CN110341258A - A kind of ultra-thin macromolecule thermal fabric - Google Patents

Abstract

The invention discloses a kind of ultra-thin macromolecule thermal fabrics, and the ultra-thin Polymer Materials includes outer shell fabric and fabric, and the outer shell fabric is made of following raw material by portion rate: 60-62 parts of Fypro；120-124 parts of polyester fiber；60-62 parts of silk；The fabric is made of the ratio of raw material parts once: 120-124 parts of polytetrafluoroethylene (PTFE)；120-124 parts of flame retardant polyester fiber；The fabric and outer shell fabric manufactures specific raw material lot with following raw material and matches: 120-124 parts of adhesive when manufacture is with preparation；Nano silica 20-24；20-24 parts of nanometer calcium carbonate；Pass through point fabric and outer shell fabric and cooperates the processing of auxiliary bonding principle, so that its heat insulation effect greatly increases when in use, simultaneously by by every fiber using the cooperation of different fibers so that its using when increase its Resisting fractre intensity and greatly increase, and outer shell fabric uses silk, Fypro and polyester fiber, so that its feel greatly increases.

Description

A kind of ultra-thin macromolecule thermal fabric

Technical field

The present invention relates to Polymer Materials technical field, specially a kind of ultra-thin macromolecule thermal fabric.

Background technique

High-molecular compound abbreviation macromolecule, is called macromolecular, refer generally to relative molecular mass be up to it is thousands of to millions of Compound, most high-molecular compounds are the mixtures of the different homologue of many relative molecular masses, therefore high score The relative molecular mass of sub- compound is average relative molecular mass.High-molecular compound is mutual with covalent bond by 1,100 atoms It is formed by connecting, is all that unit is connected with duplicate mode in simple structure although their relative molecular mass is very big 's.

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.

However the manufacturing method of existing Polymer Materials has the disadvantage that

Existing Polymer Materials be all it is single woven using identical fiber, then suture progress in use, making Obtaining its warming effect difference when in use, its intensity is low simultaneously, and the feel of its outer shell fabric is also very poor, so be unable to satisfy existing Have needed for technology.

Summary of the invention

The purpose of the present invention is to provide a kind of ultra-thin macromolecule thermal fabrics, to solve to propose in above-mentioned background technique The problem of.

To achieve the above object, the invention provides the following technical scheme: a kind of ultra-thin macromolecule thermal fabric, described Ultra-thin Polymer Materials includes outer shell fabric and fabric, and the outer shell fabric is made of following raw material by portion rate:

60-62 parts of Fypro；120-124 parts of polyester fiber；60-62 parts of silk；

The fabric is made of the ratio of raw material parts once:

120-124 parts of polytetrafluoroethylene (PTFE)；120-124 parts of flame retardant polyester fiber；

The fabric and outer shell fabric manufactures specific raw material lot when manufacture is with preparation with following raw material Proportion:

120-124 parts of adhesive；Nano silica 20-24；20-24 parts of nanometer calcium carbonate；

The adhesive selects synthetic resin.

Preferably, the ultra-thin Polymer Materials includes outer shell fabric and fabric, the outer shell fabric by with Lower raw material is made by portion rate: 60 parts of Fypro；120 parts of polyester fiber；60 parts of silk；

The fabric is made of the ratio of raw material parts once:

120 parts of polytetrafluoroethylene (PTFE)；120 parts of flame retardant polyester fiber；

Preferably, the fabric and outer shell fabric manufacture specific when manufacture is with preparation with following raw material Raw material lot proportion: 120 parts of adhesive；Nano silica 20；20 parts of nanometer calcium carbonate；

The adhesive selects synthetic resin.

The ultra-thin Polymer Materials includes outer shell fabric and fabric, and the outer shell fabric is pressed by following raw material Portion rate is made: 62 parts of Fypro；124 parts of polyester fiber；62 parts of silk；

The fabric is made of the ratio of raw material parts once:

124 parts of polytetrafluoroethylene (PTFE)；124 parts of flame retardant polyester fiber；

The fabric and outer shell fabric manufactures specific raw material lot when manufacture is with preparation with following raw material Proportion: 124 parts of adhesive；Nano silica 24；24 parts of nanometer calcium carbonate；

The adhesive selects synthetic resin.

