-retardant roller shutter fabric provided by the invention is 26.3-36.0%, so that the flame-retardant roller shutter fabric meets the GB 8624B 1 level (flame-retardant material) and also meets the standard requirement of B2 level, and the flame-retardant effect is obvious.
Further, in the present invention,
manufacturing colored functional flame-retardant polyester fibers or colored functional non-flame-retardant polyester fibers:
1) Mixing a copolymerized flame-retardant polyester chip with the viscosity of 0.75-0.98 dL/g and the phosphorus content of 5500-7200 ppm and a non-flame-retardant polyester chip with the viscosity of 0.75-0.98 dL/g according to a certain proportion,
2) Using copolymerized flame-retardant polyester chip whose viscosity is 0.75-0.98 dL/g and phosphorus content is 5500-7200 ppm,
3) Using non-flame-retardant polyester chips with the viscosity of 0.75-0.98 dL/g,
4) Mixing non-flame-retardant polyester chips with the viscosity of 0.75-0.98 dL/g and a certain proportion of phosphorus flame retardant master batches,
respectively in 1) -4), adding a certain amount of color master batch according to the required color, adding 0-4.8 wt% of one or more functional materials of antibacterial master batch, anti-ultraviolet master batch and anion master batch according to the functional requirement, mixing uniformly, drying in a drying tower until the moisture content is reduced to 35ppm or below, carrying out dope colored spinning by using melt spinning equipment, and spinning into colored functional flame-retardant polyester POY or colored functional non-flame-retardant polyester POY under the conditions of the spinning temperature of 265-285 ℃ and the melt pressure of 15.5-19.5 MPa. The colored functional flame-retardant polyester POY or the colored functional non-flame-retardant polyester POY is further processed on a draw texturing machine to obtain colored functional flame-retardant polyester DTY network yarns or colored functional non-flame-retardant polyester DTY network yarns; the colored functional flame-retardant polyester POY or the colored functional non-flame-retardant polyester POY is further processed on an air textured yarn machine to obtain a colored functional flame-retardant polyester ATY or a colored functional non-flame-retardant polyester ATY.
According to the technical scheme, the obtained fibers are complex if multiple functions are connected together in respective embodiment of one or more functional materials of the antibacterial master batch, the ultraviolet-resistant master batch and the negative ion master batch, and are uniformly called as 'functionality' for short for simplification, wherein the 'functionality' is formed by or is embodied by one or more functional materials of the added antibacterial master batch, the ultraviolet-resistant master batch and the negative ion master batch.
The colored functional flame-retardant polyester DTY interlaced yarn or the colored functional non-flame-retardant polyester DTY interlaced yarn obtained by the technical scheme is 108 to 512dtex (or 97 to 461D), and the breaking strength is 3.6 to 6.1cN/dtex. The color functional flame-retardant polyester ATY or the color functional non-flame-retardant polyester ATY obtained by the technical scheme is 220-722 dtex (or 198-650D), and the breaking strength is 3.6-6.1 cN/dtex.
The phosphorus flame retardant is selected, because the dope dyed spinning fabric does not need to be dyed at 130 ℃ for more than 30 minutes, the flame retardant with small fiber molecular chain expansion is separated from the fiber only by dyeing the yarn-dyed grey cloth at 100-105 ℃ for 20 minutes, and impurities such as oil stains on the surface of the fiber can be removed to lose or reduce the loss of the phosphorus flame retardant. Therefore, the flame retardant suitable for the technical scheme simultaneously meets the following three conditions:
1) The flame retardant is required to be solid but not liquid, and the solid powder material is not suitable for being directly added and needs to be prepared into flame retardant master batches for addition: 2) The melting point of the flame retardant is higher than the drying temperature of the mixture and lower than or equal to the melting point temperature of the polyester chip, and the decomposition temperature is higher than the melt spinning temperature: 3) The phosphorus content of the flame retardant is more than 8.5 percent, and the higher the phosphorus content, the smaller the addition amount of the flame retardant, namely, the smaller the influence on the spinnability of the fiber.
Preferably, the flame retardant suitable for the blended spinning of the scheme is organic phosphorus flame retardant solid master batch, the melting point is more than or equal to 180 ℃ and less than or equal to 255 ℃, the decomposition temperature is more than or equal to 295 ℃, the phosphorus content is more than or equal to 8.5wt%, and the addition amount in the stock solution coloring spinning mixture is 2.0-7.5 wt%.
Weaving colored functional flame-retardant polyester gray fabric:
the weaving method 1: according to the grammage and the requirement of style tissue of the fabric, selecting proper specification in the colored functional flame-retardant polyester DTY network yarn, weaving the colored flame-retardant polyester grey fabric by plain weave, twill weave, variable plain weave and variable twill weave on a water jet loom or a rapier loom under the condition that the warp and weft directions of the colored flame-retardant polyester DTY network yarn are both of the same specification or the weft direction of the colored flame-retardant polyester DTY network yarn is greater than the warp linear density, or weaving the colored flame-retardant polyester grey fabric by jacquard weave on an electronic dobby loom under the condition that the warp and weft linear density are proper.
The weaving method 2: according to the square meter grammage and the requirement of style tissue of the fabric, selecting a proper specification in the colored functional flame-retardant polyester DTY network yarn and a proper specification in the colored functional flame-retardant polyester ATY, and weaving by plain weave, twill weave, variable plain weave and variable twill weave on a water jet loom or a rapier loom under the condition of proper warp and weft density to obtain colored functional flame-retardant polyester gray fabric, or weaving by jacquard weave on an electronic dobby loom to obtain the colored functional flame-retardant polyester gray fabric.
The weaving method 3: according to the square meter grammage and the requirement of style tissue of the fabric, selecting a proper specification in the colored functional flame-retardant polyester ATY, weaving the warp direction and the weft direction of the colored functional flame-retardant polyester ATY with the same specification or with the weft direction being larger than the linear density of the warp direction under the condition of proper warp and weft density by using plain weave, twill weave, variable plain weave and variable twill weave on a water jet loom or a rapier loom, or weaving the colored functional flame-retardant polyester grey cloth by using jacquard weave on an electronic dobby loom.
