CN108903066A

CN108903066A - A kind of health care underwear

Info

Publication number: CN108903066A
Application number: CN201810746743.1A
Authority: CN
Inventors: 罗鼎明
Original assignee: Foshan Nanhai Beauty Underwear Co Ltd
Current assignee: Foshan Nanhai Beauty Underwear Co Ltd
Priority date: 2018-07-09
Filing date: 2018-07-09
Publication date: 2018-11-30

Abstract

This application involves a kind of health care underwears, including underwear ontology, the underwear ontology is made of underwear fabric, the underwear fabric includes the outer layer set gradually from outside to inside, functional layer, secondary internal layer and internal layer, the outer layer is hydrophilic layer, the internal layer is hydrophobic layer, the secondary internal layer is wetness-guiding layer, the functional layer is layer of polyester fiber, it is evenly equipped with the venthole that through-thickness runs through the functional layer thereon, the aperture of venthole is not more than 0.1mm, the quantity of the venthole is not less than 2,000,000 in every square metre of range, the polyester fiber is using polyester as substrate, with filler A, filler B, filler C is additive, by melting blended be prepared.

Description

A kind of health care underwear

Technical field

This application involves underwear technical field more particularly to a kind of health care underwears.

Background technique

Underwear refers to the clothing worn next to the skin.It is disclosed in patent document CN201106086Y in a kind of knitting of thermal-protection elastic Clothing fabric, including internal layer, middle layer, superficial layer, the superficial layer are high branch non-shrinkable wool yarn, and the internal layer is washed for high porosity Synthetic fibre yarn, the middle layer are spandex thread, and the spandex thread connects between superficial layer and internal layer and connection breaking, makes internal layer and table Micro- air bag that keeps warm is formed between surface layer.The heat insulation effect of underwear fabric in above patent document, wetness guiding perspiration discharging effect still compared with Difference, and do not have healthcare function, therefore there is also can improvements for the structure of existing underwear fabric.

Summary of the invention

The present invention is intended to provide a kind of health care underwear, set forth above to solve the problems, such as.

A kind of health care underwear, including underwear ontology are provided in the embodiment of the present invention, the underwear ontology is by underwear fabric It constitutes, which includes the outer layer set gradually from outside to inside, functional layer, secondary internal layer and internal layer, and the outer layer is hydrophilic Layer, the internal layer are hydrophobic layer, and the secondary internal layer is wetness-guiding layer, and the functional layer is layer of polyester fiber, are evenly equipped with thereon along thickness The venthole that the functional layer is run through in direction is spent, the aperture of venthole is not more than 0.1mm, the venthole in every square metre of range Quantity be not less than 2,000,000, the polyester fiber, using filler A, filler B, filler C as additive, passes through using polyester as substrate Melt blended be prepared；In terms of content, raw material includes according to weight percent：3~9% filler A, 8~12% Filler B, 4~10% filler C, surplus are polyester；The secondary internal layer be polypropylene fiber weave, polypropylene fiber be it is hollow and It is equipped with capillary through holes on the surface；The hydrophobic layer is that polypropylene fiber weaves, and used polypropylene fiber has cross Cross section, T-shaped cross section or Y-shaped cross section.

The technical solution that the embodiment of the present invention provides can include the following benefits：

Heretofore described functional layer is layer of polyester fiber, and the polyester fiber is to be addition with filler A, filler B, filler C Agent has anion, far infrared, electro-magnetic screen function, and unexpected technical results have been achieved.

The additional aspect of the application and advantage will be set forth in part in the description, and will partially become from the following description It obtains obviously, or recognized by the practice of the application.It should be understood that above general description and following detailed description are only Be it is exemplary and explanatory, the application can not be limited.

Detailed description of the invention

The present invention will be further described with reference to the accompanying drawings, but the embodiment in attached drawing is not constituted to any limit of the invention System, for those of ordinary skill in the art, without creative efforts, can also obtain according to the following drawings Other attached drawings.

Fig. 1 is the cross-sectional view of underwear fabric of the present invention.

Appended drawing reference is as shown in the figure：1- outer layer；2- functional layer；3- secondary internal layer；4- internal layer.