Preferably, the ultra-thin Polymer Materials includes outer shell fabric and fabric, the outer shell fabric by with Lower raw material is made by portion rate: 61 parts of Fypro；122 parts of polyester fiber；61 parts of silk；

The fabric is made of the ratio of raw material parts once:

122 parts of polytetrafluoroethylene (PTFE)；122 parts of flame retardant polyester fiber；

The fabric and outer shell fabric manufactures specific raw material lot when manufacture is with preparation with following raw material Proportion: 122 parts of adhesive；Nano silica 32；32 parts of nanometer calcium carbonate；

The adhesive selects synthetic resin.

A kind of manufacturing method of ultra-thin macromolecule thermal fabric, includes the next steps:

The preparation of S1, each fiber: first by the Fypro of outer shell fabric, polyester fiber and silk respectively by floating Wash, be dried after the completion of rinsing, then be wrapped on roll give over to it is spare, then by the polytetrafluoroethylene (PTFE) of fabric and fire-retardant Polyester fiber carries out rinsing immersion respectively, is dried after the completion of rinsing, then be wrapped on roll give over to it is spare；

The preparation of S2, auxiliary material: enough nano grade silica particles and enough nano-sized carbons will be injected in adhesive Sour calcium powder, then each raw material is mixed and is sufficiently stirred, it is spare that lasting stirring prevents solidification from giving over to；

The integration of S3, outer shell fabric fiber: the every Fypro and silk of outer shell fabric are washed with one respectively Synthetic fibre fiber is smeared wound on fiber together and after the completion of every winding by the obtained adhesive prepared in S2；

The integration of S4, fabric fiber: fiber polytetrafluoroethylene (PTFE) used in fabric and flame-resistant terylene fibre is every Root is respectively wound around together, then smears the fiber that every winds by the adhesive being prepared in S2；

The drying of S5, fiber: the fiber being prepared in S3 and S4 being stored in air-drying box and is dried, drying process Middle guarantee internal temperature equilibrium and low humidity；

The braiding of S6, fabric: the fabric after will be dry in S5 is weaved to obtain on the textile machine with fiber Corresponding fabric storage gives over to spare；

The braiding of S7, outer shell fabric: the outer shell fabric after will be dry in S5 is weaved to obtain on the textile machine with fiber Corresponding outer shell fabric storage gives over to spare；

The suture of S8, fabric and outer shell fabric: braiding in the fabric woven in S6 and S7 is obtained Outer shell fabric is sutured on sewing machine, and suture is intersected in the middle part of fabric.

Preferably, the adhesive storage environment temperature control for guaranteeing that it is prepared when wherein S2 prepares auxiliary material exists Between 30-35 degrees Celsius.

Preferably, the tightness of its fabric is lower than the tightness of outer shell fabric during wherein weaving in S6 and S7.

Preferably, wherein the drying box temperature of S5 guarantees that the control of the relative humidity in 45-50 degrees Celsius, drying box exists 10%-15%, and possible guarantee inside dustfree environment unexpectedly in drying box.

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

Pass through point fabric and outer shell fabric and cooperate the processing of auxiliary bonding principle, so that it keeps the temperature when in use Effect greatly increases, at the same by by every fiber using different fibers cooperation so that when its use increase its Resisting fractre intensity It greatly increases, and outer shell fabric uses silk, Fypro and polyester fiber, so that its feel greatly increases.

Specific embodiment

Below in conjunction with the embodiment of the present invention, technical scheme in the embodiment of the invention is clearly and completely described, Obviously, described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.Based in the present invention Embodiment, every other embodiment obtained by those of ordinary skill in the art without making creative efforts, all Belong to the scope of protection of the invention.