The weaving method 4: according to the square meter grammage and the requirement of style tissue of the fabric, 35-65 wt% of the colored functional flame-retardant polyester DTY and/or ATY and 65-35 wt% of the colored functional non-flame-retardant polyester DTY and/or ATY are selected to be interwoven, the flame-retardant fiber for warp direction and the non-flame-retardant fiber for weft direction or the non-flame-retardant fiber for warp direction and the flame-retardant fiber for weft direction are used, the warp direction and the weft direction are both in the same specification or the weft direction is larger than the linear density of the warp direction, plain weave, twill weave and twill weave are used for weaving on a water jet loom or a rapier loom to obtain colored functional flame-retardant polyester grey cloth, or the colored functional flame-retardant polyester grey cloth is woven by jacquard weave on a multi-arm loom.
The weaving method 5: selecting a proper specification in the colored functional flame-retardant polyester DTY and/or ATY according to the square meter gram weight and the style tissue requirement of the fabric, wherein the warp direction and the weft direction of the fabric are both in the same specification or the weft direction is greater than the linear density of the warp direction, and the fabric with smaller aperture ratio and light transmission can be obtained by reducing the warp and weft density to a smaller extent according to the size requirements of the aperture ratio and the light transmission of the fabric, such as the fabric with the shading ratio of 90-95%; the fabric with larger aperture ratio and light transmittance can be obtained by reducing the warp and weft density to a greater extent, such as the fabric with 80-90% of shading rate.
When weaving, when the breaking strength of the spun fiber with lower slice viscosity is below 5.0cN/dtex and the heavy network degree is better, the warp can be directly woven without sizing; if the spun fiber with higher slice viscosity has breaking strength of more than 5.0cN/dtex and the heavy network degree is worse, the warp yarn needs to be woven after sizing.
When weaving, the warp and weft density is large, so that the requirement of the full shading or nearly full shading roller shutter fabric (sun-shading fabric) can be met, and the warp and weft density is small, so that the requirement of the aperture ratio or semi-shading roller shutter fabric (sun-shading fabric) can be met.
Post-processing the colored functional flame-retardant polyester fabric:
the colored functional flame-retardant polyester grey fabric can be used as a roller shutter fabric only by post-processing, and the method comprises the following steps:
the colored functional flame-retardant polyester gray fabric is treated by adding a proper amount of alkalescent cleaning agent into the unbleached gray fabric in a dye factory and a jig dyeing machine cylinder and then is cleaned by tap water; adding a proper amount of desizing agent into the sized grey cloth for desizing treatment, then cleaning with a small amount of neutral cleaning agent, carrying out alkalescent cleaning treatment or desizing treatment at the temperature of 100-120 ℃ for 10-20 minutes, controlling the alkalescent treatment or the desizing treatment of the yarn-dyed grey cloth obtained by blending the added phosphorus flame retardant master batches at the temperature of 100-105 ℃, then discharging the treatment solution, cleaning again at the temperature of 85-95 ℃ for 10-15 minutes, taking the grey cloth out of a cylinder, drying the grey cloth on a multi-roller steam drying machine, setting the grey cloth by a tentering setting machine at the temperature of 165-210 ℃ at the speed of 10-30 m/min, inspecting, rolling and packaging the fabric to obtain the flame-retardant polyester roller shutter fabric.
For the full-shading roller shutter fabric, the flame-retardant polyester roller shutter fabric which is subjected to weaving by increasing the warp and weft density, high-temperature treatment in a dye factory and high-temperature setting can reach a shading rate of 95-98%, but in order to obtain a better shading effect and smoothness and brightness of the fabric, when the shading rate reaches 99-100%, the fabric which is set on the setting machine is calendered on a calender for 1-4 times under the conditions of the temperature of 110-160 ℃, the pressure of 5.5-11 MPa and the speed of 10-25 m/min, and the fabric is inspected, rolled and packaged to obtain the flame-retardant polyester roller shutter fabric.
The flame-retardant polyester roller shutter fabric is excellent in flame retardance after detection, the oxygen index of the flame-retardant polyester roller shutter fabric reaches 26.3-36.0%, the light fastness reaches more than 5 levels, and the flame-retardant polyester roller shutter fabric has the functions of antibacterial performance, ultraviolet resistance, negative ions and the like.
The invention has the beneficial effects that:
1. spinning at a proper proportion by mixing non-flame-retardant polyester chips with copolymerized flame-retardant polyester chips to control the phosphorus content; controlling the appropriate proportion of warp and weft interweaving of fibers obtained by spinning the non-flame-retardant chips and fibers obtained by spinning the copolymerized flame-retardant polyester chips; the non-flame-retardant polyester chips and the phosphorus flame retardant master batches are mixed to control the spinning with the proper proportion of the phosphorus content, the mixture is woven into grey cloth, the flame retardant polyester roller shutter fabric obtained by the fabric after post-processing does not need a coating, does not add stiffening agents and other similar substances has the combustion performance reaching the requirements of GB 8624B 1 and B2 standards, and meanwhile, the production cost can be reduced by more than 15%.
2. The color master batch is added to carry out a stock solution coloring spinning (namely color spinning) method, so that the production is simple, the flame-retardant effect is easy to control, the high light fastness which is higher than that of the dyed fabric is obtained, and the contribution to environmental friendliness is increased without dyeing the fabric.
3. One or more of antibacterial, uvioresistant and negative ion master batches are added to carry out dope dyeing spinning simultaneously, so that the roller shutter fabric has the value-added function or additional function effects of antibacterial effect, uvioresistant effect and negative ion effect simultaneously, and the multipurpose use function of the flame-retardant polyester roller shutter fabric is met.
Detailed Description
The present invention will be further described with reference to the structures or terms used herein. The description is given for the sake of example only, to illustrate how the invention may be implemented, and does not constitute any limitation on the invention.
Example 1
The purpose of this embodiment is to make the fibrous raw materials of fire-retardant dacron multi-functional roll up curtain surface fabric, promptly grey multi-functional fire-retardant dacron DTY interlaced yarn, grey multi-functional fire-retardant dacron ATY.