Specific embodiment

Example embodiments are described in detail here, and the example is illustrated in the accompanying drawings.Following description is related to When attached drawing, unless otherwise indicated, the same numbers in different drawings indicate the same or similar elements.Following exemplary embodiment Described in embodiment do not represent all embodiments consistented with the present invention.On the contrary, they be only with it is such as appended The example of device and method being described in detail in claims, some aspects of the invention are consistent.

Embodiments herein is related to a kind of health care underwear, including underwear ontology, which is made of underwear fabric, As shown in Figure 1, the underwear fabric includes the outer layer 1 set gradually from outside to inside, functional layer 2, secondary internal layer 3 and internal layer 4, it is described outer Layer 1 is hydrophilic layer, and the internal layer 4 is hydrophobic layer, and the secondary internal layer 3 is wetness-guiding layer, and the functional layer 2 is layer of polyester fiber, On be evenly equipped with the venthole that through-thickness runs through the functional layer 2, the aperture of venthole is not more than 0.1mm, every square metre of model The quantity of the interior venthole is enclosed not less than 2,000,000, and the secondary internal layer 3 is that polypropylene fiber weaves, during polypropylene fiber is It is empty and be equipped with capillary through holes on the surface；The hydrophobic layer is that polypropylene fiber weaves, and used polypropylene fiber has ten Font cross section, T-shaped cross section or Y-shaped cross section.

In the present invention, the hydrophobic layer is that polypropylene fiber weaves, and used polypropylene fiber has cross transversal Face, T-shaped cross section or Y-shaped cross section, so as to form a large amount of sweat guiding troughs, further wetness-guiding layer in hydrophobic layer surface It is woven for polypropylene fiber, polypropylene fiber is hollow and is equipped with capillary through holes on the surface, so as to reinforce time secondary internal layer Moisture absorbing and sweat releasing and permeability.

In the present embodiment, the outer layer 1 is with a thickness of 0.8-1.5mm, preferably 1.2mm；

The functional layer 2 with a thickness of 0.5-0.8mm, preferably 0.7mm；

The secondary internal layer 3 with a thickness of 0.3-0.5mm, preferably 0.4mm；

The internal layer 4 with a thickness of 0.2-0.4mm, preferably 0.3mm；

The outer layer 1 is formed by warp thread and weft yarns, and the weft yarn is bamboo fiber yarn and carbon fibre thread is alternate sets It sets, the warp thread is cotton thread, can guarantee the antibacterial and water imbibition of hydrophilic layer in this way.

Further, it is provided with magnetic-particle (not shown) between the functional layer 2 and secondary internal layer 3, passes through magnetism The magnetic field that particle generates can effectively play the effect of magnetic therapy.

Functional layer is layer of polyester fiber, which has anion, far infrared, electro-magnetic screen function, specifically, should Polyester fiber is using polyester as substrate, using filler A, filler B, filler C as additive, by melting blended be prepared；Wherein, should Filler A includes：ZrO₂Nano-powder and ZnO nanoparticle；Filler B includes：Tourmaline nano particle and ZnO nanoparticle； Filler C includes：NiFe₂O₄Nanoparticle and ZnO nanoparticle.

In routine techniques, melt spinning is carried out by the way that nano-functional powder will be added in polyester fondant, tool is made There is the polyester fiber of healthcare function；However, those skilled in the art understand that, the partial size of usual nano material is smaller, table Face activity and free energy are higher, and the nano particle of addition is caused to have agglomeration tendency, this will largely effect on functional particle performance Effect；Meanwhile causing polyester fiber modified effect unobvious.In technical solution of the present invention, it is with filler A, filler B and filler C Polyester fiber is prepared by the way that melting is blended in additive, by controlling mass ratio, above-mentioned filler A, filler B and filler C association Same-action has expanded polyester so that the polyester functional fibre is provided with anion, far infrared transmission, electro-magnetic screen function significantly The application range of fiber；In addition, including dispersing agent ZnO nanoparticle, the dispersion in the filler A, filler B and filler C Agent can effectively prevent the reunion of additive in polyester fiber preparation process, be conducive to anion, far infrared, electromagnetic wave shielding The performance of energy, achieves unexpected beneficial effect.