Embodiment one:

A kind of ultra-thin macromolecule thermal fabric, the ultra-thin Polymer Materials include outer shell fabric and fabric, The outer shell fabric is made of following raw material by portion rate: 60 parts of Fypro；120 parts of polyester fiber；60 parts of silk；

The fabric is made of the ratio of raw material parts once:

120 parts of polytetrafluoroethylene (PTFE)；120 parts of flame retardant polyester fiber；

The fabric and outer shell fabric manufactures specific raw material lot when manufacture is with preparation with following raw material Proportion: 120 parts of adhesive；Nano silica 20；20 parts of nanometer calcium carbonate；

The adhesive selects synthetic resin.

A kind of manufacturing method of ultra-thin macromolecule thermal fabric, includes the next steps:

The preparation of S1, each fiber: first by the Fypro of outer shell fabric, polyester fiber and silk respectively by floating Wash, be dried after the completion of rinsing, then be wrapped on roll give over to it is spare, then by the polytetrafluoroethylene (PTFE) of fabric and fire-retardant Polyester fiber carries out rinsing immersion respectively, is dried after the completion of rinsing, then be wrapped on roll give over to it is spare.

The preparation of S2, auxiliary material: enough nano grade silica particles and enough nano-sized carbons will be injected in adhesive Sour calcium powder, then each raw material is mixed and is sufficiently stirred, it is spare that lasting stirring prevents solidification from giving over to.

The integration of S3, outer shell fabric fiber: the every Fypro and silk of outer shell fabric are washed with one respectively Synthetic fibre fiber is smeared wound on fiber together and after the completion of every winding by the obtained adhesive prepared in S2.

The integration of S4, fabric fiber: fiber polytetrafluoroethylene (PTFE) used in fabric and flame-resistant terylene fibre is every Root is respectively wound around together, then smears the fiber that every winds by the adhesive being prepared in S2.

The drying of S5, fiber: the fiber being prepared in S3 and S4 being stored in air-drying box and is dried, drying process Middle guarantee internal temperature is balanced and low humidity, drying box temperature guarantee the relative humidity control in 45-50 degrees Celsius, drying box System is in 10%-15%, and possible guarantee inside dustfree environment unexpectedly in drying box.

The braiding of S6, fabric: the fabric after will be dry in S5 is weaved to obtain on the textile machine with fiber Corresponding fabric storage gives over to spare, guarantees its adhesive storage environment temperature control being prepared when preparing auxiliary material System is between 30-35 degrees Celsius.

The braiding of S7, outer shell fabric: the outer shell fabric after will be dry in S5 is weaved to obtain on the textile machine with fiber Corresponding outer shell fabric storage gives over to spare.

The suture of S8, fabric and outer shell fabric: braiding in the fabric woven in S6 and S7 is obtained Outer shell fabric is sutured on sewing machine, and suture is intersected in the middle part of fabric.

Wherein, the tightness of its fabric is lower than the tightness of outer shell fabric during weaving in S6 and S7.

Embodiment two:

A kind of ultra-thin macromolecule thermal fabric, the ultra-thin Polymer Materials include outer shell fabric and fabric, The outer shell fabric is made of following raw material by portion rate: 62 parts of Fypro；124 parts of polyester fiber；62 parts of silk；

The fabric is made of the ratio of raw material parts once:

124 parts of polytetrafluoroethylene (PTFE)；124 parts of flame retardant polyester fiber；

The fabric and outer shell fabric manufactures specific raw material lot when manufacture is with preparation with following raw material Proportion: 124 parts of adhesive；Nano silica 24；24 parts of nanometer calcium carbonate；

The adhesive selects synthetic resin.

A kind of manufacturing method of ultra-thin macromolecule thermal fabric, includes the next steps:

The preparation of S1, each fiber: first by the Fypro of outer shell fabric, polyester fiber and silk respectively by floating Wash, be dried after the completion of rinsing, then be wrapped on roll give over to it is spare, then by the polytetrafluoroethylene (PTFE) of fabric and fire-retardant Polyester fiber carries out rinsing immersion respectively, is dried after the completion of rinsing, then be wrapped on roll give over to it is spare.

The preparation of S2, auxiliary material: enough nano grade silica particles and enough nano-sized carbons will be injected in adhesive Sour calcium powder, then each raw material is mixed and is sufficiently stirred, it is spare that lasting stirring prevents solidification from giving over to.