Firstly, blending high-viscosity copolymerized flame-retardant polyester chips and non-flame-retardant polyester chips to prepare a colored multifunctional flame-retardant polyester fiber raw material:
1) 450kg of copolymerized flame-retardant polyester chips with the phosphorus content of 5500ppm and the viscosity of 0.74dL/g, which are produced by science and technology of east Sichuan province, is mixed with 88kg of non-flame-retardant polyester chips with the viscosity of 0.75dL/g purchased from the market, 18kg of gray master batches and 20kg of antibacterial master batches required by Suzhou Baoli company for color matching are added, the mixture is uniformly mixed and stirred, the mixture is dried in a drying tower until the water content is reduced to 30ppm, a 36-hole spinneret plate is used on a melt spinning machine, the spinning temperature is gradually adjusted to 278-281 ℃ in the material releasing process at the beginning of spinning, the melt pressure is controlled to be about 15.5MPa, the spinning speed is 2800 m/min, and the mixture is wound and molded to obtain the 188dtex/36f gray multifunctional flame-retardant polyester POY with the weight of 422kg.
2) After the gray multifunctional flame-retardant polyester POY is stored for 8 hours:
(11) Taking 122kg of gray multifunctional flame-retardant polyester POY, and adjusting proper temperature, speed, nozzle pressure and other drafting processes on a single POY on a texturing machine to perform drafting deformation and networking to obtain 112kg of 111dtex/36f (100D/36 f) gray multifunctional flame-retardant polyester DTY (textured yarn) network yarn;
(12) And taking 155kg of gray multifunctional flame-retardant polyester POY, and performing drafting deformation and networking on double doubled yarns on an elasticizer by adjusting appropriate drafting processes such as temperature, speed, nozzle pressure and the like to obtain 143kg of 222dtex/72f (200D/72 f) gray multifunctional flame-retardant polyester DTY networking yarns.
(13) The gray multifunctional flame-retardant polyester POY with the weight of 145kg is taken, 4 yarns are combined on an air texturing yarn machine, heated and drafted, and the gray multifunctional flame-retardant polyester ATY with the slight terry of 464dtex/144f (418D/144 f) and the weight of 131kg is obtained through air texturing processing.
The colored multifunctional flame-retardant fiber comprises the following components in percentage by weight: 78.13 percent of flame-retardant polyester, 15.28 percent of non-flame-retardant polyester, 6.60 percent of color master batch and functional master batch, and the phosphorus content in the fiber is 4297ppm.
The obtained gray multifunctional flame-retardant polyester DTY interlaced yarn and ATY are detected to have the following breaking strength: (11) is 3.7cN/dtex; (12) is 3.7cN/dtex; and (13) is 3.6cN/dtex.
Secondly, manufacturing colored multifunctional flame-retardant polyester gray fabric:
taking 60kg of 111dtex gray multifunctional flame-retardant polyester DTY interlaced yarn of (11) as a reverse bobbin for warp yarn, drawing warp, arranging 80 warp threads/cm on a machine, and arranging 180cm in width of the machine; and (3) taking the 222dtex gray multifunctional flame-retardant polyester DTY interlaced yarn of (12) as a weft yarn, using a heavy water jet loom to increase the weft density as much as possible for weaving on a loom by using a double-warp single-weft plain weave, stopping the loom when the number of meters of the grey fabric reaches 60 meters, replacing the weft yarn with the 464dtex gray multifunctional flame-retardant polyester ATY of (13), and similarly using the double-warp single-weft plain weave to increase the weft density as much as possible for weaving continuously to obtain the colored multifunctional flame-retardant polyester grey fabric with the total number of 123 meters (wherein the 222dtex weft yarn is 60 meters, and the 336dtex weft yarn is 63 meters).
Thirdly, manufacturing the multifunctional flame-retardant polyester rolling curtain fabric:
the colored multifunctional flame-retardant polyester fabric is post-processed, the colored multifunctional flame-retardant polyester blank cloth is sent to a dye factory and wound on a transverse roller in a high-temperature coil dyeing machine, about 400kg of tap water is added into a machine groove, a proper amount of alkalescent cleaning agent is added and stirred uniformly, the temperature is raised to 120 ℃, the cleaning time is 20 minutes, then the temperature is reduced to below 70 ℃, then the water is drained, about 350kg of tap water is injected for cleaning for 12 minutes at 90 ℃, the water is drained and taken out of a cylinder, the fabric is dried by a multi-roller steam drying machine, the fabric is tentered and stretched on a setting machine, the temperature is 175 ℃, proper overfeeding is controlled, the setting is carried out at the speed of 20 m/min, then the fabric is checked and rolled to obtain a finished product (14) with the width of 150cm and the gram weight of 178g/m 2 54 m of the flame-retardant polyester multifunctional roller shutter fabric; obtaining a finished product (15) with the width of 150cm and the gram weight of 203g/m 2 The flame-retardant polyester multifunctional roller shutter fabric is 50 meters.
The finished fabric is good in stiffness and smoothness, and the oxygen index is detected as follows: (14) 35.3%; the content of (15) was 35.8%.
Example 2
The purpose of this embodiment is to make the fibrous raw materials of fire-retardant dacron multi-functional roll up curtain surface fabric, promptly grey multi-functional fire-retardant dacron DTY interlaced yarn, grey multi-functional fire-retardant dacron ATY.
Firstly, blending high-viscosity copolymerized flame-retardant polyester chips and non-flame-retardant polyester chips to prepare a colored multifunctional flame-retardant polyester fiber raw material:
1) 210kg of copolymerized flame-retardant polyester chips with the phosphorus content of 6500ppm and the viscosity of 0.74dL/g, which are produced by the science and technology of east Sichuan materials, is mixed with 310kg of non-flame-retardant polyester chips with the viscosity of 0.75dL/g, which are purchased from the market, 18kg of gray master batches, 18kg of antibacterial master batches, 10kg of ultraviolet-resistant master batches and 10kg of negative ion master batches, which are produced by Suzhou Baoli company according to the color matching, are blended and uniformly stirred, and are dried in a drying tower until the water content is reduced to 28ppm, a 36-hole spinneret plate is used on a melt spinning machine, and in the material bleeding process of the beginning of spinning, the spinning temperature is gradually adjusted to 277-279 ℃, the melt pressure is controlled to be about 16.5MPa, the spinning speed is 2800 m/min, and winding forming is carried out, so as to obtain 425kg of 188dtex/36f gray multifunctional flame-retardant polyester POY.