Preferably, ZnO nanoparticle partial size is 20-50nm, more preferably 30nm in filler.Zinc oxide is a kind of important Semiconductor material, be widely used in plastics, silicate product, synthetic rubber, lubricating oil, paint, ointment, adhesive, In the production of the products such as food, battery, fire retardant.The band gap and exciton bind energy of zinc oxide are larger, and transparency is high, have excellent Room temperature luminescent properties, answered in the products such as the liquid crystal display, thin film transistor (TFT), light emitting diode of semiconductor field With.It is creative using zinc oxide nano-particle as the dispersing agent of filler in technical scheme, it achieves unexpected Technical effect；Also, in filler C, ZnO nanoparticle and NiFe₂O₄Nanoparticle synergistic effect, for electro-magnetic screen function Performance play good effect.

In terms of content, in the polyester fiber, raw material includes according to weight percent：3~9% filler A, 8~ 12% filler B, 4~10% filler C, surplus are polyester.

Wherein, in filler A, the ZrO₂Nano-powder is to be prepared by ultrasonic microemulsion liquid method.

ZrO₂Powder is the basis for making zirconium oxide special cermacis, high grade refractory, optical communication device, new energy materials Raw material, ZrO₂With low-temperature sintering, ZrO₂Nano-powder is as a kind of non-toxic and non-radioactive and has Low Temperature Far Infrared transmitting The material of performance is a kind of important far infrared additive；However, if by above-mentioned ZrO₂Nano-powder is directly appended to polyester In fiber, due to nanometer reuniting effect, ZrO₂Nano-powder disperses unevenly, to will be greatly reduced far infrared in polyester fiber The performance of energy；In technical scheme, by by ZrO₂Nano-powder and ZnO nanoparticle dispersant, calcining, obtain Filler A, is then added into polyester fiber again.In above-mentioned mixing, calcination process, so that ZrO₂Nano-powder can have Effect is adsorbed and is incorporated in ZnO nanoparticle surface, substantially increases the uniformity of far infrared transmission, produces unexpected Technical effect.

Preferably, in filler A, the mass fraction of each substance is：ZrO₂15 parts of nano-powder, 4 parts of ZnO nanoparticle；It should ZrO₂The partial size of nano-powder is 20nm.

Wherein, during filler B is, the tourmaline nano particle diameter is 100nm.

Tourmaline is a kind of natural electrode with similar to magnet poles, and tourmaline is widely used in environmental protection, day The often numerous areas such as life, for example, tourmaline powder is added in artificial silk, since tourmaline powder has positive and negative electrode, After human contact, countless weak currents can be generated in skin surface, stimulate blood circulation, form negative ion effect；However, In this field, tourmaline is directly used in textile, electronegative ion can not be played well.Technical solution of the present invention In, by having obtained tourmaline nano particle and ZnO nanoparticle dispersant, calcining filler B, then having been added again Enter in polyester fiber.By above-mentioned mixing, calcination process, the uniformity of anion emission is substantially increased, produces expectation not The technical effect arrived.

Preferably, in filler B, the mass fraction of each substance is：17 parts of tourmaline nano particle, 11 parts of ZnO nanoparticle.

Wherein, in filler C, the NiFe₂O₄The partial size of nanoparticle is 30~50nm；

Preferably, in filler C, the mass fraction of each substance is：NiFe₂O₄5 parts of nanoparticle, 2 parts of ZnO nanoparticle；It should NiFe₂O₄Nanoparticle is synthesized by hydro-thermal method, specially：It weighs 10g polyethylene glycol and 7g dodecyl benzene sulfonic acid ammonium is molten In 20ml distilled water, the Fe (NO of 2mol is then added₃)₃·9H₂O, the Ni (NO of 1mol₃)₂·6H₂O adjusts pH value with urea It is 11.5, stirs evenly, mixed liquor is transferred in autoclave, 20h is reacted at 270 DEG C, then natural cooling, through solid-liquid point From, washing, it is dry after, solid matter is calcined into 10h in the case where 400min is warming up to 870 DEG C, obtains NiFe₂O₄Nanoparticle.