The integration of S3, outer shell fabric fiber: the every Fypro and silk of outer shell fabric are washed with one respectively Synthetic fibre fiber is smeared wound on fiber together and after the completion of every winding by the obtained adhesive prepared in S2.

The integration of S4, fabric fiber: fiber polytetrafluoroethylene (PTFE) used in fabric and flame-resistant terylene fibre is every Root is respectively wound around together, then smears the fiber that every winds by the adhesive being prepared in S2.

The drying of S5, fiber: the fiber being prepared in S3 and S4 being stored in air-drying box and is dried, drying process Middle guarantee internal temperature is balanced and low humidity, drying box temperature guarantee the relative humidity control in 45-50 degrees Celsius, drying box System is in 10%-15%, and possible guarantee inside dustfree environment unexpectedly in drying box.

The braiding of S6, fabric: the fabric after will be dry in S5 is weaved to obtain on the textile machine with fiber Corresponding fabric storage gives over to spare, guarantees its adhesive storage environment temperature control being prepared when preparing auxiliary material System is between 30-35 degrees Celsius.

The braiding of S7, outer shell fabric: the outer shell fabric after will be dry in S5 is weaved to obtain on the textile machine with fiber Corresponding outer shell fabric storage gives over to spare.

The suture of S8, fabric and outer shell fabric: braiding in the fabric woven in S6 and S7 is obtained Outer shell fabric is sutured on sewing machine, and suture is intersected in the middle part of fabric.

Wherein, the tightness of its fabric is lower than the tightness of outer shell fabric during weaving in S6 and S7.

Embodiment three:

A kind of ultra-thin macromolecule thermal fabric, the ultra-thin Polymer Materials include outer shell fabric and fabric, The outer shell fabric is made of following raw material by portion rate: 61 parts of Fypro；122 parts of polyester fiber；61 parts of silk；

The fabric is made of the ratio of raw material parts once:

122 parts of polytetrafluoroethylene (PTFE)；122 parts of flame retardant polyester fiber；

The fabric and outer shell fabric manufactures specific raw material lot when manufacture is with preparation with following raw material Proportion: 122 parts of adhesive；Nano silica 32；32 parts of nanometer calcium carbonate；

The adhesive selects synthetic resin.

A kind of manufacturing method of ultra-thin macromolecule thermal fabric, includes the next steps:

The preparation of S1, each fiber: first by the Fypro of outer shell fabric, polyester fiber and silk respectively by floating Wash, be dried after the completion of rinsing, then be wrapped on roll give over to it is spare, then by the polytetrafluoroethylene (PTFE) of fabric and fire-retardant Polyester fiber carries out rinsing immersion respectively, is dried after the completion of rinsing, then be wrapped on roll give over to it is spare.

The preparation of S2, auxiliary material: enough nano grade silica particles and enough nano-sized carbons will be injected in adhesive Sour calcium powder, then each raw material is mixed and is sufficiently stirred, it is spare that lasting stirring prevents solidification from giving over to.

The integration of S3, outer shell fabric fiber: the every Fypro and silk of outer shell fabric are washed with one respectively Synthetic fibre fiber is smeared wound on fiber together and after the completion of every winding by the obtained adhesive prepared in S2.

The integration of S4, fabric fiber: fiber polytetrafluoroethylene (PTFE) used in fabric and flame-resistant terylene fibre is every Root is respectively wound around together, then smears the fiber that every winds by the adhesive being prepared in S2.

The drying of S5, fiber: the fiber being prepared in S3 and S4 being stored in air-drying box and is dried, drying process Middle guarantee internal temperature is balanced and low humidity, drying box temperature guarantee the relative humidity control in 45-50 degrees Celsius, drying box System is in 10%-15%, and possible guarantee inside dustfree environment unexpectedly in drying box.

The braiding of S6, fabric: the fabric after will be dry in S5 is weaved to obtain on the textile machine with fiber Corresponding fabric storage gives over to spare, guarantees its adhesive storage environment temperature control being prepared when preparing auxiliary material System is between 30-35 degrees Celsius.

The braiding of S7, outer shell fabric: the outer shell fabric after will be dry in S5 is weaved to obtain on the textile machine with fiber Corresponding outer shell fabric storage gives over to spare.