2) After the gray multifunctional flame-retardant polyester POY is stored for 8 hours:
(21) Taking a gray multifunctional flame-retardant polyester POY with the weight of 120kg, and adjusting proper drafting processes such as temperature, speed, nozzle pressure and the like on a draw texturing machine to carry out drafting deformation and networking to obtain 110kg of 112dtex/36f (101D/36 f) gray multifunctional flame-retardant polyester DTY networking yarns;
(22) And (3) taking 155kg of gray multifunctional flame-retardant polyester POY, and adjusting proper drafting processes such as temperature, speed, nozzle pressure and the like on a draw texturing machine to perform drafting deformation and networking to obtain 143kg of 333dtex/108f (300D/108 f) gray multifunctional flame-retardant polyester DTY networking yarns.
(23) The gray multifunctional flame-retardant polyester POY with the weight of 150kg is taken, 6 yarns are combined on an air texturing yarn machine, heated and drawn, and air texturing processing is carried out to obtain 698dtex/216f (6280D/216 f) gray multifunctional flame-retardant polyester ATY with a slight terry with the weight of 136kg.
The colored multifunctional flame-retardant fiber comprises the following components in percentage by weight: flame-retardant polyester 36.46%, non-flame-retardant polyester 53.82%, color master batch and functional master batch 9.72%, and the phosphorus content in the fiber is 2370ppm.
The obtained gray multifunctional flame-retardant polyester DTY interlaced yarn and ATY are detected to have the following breaking strength: (21) is 3.8cN/dtex; (22) is 3.9cN/dtex; and (23) is 3.7cN/dtex.
Secondly, manufacturing colored multifunctional flame-retardant polyester gray fabric:
taking 60kg of a rewinding of the 112dtex gray multifunctional flame-retardant terylene DTY interlaced yarn in the step (21) as warp yarns, drawing warp, arranging the warp on a loom at the density of 80 pieces/cm, and arranging the loom at the width of 180cm; and (3) taking 333dtex gray multifunctional flame-retardant polyester DTY interlaced yarns of (22) as weft yarns, using a heavy water jet loom to increase the weft density as much as possible for weaving on a loom by using a double-warp single-weft plain weave, stopping the loom when the number of meters of the grey fabric reaches 60 meters, replacing the weft yarns with 698dtex gray multifunctional flame-retardant polyester ATY of (23), and similarly using the double-warp single-weft plain weave to increase the weft density as much as possible for weaving on the loom continuously to obtain the colored multifunctional flame-retardant polyester grey fabric with 125 meters in total (wherein 333dtex weft yarns are 61 meters and 698dtex weft yarns are 64 meters).
Thirdly, manufacturing a colored multifunctional flame-retardant polyester roller shutter fabric:
delivering the colored multifunctional flame-retardant terylene blank cloth to a dye factory, winding the colored multifunctional flame-retardant terylene blank cloth on a transverse roller in a high-temperature jig dyeing machine, adding about 400kg of tap water into a machine groove, adding a proper amount of alkalescent cleaning agent, stirring uniformly, heating to 120 ℃, cleaning for 20 minutes, then cooling to below 70 ℃, draining, injecting about 350kg of tap water, cleaning for 12 minutes at 90 ℃, draining, discharging from a cylinder, drying the fabric by a multi-roller steam dryer, controlling proper overfeeding at the temperature of 175 ℃ on a setting machine, setting at the speed of 20 meters/minute, then inspecting and rolling to obtain a finished product (24) with the width of 150cm and the gram weight of 198g/m 2 54 m of the flame-retardant polyester multifunctional roller shutter fabric; obtaining a finished product (25) with the width of 150cm and the gram weight of 246g/m 2 The flame-retardant polyester multifunctional roller shutter fabric is 50 meters.
The finished fabric is good in stiffness and smoothness, and the oxygen index is detected as follows: (24) 27.2%; the content of (25) was 28.5%.
Example 3
The purpose of this embodiment is to make blue multi-functional fire-retardant polyester fiber raw materials and blue multi-functional non-fire-retardant polyester fiber raw materials of fire-retardant polyester multi-functional roll up curtain surface fabric respectively.
The first step is as follows: preparing raw materials of colored multifunctional flame-retardant polyester and non-flame-retardant polyester fiber:
1. preparing a colored multifunctional flame-retardant polyester fiber raw material by using a high-viscosity copolymerized flame-retardant polyester chip:
1) Taking 325kg of copolymerized flame-retardant polyester chips which are produced by Sichuan east material science and technology and have the phosphorus content of 7100ppm and the viscosity of 0.86dL/g, adding 10kg of blue master batch, 10kg of antibacterial master batch, 8kg of ultraviolet-resistant master batch and 8kg of negative ion master batch which are produced by Suzhou Baoli company and required according to color matching, blending and uniformly stirring, drying in a drying tower until the water content is reduced to 25ppm, using a 48-hole spinneret plate on a melt spinning machine, gradually adjusting the spinning temperature to 283-285 ℃ in the material releasing process at the beginning of spinning, controlling the melt pressure to be about 19.5MPa, spinning the spinning speed to 2700 m/min, and winding and forming to obtain the 281dtex/48f blue multifunctional flame-retardant polyester POY with the weight of 465kg.
