CN109056157A

CN109056157A - Far infrared fabric

Info

Publication number: CN109056157A
Application number: CN201811211142.7A
Authority: CN
Inventors: 戴世元
Original assignee: Nantong Wei Xing Textile Technology Co Ltd
Current assignee: Nantong Wei Xing Textile Technology Co Ltd
Priority date: 2018-10-17
Filing date: 2018-10-17
Publication date: 2018-12-21

Abstract

The invention discloses a kind of far infrared fabric, far infrared fabric is mutually woven by warp and weft；Warp is mainly formed by the raw material blending woven of following weight parts: 45~50 parts by weight of cotton fiber；6~8 parts by weight of tetrafluoro-hexafluoroethylene copolymer fiber；3~6 parts by weight of zein fiber；Weft is mainly formed by the raw material blending woven of following weight parts: 35~40 parts by weight of vinal；15~20 parts by weight of chitin fiber；3~6 parts by weight of bamboo fibre.Warp of the present invention is formed by cotton fiber, tetrafluoro-hexafluoroethylene copolymer fiber, zein fiber and polyacrylonitrile fibre blending woven, weft is woven by vinal, chitin fiber, bamboo fibre and Tencel fiber blend, ceramic ion is separately added into vinal and polyacrylonitrile fibre, it cooperates with release anion, far infrared heat energy can be transmitted to after fiber is added, after far infrared is absorbed by the body, human body body-sensing is made to heat up.

Description

Far infrared fabric

Technical field

The present invention relates to a kind of knitting fabrics, more particularly to a kind of far infrared fabric.

Background technique

Fabric is exactly the material for making clothes.As one of clothes three elements, fabric can not only annotate clothes Style and characteristic, and directly control the expression effect of the color of clothes, moulding.When weather cold, people are usual The mode for increasing thick clothes is taken to keep warm, but so very unsightly, and wearing too thick clothes also can allow people to feel not relax Clothes, for this, people have developed some thermal fabrics, such as metal wool, fur clothing, natural feather etc., but the warming effect of these materials is all It is not fine.

Summary of the invention

In view of the above shortcomings, it is an object of the invention to develop a far infrared fabric, the fabric has warming The good advantage of effect.

Technical solution of the present invention is summarized as follows:

A kind of far infrared fabric, wherein the far infrared fabric is mutually woven by warp and weft；

The warp is mainly formed by the raw material blending woven of following weight parts:

45~50 parts by weight of cotton fiber；

6~8 parts by weight of tetrafluoro-hexafluoroethylene copolymer fiber；

3~6 parts by weight of zein fiber.

The weft is mainly formed by the raw material blending woven of following weight parts:

35~40 parts by weight of vinal；

15~20 parts by weight of chitin fiber；

3~6 parts by weight of bamboo fibre.

Preferably, the far infrared fabric, wherein the warp further includes that the polyacrylonitrile of 10~20 parts by weight is fine Dimension.

Preferably, the far infrared fabric, wherein the polyacrylonitrile fibre includes the poly- of 75wt%~85wt% Acrylonitrile, 5wt%~8wt% titanium dioxide, 2wt%~4wt% lanthana, 5wt%~8wt% aluminium oxide, 3wt%~ 6wt%Ti₃SiC₂With 0.5wt%~2wt% silane coupling agent.

Preferably, the far infrared fabric, wherein the silane coupling agent is KH-560.

Preferably, the far infrared fabric, wherein the weft further includes the Tencel fiber of 2~4 parts by weight.

Preferably, the far infrared fabric, wherein the vinal includes the poly- of 75wt%~85wt% Vinyl alcohol, 8wt%~12wt% zirconium dioxide, 2wt%~4wt% strontium oxide strontia, 5wt%~8wt%Ti₂AlC and 0.5wt%~ 2wt% silane coupling agent.

Preferably, the far infrared fabric, wherein the silane coupling agent is KH-570.

Preferably, the far infrared fabric, wherein the warp is the whole of 24~26N by winder tensile stress Blended through, sizing, denting at English number is 102^S, twist factor be 252 yarn.

Preferably, the far infrared fabric, wherein the weft is 170~190N's by winder tensile stress Blended warping, sizing, denting at English number are 122^S, twist factor be 322 yarn.

Preferably, the far infrared fabric, wherein described through being 360/10cm to density, latitudinal density is 1300/10cm.