Further explanation is made to the present invention below with reference to embodiment.

Embodiment 1

A kind of polyester fiber with anion, far infrared, electromagnetic shielding performance, the polyester fiber using polyester as substrate, Using filler A, filler B, filler C as additive, by melting blended be prepared；In terms of content, raw material is according to weight hundred Point ratio includes：5% filler A, 11% filler B, 6% filler C, surplus are polyester.

Filler A includes：ZrO₂Nano-powder and ZnO nanoparticle；Filler B includes：Tourmaline nano particle and ZnO Nanoparticle；Filler C includes：NiFe₂O₄Nanoparticle and ZnO nanoparticle；Above-mentioned ZnO nanoparticle partial size is 30nm.

Filler A is far infrared additive, wherein the ZrO₂Nano-powder is to be prepared by ultrasonic microemulsion liquid method；It should ZrO₂The partial size of nano-powder is 20nm；In filler A, the mass fraction of each substance is：ZrO₂15 parts of nano-powder, ZnO nano grain 4 parts of son.Filler B is anionic additive, wherein the tourmaline nano particle diameter is 100nm；In filler B, each substance Mass fraction be：17 parts of tourmaline nano particle, 11 parts of ZnO nanoparticle.Filler C is electromagnetic shielding filler, wherein described NiFe₂O₄The partial size of nanoparticle is 30~50nm；In filler C, the mass fraction of each substance is：NiFe₂O₄Nanoparticle 5 Part, 2 parts of ZnO nanoparticle.

The preparation process of the polyester fiber is：

Step 1, NiFe is prepared₂O₄Nanoparticle：It weighs 10g polyethylene glycol and 7g dodecyl benzene sulfonic acid ammonium is dissolved in 20ml In distilled water, the Fe (NO of 2mol is then added₃)₃·9H₂O, the Ni (NO of 1mol₃)₂·6H₂O, adjusting pH value with urea is 11.5, it stirs evenly, mixed liquor is transferred in autoclave, 20h is reacted at 270 DEG C, then natural cooling, be separated by solid-liquid separation, After washing, drying, solid matter is calcined into 10h in the case where 400min is warming up to 870 DEG C, obtains NiFe₂O₄Nanoparticle；

Step 2 prepares zirconium oxide presoma：By the ZrOCl of 720g/L₂·8H₂The ethylenediamine tetra-acetic acid of O and 94g/L according to Volume ratio 2:1 mixing, being vigorously stirred 30min is uniformly mixed it, obtains transparent micro emulsion, then adjusts pH value with ammonium hydroxide and is 11.4, ultrasound 14min, ultrasonic power 20KHz obtain clear gel at 84 DEG C, are then washed with distilled water to AgNO₃ Solution inspection does not measure Cl^-, then use ethanol washing 3 times, the zirconium oxide presoma after washing be put into thermostatic drying chamber, 60 DEG C dry 15h；

Step 3 prepares filler：Zirconium oxide presoma, ZnO nanoparticle and titanate coupling agent are added to deionized water In, it stirs, obtains far infrared additive slurry, be then baked to, under nitrogen protection in 360 DEG C of calcining 5h, It pulverizes to get filler A；

Tourmaline nano particle, ZnO nanoparticle and titanate coupling agent are add to deionized water, are sufficiently stirred It is even, obtain anionic additive slurry, be then baked to, under nitrogen protection in 480 DEG C of calcining 6h, pulverize to get Filler B；

By NiFe₂O₄Nanoparticle, ZnO nanoparticle and titanate coupling agent are add to deionized water, and are sufficiently stirred It is even, electromagnetic shielding additive slurry is obtained, is then baked to, under nitrogen protection in 450 DEG C of calcining 5h, pulverizes, i.e., Obtain filler C；

Step 4 prepares the polyester fiber：Firstly, by filler A, filler B, filler C and ethylene glycol mix, after stirring Ultrasound 5h at room temperature, obtains mixed liquor；Then mixed liquor and p-phthalic acid, catalyst aid are esterified, polymerize, obtains Polyester master particle；Wherein, esterification temperature is 280 DEG C, and pressure 270kPa carries out polycondensation reaction when esterification yield reaches greater than 95.5%, Condensation temperature is 2850 DEG C, is evacuated to 22MPa, when polycondensation to inherent viscosity is 0.74 deciliter/gram, discharging, and blank；