2) After the blue multifunctional flame-retardant polyester POY is stored for 8 hours:
(31) Taking 100kg of blue multifunctional flame-retardant polyester POY, and adjusting proper temperature, speed, nozzle pressure and other drafting processes on a single polyester POY on a draw texturing machine to perform drafting deformation and networking to obtain 167dtex/48f (150D/48 f) blue multifunctional flame-retardant polyester DTY (draw textured yarn) 92kg;
(32) 223kg of blue multifunctional flame-retardant polyester POY is taken, three parallel yarns are subjected to drafting deformation and networking on a draw texturing machine by adjusting proper drafting processes such as temperature, speed, nozzle pressure and the like, and 210kg of 500dtex/144f (450D/144 f) blue multifunctional flame-retardant polyester DTY networking yarns are obtained.
The components in the colored multifunctional flame-retardant fiber are as follows: 90.03 percent of flame-retardant polyester, 0 percent of non-flame-retardant polyester, 9.97 percent of color master batch and functional master batch, and the phosphorus content in the fiber is 6390ppm.
The obtained blue multifunctional flame-retardant polyester DTY interlaced yarn is detected to have breaking strength: (31) 4.9cN/dtex; (32) was 5.0cN/dtex.
2. Preparing a colored multifunctional non-flame-retardant polyester fiber raw material by using a high-viscosity non-flame-retardant polyester chip:
1) Taking 400kg of non-flame-retardant polyester chips purchased from the market and having the viscosity of 0.95dL/g, adding 18kg of blue master batch, 18kg of antibacterial master batch, 10kg of ultraviolet-resistant master batch and 10kg of negative ion master batch which are produced by Suzhou Baoli company and required according to color matching, blending and uniformly stirring, drying in a drying tower until the moisture content is reduced to 25ppm, using a 48-hole spinneret plate on a melt spinning machine, gradually adjusting the spinning temperature to 283-285 ℃, controlling the melt pressure to about 19.5MPa and the spinning speed to 2700 m/min in the material releasing process at the beginning of spinning, and winding and forming to obtain 281dtex/48f blue multifunctional non-flame-retardant polyester POY with the weight of 465kg.
2) After the blue multifunctional non-flame-retardant polyester POY is stored for 8 hours:
(33) Taking 100kg of blue multifunctional non-flame-retardant polyester POY, and adjusting proper drafting processes such as temperature, speed, nozzle pressure and the like on a draw texturing machine to perform drafting deformation and networking to obtain 167dtex/48f (150D/48 f) blue multifunctional non-flame-retardant polyester DTY 92kg of network yarns;
(34) 223kg of blue multifunctional non-flame-retardant polyester POY is taken, 4 doubling yarns are subjected to drafting deformation and networking on a draw texturing machine by adjusting proper drafting processes such as temperature, speed, nozzle pressure and the like, and 210kg of 667dtex/192f (600D/192 f) blue multifunctional non-flame-retardant polyester DTY networking yarns are obtained.
The components in the colored multifunctional non-functional flame-retardant fiber are as follows: 0% of flame-retardant polyester, 91.74% of non-flame-retardant polyester, 8.26% of color master batch and functional master batch, and the phosphorus content in the fiber is 0.
The obtained blue multifunctional flame-retardant polyester DTY interlaced yarn is detected to have breaking strength: (33) is 6.1cN/dtex; (34) is 5.9cN/dtex.
Secondly, manufacturing colored multifunctional flame-retardant polyester gray fabric:
1. the warp flame-retardant fibers are interwoven with the weft non-flame-retardant fibers:
taking 80kg of 167dtex blue multifunctional flame-retardant DTY network yarn of (31) and rewinding as warp yarn, and arranging the warp with density of 66 pieces/cm and width of 225cm on the machine; taking 167dtex blue multifunctional non-flame retardant DTY interlaced yarn of (33) as weft yarn, and using a heavy water jet loom to increase the weft density of the weaving machine as much as possible by using a double-warp three-weft change plain weave so as to obtain blue multifunctional flame retardant polyester grey cloth (35) of 65 meters; and (3) replacing the warps without replacing the wefts, replacing the wefts with 667dtex blue multifunctional non-flame-retardant DTY interlaced yarns of (34), and continuously weaving by increasing the weft density of the weft-density loom as much as possible by using a double-warp single-weft variable plain weave to obtain the blue multifunctional flame-retardant grey fabric (36) of 63 meters.
2. Interweaving non-flame-retardant fibers for the warp direction and flame-retardant fibers for the weft direction:
taking 60kg of 167dtex blue multifunctional non-flame-retardant polyester DTY interlaced yarn of (33) as a reverse bobbin to be used as warp yarn, drawing warp, arranging warp density on a machine at 66 pieces/cm, and arranging width on the machine at 225cm; taking 167dtex blue multifunctional flame-retardant polyester DTY interlaced yarn of (31) as weft yarn, and weaving the weft yarn on a loom by a heavy water jet loom in a double-warp three-weft twill weave manner to enlarge the weft density as much as possible to obtain blue multifunctional flame-retardant polyester grey cloth (37) of 65 meters; and (3) replacing the warps without replacing the wefts with (32) 500dtex blue multifunctional flame-retardant polyester DTY interlaced yarns, and continuously weaving by increasing the weft density of a weft-density loom as much as possible by using a double-warp single-weft twill weave to obtain the blue multifunctional flame-retardant polyester grey cloth (38) of 60 meters.
Thirdly, manufacturing the colored multifunctional flame-retardant terylene rolling curtain fabric
Delivering blue multifunctional flame-retardant polyester blank cloth to a dye factory, sewing the cloth ends and tails of the grey cloth 35, 36, 37 and 38 together, winding the grey cloth ends and tails on a transverse roller in a high-temperature roll dyeing machine, adding about 450kg of tap water into a machine tank, adding a proper amount of alkalescent cleaning agent, uniformly stirring, heating to 115 ℃, cleaning for 20 minutes, then cooling to below 70 ℃, draining, injecting about 450kg of tap water, cleaning for 12 minutes at 90 ℃, draining, discharging from a cylinder, drying the fabric by a multi-roller steam dryer, feeding the fabric to a setting machine at 175 ℃, controlling proper overfeeding, setting at a speed of 20 meters/minute, then inspecting and rolling the fabric, then calendering the front and back surfaces of the fabric twice by a calender at the temperature of 118 ℃, the pressure of 10.3MPa and the speed of 17-18 meters/minute, then inspecting and rolling the fabric to obtain a finished product of the flame-retardant multifunctional polyester roll screen fabric:
(35) The width of the door is 200cm, and the gram weight is 263g/m 2 54 meters in number, 64 percent of the flame-retardant warp yarns, 36 percent of the non-flame-retardant weft yarns and 4090ppm of phosphorus.