The beneficial effects of the present invention are:

Warp of the present invention is mixed by cotton fiber, tetrafluoro-hexafluoroethylene copolymer fiber, zein fiber and polyacrylonitrile fibre Spinning weaves, and weft is woven by vinal, chitin fiber, bamboo fibre and Tencel fiber blend, will gather Ceramic ion, ceramic ion collaboration release anion, after fiber is added are separately added into alcohol fibers and polyacrylonitrile fibre Far infrared heat energy can be transmitted to human body subcutaneously deeper part, the warm of generation distributes from inside to outside, make telangiectasis, It promotes blood circulation, strengthens the metabolism between each tissue, after far infrared is absorbed by the body, human body can be made to generate body-sensing liter The effect of temperature.

Specific embodiment

The present invention will be further described in detail below with reference to the embodiments, to enable those skilled in the art referring to specification Text can be implemented accordingly.

This case proposes that a kind of far infrared fabric, far infrared fabric are mutually woven by warp and weft；

Warp is mainly formed by the raw material blending woven of following weight parts:

The intensity of cotton fiber is fibre strength height, and yarn strength is also high；It is fine by the way that hexafluoropropylene (HFP)/tetrafluoroethylene (TFE) copolymerization is added Dimension improves its resistance to brittleness and resist bending abrasivity；The intensity of fabric, moisture permeability, gloss are improved by the way that zein fiber is added And comfort, drapability, heat resistance and anti-ultraviolet function；By be added polyacrylonitrile fibre can continue efficiently discharge bear from Son, and can largely absorb the thermal energy of heat source, and 5-15 microns of far infrared is converted into human-body emitting.

Polyacrylonitrile fibre include the polyacrylonitrile of 75wt%~85wt%, 5wt%~8wt% titanium dioxide, 2wt%~ 4wt% lanthana, 5wt%~8wt% aluminium oxide, 3wt%~6wt%Ti3SiC2 and 0.5wt%~2wt% silane coupling agent. Titanium dioxide, lanthana, titanium dioxide, Ti₃SiC₂Collaboration release anion, and being added into polyacrylonitrile fibre can will be remote red Outer thermal energy is transmitted to human body subcutaneously deeper part, and the warm of generation distributes from inside to outside, makes telangiectasis, promotes blood Circulation, strengthens the metabolism between each tissue, increases the power of regeneration of tissue, improve the immunocompetence of body, far infrared After being absorbed by the body, human body can be made to generate the effect of body-sensing heating.

Weft is mainly formed by the raw material blending woven of following weight parts:

Vinal has preferable warmth retention property, insulating properties and chemical stability high, and wearability is good, heat-resisting, fast light Property, dyeability is bad, not acid and alkali-resistance；Chitin fiber has the function of excellent moisture-absorbing moisture-keeping function and deodorization, by adding Enter bamboo fibre and improve the moisture absorption of fabric, gas permeability, and improve vinal dyeability, improves the gloss and hand of fabric Sense has antibacterial, deodorization, anti-ultraviolet function；Tencel fiber improves the dyeability and wrinkle resistance of vinal, And hygroscopicity, comfort, drapability and the stiffness of fabric can be improved.

Vinal include the polyvinyl alcohol of 75wt%~90wt%, 5wt%~8wt% zirconium dioxide, 2wt%~ 4wt% strontium oxide strontia, 5wt%~8wt%Ti2AlC and 0.5wt%~2wt% silane coupling agent.Zirconium dioxide, strontium oxide strontia, Ti₂AlC collaboration release anion, and be added into polyvinyl chloride fibre far infrared heat energy can be transmitted to human body subcutaneously deeper The warm of part, generation distributes from inside to outside, makes telangiectasis, promotes blood circulation, and strengthens new old between each tissue Metabolism, increases the power of regeneration of tissue, improves the immunocompetence of body, after far infrared is absorbed by the body, human body can be made to generate The effect of body-sensing heating.Zirconium dioxide, strontium oxide strontia and Ti2AlC have efficient absorption visible light, reflect the characteristic of infrared ray, when After its absorption accounts in sunlight 95% 2 μm of short wavelength's energy below, by hot-cast socket, it can store energy in material, Also there is the infrared ray characteristic for reflecting 2 mum wavelengths simultaneously.

As the another embodiment of this case, wherein silane coupling agent KH-570.Titanium dioxide is improved by the way that KH-570 is added Zirconium, strontium oxide strontia, Ti₂The compatibility of AlC and polyvinyl alcohol, so that the performance of vinal is further promoted.

As the another embodiment of this case, wherein warp is by the warping that winder tensile stress is 24~26N, sizing, denting It is blended at English number be 102^S, twist factor be 252 yarn.