Polyester master particle is melted, filter is then fed into and is filtered, after metering, into spinning pack, then will be sprayed Tow carry out it is cooling, oil, preoriented yarn is wound into after deflector roll, wherein spinning temperature is 290 DEG C, and spinning speed is 3200m/min；

Polyester preoriented yarn can be prepared into the polyester fiber after a roller, hot tank, two rollers, scroll tube, winding, wherein Draft speed is 480m/min, and draw ratio 3.1, a roll temperature is 90 DEG C, and two roll temperatures are 140 DEG C.

The far-infrared radiated property of fiber is characterized by measuring the normal emittance of polyester fiber in the present embodiment, is examined The result shows that its normal emittance is 0.94, quasi- about the assessment of bids of far infrared performance according to this field, normal emittance is more than or equal to 0.8 can be assessed as far-infrared textiles, and the composite fibre in the present embodiment is met the requirements of the standard；

Measure the anionic property of polyester fiber in the present embodiment：

It is detected using air ion concentration relative standard's measuring device, the polyester fiber that the application is obtained and common Polyester fiber is cut into 10 × 10cm respectively²Size, apart from above-mentioned detection device 6.5cm²Air inlet 2mm or so, measure air Middle negative ion concentration, the polyester fiber anion emission number for obtaining the application is 4683 anion/cm³, and conventional polyester The negative ion concentration of fiber is substantially zeroed, illustrates that the polyester fiber of the application has good anion emission performance.

The absorbing property of polyester fiber in the present embodiment is measured, maximum absorption peak is -24.6dB, and the bandwidth of -5dB is 2500MHz has good electromagnetic shielding performance.

Embodiment 2

A kind of polyester fiber with anion, far infrared, electromagnetic shielding performance, the polyester fiber using polyester as substrate, Using filler A, filler B, filler C as additive, by melting blended be prepared；In terms of content, raw material is according to weight hundred Point ratio includes：9% filler A, 12% filler B, 10% filler C, surplus are polyester.

The preparation process of the polyester fiber is：

The far-infrared radiated property of fiber is characterized by measuring the normal emittance of polyester fiber in the present embodiment, is examined The result shows that its normal emittance is 0.92, quasi- about the assessment of bids of far infrared performance according to this field, normal emittance is more than or equal to 0.8 can be assessed as far-infrared textiles, and the composite fibre in the present embodiment is met the requirements of the standard；

Measure the anionic property of polyester fiber in the present embodiment：

It is detected using air ion concentration relative standard's measuring device, the polyester fiber that the application is obtained and common Polyester fiber is cut into 10 × 10cm respectively²Size, apart from above-mentioned detection device 6.5cm²Air inlet 2mm or so, measure air Middle negative ion concentration, the polyester fiber anion emission number for obtaining the application is 4218 anion/cm³, and conventional polyester The negative ion concentration of fiber is substantially zeroed, illustrates that the polyester fiber of the application has good anion emission performance.

The absorbing property of polyester fiber in the present embodiment is measured, maximum absorption peak is -21.6dB, and the bandwidth of -5dB is 2300MHz has good electromagnetic shielding performance.

Embodiment 3

A kind of polyester fiber with anion, far infrared, electromagnetic shielding performance, the polyester fiber using polyester as substrate, Using filler A, filler B, filler C as additive, by melting blended be prepared；In terms of content, raw material is according to weight hundred Point ratio includes：3% filler A, 8% filler B, 4% filler C, surplus are polyester.