(36) The width of the door is 200cm, and the gram weight is 293g/m 2 54 meters in number, 63 percent of fabric flame-retardant warp yarns, 37 percent of non-flame-retardant weft yarns and 4050ppm of phosphorus.
(37) Width of 200cm, gram weight265g/m 2 54 meters in number, 59 percent of non-flame-retardant warp yarns, 41 percent of non-flame-retardant weft yarns and 2364ppm of phosphorus.
(38) The width of the door is 200cm, and the gram weight is 280g/m 2 54 meters in number, 59 percent of non-flame-retardant warp yarns, 41 percent of non-flame-retardant weft yarns and 2684ppm of phosphorus.
The finished fabric has high brightness and good stiffness and smoothness, and the oxygen index is detected as follows: (35) 34.5%; (36) 34.2%; (37) 26.5%; (38) was 26.8%.
Example 4
The purpose of this embodiment is that the multi-functional fire-retardant polyester fiber of blue grey that fire-retardant polyester multi-functional roll up curtain surface fabric required is made.
The first step is as follows:
1. the colored multifunctional flame-retardant polyester fiber is prepared by using a blending stock solution of high-viscosity non-flame-retardant polyester chips and a phosphorus flame retardant (with a higher addition amount) for coloring and spinning:
taking 400kg of non-flame-retardant polyester chips purchased from the market and having the viscosity of 0.93dL/g, adding 33kg of flame retardant DDP master batch (melting point 196-199 ℃, decomposition temperature 312 ℃ and phosphorus content of 8.9%) produced by Shandong Shouguepu chemical industry, mixing, adding 12kg of blue gray master batch and 15kg of antibacterial master batch required by Suzhou Baoli company for color matching, blending and uniformly stirring, drying in a drying tower until the water content is reduced to 32ppm, using a 48-hole spinneret plate on a melt spinning machine, gradually adjusting the spinning temperature to 283-285 ℃ in the material releasing process at the beginning of spinning, controlling the melt pressure to be about 19.5MPa, the spinning speed to 2700 m/min, and performing winding forming to obtain 281dtex/48f gray multifunctional flame-retardant polyester POY with the weight of 465kg.
The blue gray multifunctional flame-retardant POY is stored for 8 hours:
(41) Taking 100kg of blue gray multifunctional flame-retardant polyester POY, and adjusting proper drafting processes such as temperature, speed, nozzle pressure and the like on a texturing machine to perform drafting deformation and networking on a single polyester POY to obtain 92kg of 167dtex/48f (150D/48 f) blue gray multifunctional flame-retardant polyester DTY networking yarns;
(42) 142kg of blue gray multifunctional flame-retardant polyester POY is taken, 3 polyester POY are combined on an air texturing machine, heated and drafted, and air texturing processing is carried out to obtain 523dtex/144f (470D/144 f) blue gray multifunctional flame-retardant polyester ATY with a slight terry and the weight of 131kg.
The components in the colored multifunctional flame-retardant fiber are as follows: 7.17 percent of flame retardant, 86.96 percent of non-flame-retardant polyester, 5.87 percent of color master batch and functional master batch, and the phosphorus content in the fiber is 6381ppm.
The obtained blue multifunctional flame-retardant polyester DTY (draw textured yarn) network yarn and ATY are detected to have the following breaking strength: (41) is 5.7cN/dtex; (42) is 5.6cN/dtex.
2. The colored multifunctional flame-retardant polyester fiber is prepared by using a blending stock solution of high-viscosity non-flame-retardant polyester chips and a phosphorus flame retardant (with a lower addition amount) for coloring and spinning:
taking 400kg of non-flame-retardant polyester chips purchased from the market and having the viscosity of 0.93dL/g, adding 10kg of commercially available zinc diethylphosphinate ZDP flame retardant master batches (the melting point is 205-210 ℃, the decomposition temperature is more than 330 ℃, and the phosphorus content is 20.3 percent), mixing, adding 15kg of gray master batches required by Suzhou Baoli company for color matching, 15kg of antibacterial master batches and 10kg of ultraviolet-resistant master batches, blending and uniformly stirring, drying in a drying tower until the water content is reduced to 32ppm, using a 48-hole spinneret plate on a melt spinning machine, gradually adjusting the spinning temperature to 283-285 ℃, controlling the melt pressure to be about 19.5MPa and the spinning speed to be 2700 m/min in the material releasing process at the beginning of spinning, and winding and forming to obtain 281dtex/48f gray multifunctional flame-retardant polyester POY with the weight of 468kg.
After the gray multifunctional flame-retardant polyester POY is stored for 8 hours:
(43) Taking 100kg of gray multifunctional flame-retardant polyester POY, and adjusting proper drafting processes such as temperature, speed, nozzle pressure and the like on a single yarn on an elasticizer to perform drafting deformation and networking to obtain 167dtex/48f (150D/48 f) gray multifunctional flame-retardant polyester DTY network yarn 92kg;
(44) 142kg of gray multifunctional flame-retardant polyester POY is taken, 4 yarns are combined on an air texturing yarn machine, heated and drafted, and air texturing processing is carried out to obtain 700dtex/192f (630D/192 f) gray multifunctional flame-retardant polyester ATY with light terry and the weight of 131kg.
The components in the colored multifunctional flame-retardant fiber are as follows: 2.22 percent of flame retardant, 88.89 percent of non-flame-retardant polyester, 8.89 percent of color master batch and functional master batch, and the phosphorus content in the fiber is 4507ppm.
The obtained gray multifunctional flame-retardant polyester DTY interlaced yarn and ATY are detected to have the following breaking strength: (43) is 5.8cN/dtex; (44) was 5.6cN/dtex.