As the another embodiment of this case, wherein weft passes through the warping that winder tensile stress is 170~190N, sizing, wears Reed it is blended at English number be 122^S, twist factor be 322 yarn.

As the another embodiment of this case, wherein through being 360/10cm to density, latitudinal density is 1300/10cm.

Specific embodiment and comparative example is listed below:

Embodiment 1:

A kind of far infrared fabric, far infrared fabric are mutually woven by warp and weft；

Polyacrylonitrile fibre includes the polyacrylonitrile of 75wt%, 8wt% titanium dioxide, 4wt% lanthana, 8wt% oxidation Aluminium, 4wt%Ti₃SiC₂And 1wt%KH-560.Warp is blended by the warping that winder tensile stress is 24~26N, sizing, denting It is 102 at English number^S, twist factor be 252 yarn.

Polyacrylonitrile fibre is prepared by following step: (1) by titanium dioxide, lanthana, aluminium oxide, Ti₃SiC₂It is mixed It closes, is crushed to the ceramic powders that average grain diameter is 0.3-0.4 microns；(2) KH-560 is mixed with ceramic powders, obtains modified pottery Porcelain powder；(3) by ceramic powders and polyacrylonitrile blended, extrusion, slice, obtained polyacrylonitrile slice；(4) polyacrylonitrile is cut Piece heating melting squeezes, spinneret molding.

Vinal includes the polyvinyl alcohol of 75wt%, 12wt% zirconium dioxide, 4wt% strontium oxide strontia, 8wt% Ti₂AlC and 1wt%KH-570.Weft is by the warping that winder tensile stress is 170~190N, sizing, the blended Cheng Yingzhi of denting Number is 122^S, twist factor be 322 yarn.

Vinal is prepared by following step: (1) by zirconium dioxide, strontium oxide strontia, Ti₂AlC mixing, is crushed to The ceramic powders that average grain diameter is 0.3-0.4 microns；(2) KH-570 is mixed with ceramic powders, obtains modified ceramic powder； (3) it by ceramic powders and polyvinyl alcohol blending, squeezes out, slice, polyvinyl alcohol slice is made；(4) polyvinyl alcohol is sliced and is heated Melting squeezes, spinneret molding.

Through being 360/10cm to density, latitudinal density is 1300/10cm.

Embodiment 2:

Polyacrylonitrile fibre includes the polyacrylonitrile of 80wt%, 7wt% titanium dioxide, 2wt% lanthana, 6wt% oxidation Aluminium, 4.5wt%Ti₃SiC₂And 0.5wt%KH-560.

Polyvinyl alcohol, 8wt%wt% zirconium dioxide, the 2wt%% strontium oxide strontia, 7wt% of vinal 82wt% Ti₂AlC and 1wt%KH-570.

Blended warping that warp is 24~26N by winder tensile stress, sizing, denting at English number are 102^S, twist system The yarn that number is 252；Warping that weft is 170~190N by winder tensile stress, sizing, denting is blended is at English number 122^S, twist factor be 322 yarn；Through being 360/10cm to density, latitudinal density is 1300/10cm.

Embodiment 3:

Polyacrylonitrile fibre include the polyacrylonitrile of 84wt%, 5wt%wt% titanium dioxide, 2wt%wt% lanthana, 5wt% aluminium oxide, 3.5wt%Ti₃SiC₂And 0.5wt%KH-560.

Vinal includes the polyvinyl alcohol of 84.5wt%, 8wt% zirconium dioxide, 2wt% strontium oxide strontia, 5wt% Ti₂AlC and 0.5wt%KH-570.

Comparative example 1:

45 parts by weight of cotton fiber；

6 parts by weight of tetrafluoro-hexafluoroethylene copolymer fiber；

10 parts by weight of polyacrylonitrile fibre.

Through being 360/10cm to density, latitudinal density is 1300/10cm.

Comparative example 2:

35 parts by weight of vinal；

15 parts by weight of chitin fiber；

2 parts by weight of Tencel fiber.

Through being 360/10cm to density, latitudinal density is 1300/10cm.

Comparative example 3:

Polyacrylonitrile fibre includes the polyacrylonitrile of 80wt%, 7wt% titanium dioxide, 8wt% aluminium oxide, 4.5wt% Ti₃SiC₂And 0.5wt%KH-560.

Polyacrylonitrile fibre is prepared by following step: (1) by titanium dioxide, aluminium oxide, Ti₃SiC₂Mixing, is crushed to The ceramic powders that average grain diameter is 0.3-0.4 microns；(2) KH-560 is mixed with ceramic powders, obtains modified ceramic powder； (3) by ceramic powders and polyacrylonitrile blended, extrusion, slice, obtained polyacrylonitrile slice；(4) polyacrylonitrile is sliced and is heated Melting squeezes, spinneret molding.