Filler A includes：ZrO₂Nano-powder and ZnO nanoparticle；Filler B includes：Tourmaline nano particle and ZnO Nanoparticle；Filler C includes：NiFe₂O₄Nanoparticle and Z_nO nanoparticle；Above-mentioned Z_nO nano particle diameter is 30_nm。

Filler A is far infrared additive, wherein the Z_rO₂Nano-powder is to be prepared by ultrasonic microemulsion liquid method；It should Z_rO₂The partial size of nano-powder is 20_nm；In filler A, the mass fraction of each substance is：Z_rO₂15 parts of nano-powder, Z_nO nanoparticle 4 parts of son.Filler B is anionic additive, wherein the tourmaline nano particle diameter is 100nm；In filler B, each substance Mass fraction be：17 parts of tourmaline nano particle, 11 parts of ZnO nanoparticle.Filler C is electromagnetic shielding filler, wherein described NiFe₂O₄The partial size of nanoparticle is 30~50nm；In filler C, the mass fraction of each substance is：NiFe₂O₄Nanoparticle 5 Part, 2 parts of ZnO nanoparticle.

The preparation process of the polyester fiber is：

The far-infrared radiated property of fiber is characterized by measuring the normal emittance of polyester fiber in the present embodiment, is examined The result shows that its normal emittance is 0.88, quasi- about the assessment of bids of far infrared performance according to this field, normal emittance is more than or equal to 0.8 can be assessed as far-infrared textiles, and the composite fibre in the present embodiment is met the requirements of the standard；

Measure the anionic property of polyester fiber in the present embodiment：

It is detected using air ion concentration relative standard's measuring device, the polyester fiber that the application is obtained and common Polyester fiber is cut into 10 × 10cm respectively²Size, apart from above-mentioned detection device 6.5cm²Air inlet 2mm or so, measure air Middle negative ion concentration, the polyester fiber anion emission number for obtaining the application is 3672 anion/cm³, and conventional polyester The negative ion concentration of fiber is substantially zeroed, illustrates that the polyester fiber of the application has good anion emission performance.

The absorbing property of polyester fiber in the present embodiment is measured, maximum absorption peak is -23.8dB, and the bandwidth of -5dB is 2100MHz has good electromagnetic shielding performance.

The foregoing is merely preferred modes of the invention, are not intended to limit the invention, all in spirit and original of the invention Within then, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.

Claims

1. a kind of health care underwear, including underwear ontology, which is made of underwear fabric, which is characterized in that the underwear face Material includes outer layer, functional layer, secondary internal layer and the internal layer set gradually from outside to inside, and the outer layer is hydrophilic layer, and the internal layer is Hydrophobic layer, the secondary internal layer are wetness-guiding layer, and the functional layer is layer of polyester fiber, are evenly equipped with through-thickness thereon through described The venthole of functional layer, the aperture of venthole are not more than 0.1mm, and the quantity of the venthole is not less than in every square metre of range 2000000, the polyester fiber is using polyester as substrate, using filler A, filler B, filler C as additive, by melting blended preparation It obtains；In terms of content, raw material includes according to weight percent：3~9% filler A, 8~12% filler B, 4~10% Filler C, surplus be polyester；The secondary internal layer is that polypropylene fiber weaves, and polypropylene fiber is hollow and is equipped on the surface Capillary through holes；The hydrophobic layer is that polypropylene fiber weaves, and used polypropylene fiber has cross-like cross-section, T-shaped Cross section or Y-shaped cross section.

2. a kind of health care underwear according to claim 1, which is characterized in that the outer layer thickness is 0.8-1.5mm.

3. a kind of health care underwear according to claim 1, which is characterized in that the secondary internal layer 3 with a thickness of 0.3- 0.5mm。

4. a kind of health care underwear according to claim 1, which is characterized in that the internal layer with a thickness of 0.2-0.4mm.

5. a kind of health care underwear according to claim 1, which is characterized in that be provided between the functional layer and secondary internal layer Magnetic-particle.

6. a kind of health care underwear according to claim 1, which is characterized in that the filler A includes：ZrO₂Nano-powder and ZnO nanoparticle；The filler B includes：Tourmaline nano particle and ZnO nanoparticle；The filler C includes：NiFe₂O₄It receives Rice corpuscles and ZnO nanoparticle；Wherein, the ZnO nanoparticle partial size is 30nm.

7. a kind of health care underwear according to claim 6, which is characterized in that filler A is far infrared additive, wherein described ZrO₂Nano-powder is to be prepared by ultrasonic microemulsion liquid method；The ZrO₂The partial size of nano-powder is 20nm；In filler A, each substance Mass fraction be：ZrO₂15 parts of nano-powder, 4 parts of ZnO nanoparticle.