Secondly, manufacturing colored multifunctional flame-retardant polyester gray fabric:
1. weaving grey cloth by using the colored multifunctional flame-retardant polyester fibers of the warp (41) and the weft (42) and (43):
taking 80kg of 167dtex blue gray multifunctional flame-retardant polyester DTY interlaced yarn of (41) as a reverse bobbin, drawing warp and sizing, feeding warp with density of 66 pieces/cm, and feeding width of 175cm; 523dtex blue gray multifunctional flame-retardant polyester ATY of (42) is used as weft, and a heavy water jet loom is used for weaving the weft on a loom in a double-warp single-weft variable twill structure mode to increase the weft density as much as possible, so that blue multifunctional flame-retardant polyester grey cloth (45) is obtained, wherein the length of the blue multifunctional flame-retardant polyester grey cloth is 65 meters; and (3) replacing the warps without replacing the wefts with 167dtex gray multifunctional flame-retardant polyester DTY interlaced yarns (43), and increasing the weft density of the weft-knitting machine as much as possible by using double-warp three-weft variable weft texture to continue weaving to obtain the blue gray multifunctional flame-retardant polyester grey cloth (46) of 63 meters.
2. The gray fabric is woven by using the colored multifunctional flame-retardant polyester fibers of the warp yarn (43) and the weft yarns (44) and (43):
taking 60kg of 167dtex gray multifunctional flame-retardant polyester DTY interlaced yarn of (43) as a reverse bobbin to be used as warp yarn, drawing warp, arranging warp density on a machine at 66 pieces/cm, and arranging width on the machine at 175cm; using 700dtex gray multifunctional flame-retardant polyester ATY of (44) as weft yarn, and weaving the weft yarn with double-warp single-weft variable twill weave on a heavy water jet loom to increase the weft density as much as possible to obtain blue gray multifunctional flame-retardant polyester grey cloth (49) of 65 meters; and (3) replacing the warps without replacing the wefts with 167tex gray multifunctional flame-retardant polyester DTY interlaced yarns (43), and continuously weaving by using double-warp three-weft variable twill weave to increase the weft density as much as possible to obtain blue gray multifunctional flame-retardant polyester grey cloth (48) of 60 meters.
Thirdly, manufacturing a colored multifunctional flame-retardant polyester roller shutter fabric:
delivering blue multifunctional flame-retardant polyester grey cloth to a dye factory, winding the cloth heads of the grey cloth 45, 46, 47 and 48 and the cloth tail seam heads together on a transverse roller in a high-temperature winding dyeing machine, adding about 450kg of tap water into a machine tank, adding a weakly alkaline cleaning agent, uniformly stirring, heating to 105 ℃, cleaning for 18 minutes, cooling to below 70 ℃, draining, injecting about 450kg of tap water, cleaning for 15 minutes at 90 ℃, draining, discharging from a cylinder, drying the fabric by a multi-roller steam dryer, controlling a proper overfeeding on an upper tentering setting machine at 195 ℃, setting at a speed of 20 meters per minute, inspecting and rolling to obtain a finished product of the flame-retardant polyester multifunctional rolling curtain fabric:
(45) The width of the door is 150cm, and the gram weight is 366g/m 2 55 m in number, and the phosphorus content of the fabric is 6380ppm.
(46) The width of the door is 150cm, and the gram weight is 363g/m 2 52 m in number, and the phosphorus content of the fabric is 4630ppm.
(47) The width of the door is 150cm, and the gram weight is 385g/m 2 55 m in number, and the phosphorus content of the fabric is 4505ppm.
(48) The width of the door is 150cm, and the gram weight is 362g/m 2 53 m in number, the phosphorus content of the fabric is 4505ppm.
The finished fabric is good in stiffness and smoothness, and the oxygen index is detected as follows: (45) is 34.8%; (46) 33.2%; (47) 32.5%; (48) Is 32.6 percent
Example 5
The purpose of this embodiment is to make empty type fire-retardant dacron multi-functional roll of curtain surface fabric.
Firstly, weaving colored multifunctional flame-retardant gray fabric:
taking 60kg of 667dtex blue multifunctional non-flame-retardant terylene DTY interlaced yarn of the embodiment (34), rewinding to be used as warp yarn, feeding warp density 32 pieces/cm on a machine, and feeding width 175cm on the machine; taking 700dtex blue multifunctional flame-retardant polyester ATY of (44) as weft, and weaving the blue multifunctional flame-retardant polyester gray fabric with weft density of 13+13 weft/cm on a loom by a rapier loom in a double-warp double-weft variable plain weave to obtain 60 meters of blue multifunctional flame-retardant polyester gray fabric; the warp yarn is unchanged, the weft yarn is replaced by (32) 500dtex blue multifunctional flame-retardant terylene DTY interlaced yarn, and the colored multifunctional flame-retardant terylene grey cloth is continuously woven with the weft density of 12.5+12.5 weft/cm on a double-warp three-weft change plain weave, so that 65 meters of colored multifunctional flame-retardant terylene grey cloth is obtained.
Secondly, post-processing the colored multifunctional flame-retardant polyester fabric:
the colored multifunctional flame-retardant polyester grey cloth is delivered to a dye house, wound on a transverse roller in a high-temperature jig dyeing machine, and wound on a rollerAdding about 400kg of tap water into a machine tank, adding a proper amount of neutral or weakly acidic cleaning agent, uniformly stirring, heating to 120 ℃, cleaning for 20 minutes, draining after cooling to below 70 ℃, injecting about 350kg of tap water, cleaning for 12 minutes at 90 ℃, draining, discharging from a cylinder, drying the fabric by a multi-roll steam dryer, putting the fabric on a tentering and setting machine, controlling proper overfeeding at 175 ℃, setting at the speed of 20 meters/minute, and then inspecting and rolling to obtain a finished product with the width of 150cm and the gram weight of 543g/m 2 54 m of the flame-retardant polyester multifunctional rolling screen fabric (51), wherein the phosphorus content of the fabric is 3350ppm; obtaining a finished product with the width of 150cm and the gram weight of 548g/m 2 The flame-retardant polyester multifunctional rolling screen fabric (52) is 50 meters, and the phosphorus content of the fabric is 2970ppm.