Comparative example 4:

Polyacrylonitrile fibre is prepared by following step: (1) mixing titanium dioxide, lanthana, aluminium oxide, be crushed to The ceramic powders that average grain diameter is 0.3-0.4 microns；(2) KH-560 is mixed with ceramic powders, obtains modified ceramic powder； (3) by ceramic powders and polyacrylonitrile blended, extrusion, slice, obtained polyacrylonitrile slice；(4) polyacrylonitrile is sliced and is heated Melting squeezes, spinneret molding.

Polyvinyl alcohol, the 10wt%wt% zirconium dioxide, 7wt%Ti of vinal 82wt%₂AlC and 1wt%KH- 570。

Vinal is prepared by following step: (1) by zirconium dioxide, Ti₂AlC mixing, is crushed to average grain The ceramic powders that diameter is 0.3-0.4 microns；(2) KH-570 is mixed with ceramic powders, obtains modified ceramic powder；It (3) will pottery Porcelain powder and polyvinyl alcohol blending squeeze out, slice, and polyvinyl alcohol slice is made；(4) polyvinyl alcohol is sliced heating melting, squeezed Pressure, spinneret molding.

Comparative example 5:

Vinal include the polyvinyl alcohol of 84.5wt%, 13wt% zirconium dioxide, 2wt% strontium oxide strontia and 0.5wt%KH-570.

Vinal is prepared by following step: (1) mixing zirconium dioxide, strontium oxide strontia, be crushed to average grain The ceramic powders that diameter is 0.3-0.4 microns；(2) KH-570 is mixed with ceramic powders, obtains modified ceramic powder；It (3) will pottery Porcelain powder and polyvinyl alcohol blending squeeze out, slice, and polyvinyl alcohol slice is made；(4) polyvinyl alcohol is sliced heating melting, squeezed Pressure, spinneret molding.

The performance test results of embodiment and comparative example are listed below:

Although the embodiments of the present invention have been disclosed as above, but its is not only in the description and the implementation listed With it can be fully applied to various fields suitable for the present invention, for those skilled in the art, can be easily Realize other modification, therefore without departing from the general concept defined in the claims and the equivalent scope, the present invention is simultaneously unlimited In specific details.

Claims

1. a kind of far infrared fabric, which is characterized in that the far infrared fabric is mutually woven by warp and weft；

45~50 parts by weight of cotton fiber；

6~8 parts by weight of tetrafluoro-hexafluoroethylene copolymer fiber；

3~6 parts by weight of zein fiber；

35~40 parts by weight of vinal；

15~20 parts by weight of chitin fiber；

3~6 parts by weight of bamboo fibre.

2. far infrared fabric according to claim 1, which is characterized in that the warp further includes the poly- of 10~20 parts by weight Dralon.

3. far infrared fabric according to claim 2, which is characterized in that the polyacrylonitrile fibre include 75wt%~ The polyacrylonitrile of 85wt%, 5wt%~8wt% titanium dioxide, 2wt%~4wt% lanthana, 5wt%~8wt% aluminium oxide, 3wt%~6wt%Ti₃SiC₂With 0.5wt%~2wt% silane coupling agent.

4. far infrared fabric according to claim 3, which is characterized in that the silane coupling agent is KH-560.

5. far infrared fabric according to claim 1, which is characterized in that the weft further includes 2~4 parts by weight Tencel fiber.

6. far infrared fabric according to claim 1, which is characterized in that the vinal include 75wt%~ Polyvinyl alcohol, 8wt%~10wt% zirconium dioxide, the 2wt%~4wt% strontium oxide strontia, 5wt%~8wt%Ti of 85wt%₂AlC With 0.5wt%~2wt% silane coupling agent.

7. far infrared fabric according to claim 6, which is characterized in that the silane coupling agent is KH-570.

8. far infrared fabric according to claim 1, which is characterized in that the warp by winder tensile stress be 24~ The blended warping of 26N, sizing, denting at English number are 102^S, twist factor be 252 yarn.

9. far infrared fabric according to claim 1, which is characterized in that the weft is 170 by winder tensile stress The blended warping of~190N, sizing, denting at English number are 122^S, twist factor be 322 yarn.

10. far infrared fabric according to claim 1, which is characterized in that described through being 360/10cm, broadwise to density Density is 1300/10cm.