8. a kind of health care underwear according to claim 6, which is characterized in that filler B is anionic additive, wherein described Tourmaline nano particle diameter be 100nm；In filler B, the mass fraction of each substance is：17 parts of tourmaline nano particle, ZnO 11 parts of nanoparticle.

9. a kind of health care underwear according to claim 6, which is characterized in that filler C is electromagnetic shielding filler, wherein described NiFe₂O₄The partial size of nanoparticle is 30~50nm；In filler C, the mass fraction of each substance is：NiFe₂O₄Nanoparticle 5 Part, 2 parts of ZnO nanoparticle.

10. a kind of health care underwear according to claim 6, which is characterized in that the preparation process of the polyester fiber is：

Step 1, NiFe is prepared₂O₄Nanoparticle：It weighs 10g polyethylene glycol and 7g dodecyl benzene sulfonic acid ammonium is dissolved in 20ml distillation In water, the Fe (NO of 2mol is then added₃)₃·9H₂O, the Ni (NO of 1mol₃)₂·6H₂O, adjusting pH value with urea is 11.5, is stirred It mixes uniformly, mixed liquor is transferred in autoclave, 20h is reacted at 270 DEG C, then natural cooling, through separation of solid and liquid, washing, do After dry, solid matter is calcined into 10h in the case where 400min is warming up to 870 DEG C, obtains NiFe₂O₄Nanoparticle；

Step 2 prepares zirconium oxide presoma：By the ZrOCl of 720g/L₂·8H₂The ethylenediamine tetra-acetic acid of O and 94g/L is according to volume Than 2:1 mixing, being vigorously stirred 30min is uniformly mixed it, obtains transparent micro emulsion, and then adjusting pH value with ammonium hydroxide is 11.4, Ultrasound 14min, ultrasonic power 20KHz obtain clear gel at 84 DEG C, are then washed with distilled water to AgNO₃Solution Inspection does not measure Cl^-, it then uses ethanol washing 3 times, the zirconium oxide presoma after washing is put into thermostatic drying chamber, it is dry at 60 DEG C Dry 15h；

Step 3 prepares filler：Zirconium oxide presoma, ZnO nanoparticle and titanate coupling agent are add to deionized water, It stirs, obtains far infrared additive slurry, be then baked to, under nitrogen protection in 360 DEG C of calcining 5h, grinding At powder to get filler A；

Tourmaline nano particle, ZnO nanoparticle and titanate coupling agent are add to deionized water, stirred, Anionic additive slurry is obtained, is then baked to, under nitrogen protection in 480 DEG C of calcining 6h, is pulverized to get filler B；

By NiFe₂O₄Nanoparticle, ZnO nanoparticle and titanate coupling agent are add to deionized water, and are stirred, Electromagnetic shielding additive slurry is obtained, is then baked to, under nitrogen protection in 450 DEG C of calcining 5h, pulverizes to get filling out Expect C；

Step 4 prepares the polyester fiber：Firstly, filler A, filler B, filler C and ethylene glycol are mixed, in room temperature after stirring Lower ultrasound 5h, obtains mixed liquor；Then mixed liquor and p-phthalic acid, catalyst aid are esterified, polymerize, obtains polyester Master batch；Wherein, esterification temperature is 280 DEG C, and pressure 270kPa carries out polycondensation reaction, polycondensation when esterification yield reaches greater than 95.5% Temperature is 2850 DEG C, is evacuated to 22MPa, when polycondensation to inherent viscosity is 0.74 deciliter/gram, discharging, and blank；

Polyester master particle is melted, filter is then fed into and is filtered, after metering, into spinning pack, then by the silk of ejection Shu Jinhang is cooling, oils, and preoriented yarn is wound into after deflector roll, wherein spinning temperature is 290 DEG C, spinning speed 3200m/ min；

Polyester preoriented yarn can be prepared into the polyester fiber after a roller, hot tank, two rollers, scroll tube, winding, wherein drawing-off Speed is 480m/min, and draw ratio 3.1, a roll temperature is 90 DEG C, and two roll temperatures are 140 DEG C.