The finished fabric is good in stiffness and smoothness, has certain openness and light transmittance, and is detected to have an oxygen index: (51) 28.8%; the content of (52) was 29.3%.
The colored multifunctional flame-retardant polyester fiber and flame-retardant polyester roller shutter fabric obtained according to the examples 1-5 has the following effect data:
Figure BDA0002726000880000191

Claims (6)

1. a preparation method of flame-retardant polyester roller shutter fabric is completed by mixing high-viscosity non-flame-retardant polyester chips, or mixing the high-viscosity non-flame-retardant polyester chips with high-viscosity copolymerized flame-retardant polyester chips, or mixing the high-viscosity non-flame-retardant polyester chips with phosphorus flame retardant master batches, then respectively adding the master batches for blending to perform dope colored spinning, weaving gray fabric, treating in a dye factory and sizing, and is characterized by comprising the following steps of:
step 1, mixing a non-flame-retardant polyester slice with the viscosity of 0.72 to 0.95dL/g and a copolymerized flame-retardant polyester slice with the phosphorus content of 5500 to 7100ppm and the viscosity of 0.72 to 0.95dL/g, wherein the mixing ratio of the non-flame-retardant polyester slice to the copolymerized flame-retardant polyester slice is 35 to 65wt%, the copolymerized flame-retardant polyester slice is 65 to 35wt%, or the copolymerized flame-retardant polyester slice with the viscosity of 0.72 to 0.95dL/g, or the non-flame-retardant polyester slice with the viscosity of 0.72 to 0.95dL/g and a phosphorus flame retardant master batch, respectively adding a color master batch and a functional material into the mixed materials, uniformly blending, and performing primary solution colored spinning and post spinning to obtain a colored functional flame-retardant polyester fiber and a colored functional non-flame-retardant fiber, the colored functional flame-retardant polyester fiber comprises a colored functional flame-retardant polyester DTY network yarn and a colored functional flame-retardant polyester ATY, the colored functional non-flame-retardant polyester fiber comprises a colored functional non-flame-retardant polyester DTY network yarn and a colored functional non-flame-retardant polyester ATY, the colored functional flame-retardant polyester DTY network yarn or the colored functional non-flame-retardant polyester DTY network yarn is 108 to 512dtex/36 to 144f, the breaking strength is 3.6 to 6.1cN/dtex, the colored functional flame-retardant polyester ATY or the colored functional non-flame-retardant polyester ATY network yarn is 220 to 722dtex/72 to 192f, and the breaking strength is 3.6 to 6.1cN/dtex;
step 2, weaving colored functional flame-retardant polyester grey cloth by using the colored functional flame-retardant polyester fibers, or interweaving the colored functional flame-retardant polyester fibers and the colored functional non-flame-retardant polyester fibers to obtain the colored functional flame-retardant polyester grey cloth;
and 3, adding a weakly alkaline cleaning agent into the colored functional flame-retardant polyester gray fabric at the temperature of 100-120 ℃ or adding a desizing agent for desizing, adding a weakly alkaline cleaning agent into the colored functional flame-retardant polyester gray fabric prepared by blending with phosphorus flame retardant master batches at the temperature of 100-105 ℃ or adding a desizing agent for desizing, cleaning at the temperature of 80-95 ℃, desizing or cleaning the colored functional flame-retardant polyester gray fabric in a high-temperature jig dyeing machine cylinder, and sizing at the temperature of 165-205 ℃ and the speed of 15-30 meters/min on a setting machine to obtain the product with the gram weight of 175-550g/m 2 The flame-retardant polyester rolling curtain fabric.
2. The method for preparing the flame-retardant polyester roller shutter fabric according to claim 1, wherein in the step 1, the phosphorus flame retardant master batch is an organic phosphorus flame retardant solid master batch, the melting point is not less than 180 ℃ and not more than 255 ℃, the decomposition temperature is not less than 295 ℃, the phosphorus content is not less than 8.5wt%, and the addition amount in the dope coloring spinning mixture is 2.0 to 7.5wt%.
3. The method for preparing the flame-retardant polyester roller shutter fabric according to claim 1, wherein in the step 2, "functionality" in the fiber is formed by one or more functional materials of antibacterial master batches, ultraviolet-resistant master batches and negative ion master batches added in spinning, and the addition amount of the functional materials in the spinning mixture is 0 to 4.8wt% respectively.
4. The preparation method of the flame-retardant polyester roller shutter fabric according to claim 1, wherein the colored functional flame-retardant polyester DTY interlaced yarn is obtained by further heating and drafting a colored functional flame-retardant polyester POY formed by dope color spinning, the colored functional non-flame-retardant polyester DTY interlaced yarn is obtained by further heating and drafting a colored functional non-flame-retardant polyester POY formed by dope color spinning, the colored functional flame-retardant polyester ATY is obtained by further heating, drafting and air texturing a colored functional flame-retardant polyester POY formed by dope color spinning on an air texturing machine, and the colored functional non-flame-retardant polyester ATY is obtained by further heating, drafting and air texturing a colored functional non-flame-retardant polyester POY formed by dope color spinning on an air texturing machine.
5. The method for preparing the flame-retardant polyester roller shutter fabric according to claim 1, wherein in the step 3, the fabric which satisfies the light shielding rate of 99 to 100% or requires high brightness is subjected to high-temperature setting and then is subjected to calendering for 1~4 times by a calender under the conditions of the temperature of 110 to 160 ℃, the pressure of 5.5 to 11MPa and the speed of 10 to 25 m/min.
6. The flame-retardant polyester roller shutter fabric is characterized by being prepared by the preparation method of any one of claims 1~5, the flame-retardant polyester roller shutter fabric is made of 100% of colored polyester fibers containing flame-retardant functional and functional materials, or the flame-retardant polyester roller shutter fabric is made of 100% of colored polyester fibers containing flame-retardant functional and functional materials and 100% of colored polyester fibers containing non-flame-retardant functional and functional materials in an interweaving mode, the fabric is free of a coating and a stiffening agent, and the oxygen index is 26.3-36.0%.
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