The suture of S8, fabric and outer shell fabric: braiding in the fabric woven in S6 and S7 is obtained Outer shell fabric is sutured on sewing machine, and suture is intersected in the middle part of fabric.

Wherein, the tightness of its fabric is lower than the tightness of outer shell fabric during weaving in S6 and S7.

It should be noted that, in this document, relational terms such as first and second and the like are used merely to a reality Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation In any actual relationship or order or sequence.Moreover, the terms "include", "comprise" or its any other variant are intended to Non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment Intrinsic element.

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

Claims (8)

1. a kind of ultra-thin macromolecule thermal fabric, which is characterized in that the ultra-thin Polymer Materials include outer shell fabric with Fabric, the outer shell fabric are made of following raw material by portion rate:

60-62 parts of Fypro；120-124 parts of polyester fiber；

60-62 parts of silk；

The fabric is made of the ratio of raw material parts once:

120-124 parts of polytetrafluoroethylene (PTFE)；120-124 parts of flame retardant polyester fiber；

The fabric and outer shell fabric manufactures specific raw material lot with following raw material and matches when manufacture is with preparation Than:

120-124 parts of adhesive；Nano silica 20-24；

20-24 parts of nanometer calcium carbonate；

The adhesive selects synthetic resin.

2. the ultra-thin macromolecule thermal fabric of one kind according to claim 1, which is characterized in that the ultra-thin macromolecule Fabric includes outer shell fabric and fabric, and the outer shell fabric is made of following raw material by portion rate: Fypro 60 Part；120 parts of polyester fiber；60 parts of silk；

The fabric is made of the ratio of raw material parts once:

120 parts of polytetrafluoroethylene (PTFE)；120 parts of flame retardant polyester fiber；

The fabric and outer shell fabric manufactures specific raw material lot with following raw material and matches when manufacture is with preparation Than: 120 parts of adhesive；Nano silica 20；20 parts of nanometer calcium carbonate；

The adhesive selects synthetic resin.

3. the ultra-thin macromolecule thermal fabric of one kind according to claim 1, which is characterized in that the ultra-thin macromolecule Fabric includes outer shell fabric and fabric, and the outer shell fabric is made of following raw material by portion rate: Fypro 62 Part；124 parts of polyester fiber；62 parts of silk；

The fabric is made of the ratio of raw material parts once:

124 parts of polytetrafluoroethylene (PTFE)；124 parts of flame retardant polyester fiber；

The fabric and outer shell fabric manufactures specific raw material lot with following raw material and matches when manufacture is with preparation Than: 124 parts of adhesive；Nano silica 24；24 parts of nanometer calcium carbonate；

The adhesive selects synthetic resin.

4. the ultra-thin macromolecule thermal fabric of one kind according to claim 1, which is characterized in that the ultra-thin macromolecule Fabric includes outer shell fabric and fabric, and the outer shell fabric is made of following raw material by portion rate: Fypro 61 Part；122 parts of polyester fiber；61 parts of silk；

The fabric is made of the ratio of raw material parts once:

122 parts of polytetrafluoroethylene (PTFE)；122 parts of flame retardant polyester fiber；

The fabric and outer shell fabric manufactures specific raw material lot with following raw material and matches when manufacture is with preparation Than: 122 parts of adhesive；Nano silica 32；32 parts of nanometer calcium carbonate；

The adhesive selects synthetic resin.

5. a kind of manufacturing method of ultra-thin macromolecule thermal fabric, which is characterized in that include the next steps:

The preparation of S1, each fiber: first by the Fypro of outer shell fabric, polyester fiber and silk respectively by rinsing, drift Be dried after washing into, then be wrapped on roll give over to it is spare, then by the polytetrafluoroethylene (PTFE) and flame-resistant terylene of fabric Fiber carries out rinsing immersion respectively, is dried after the completion of rinsing, then be wrapped on roll give over to it is spare；

The preparation of S2, auxiliary material: enough nano grade silica particles and enough nanometer calcium carbonates will be injected in adhesive Powder, then each raw material is mixed and is sufficiently stirred, it is spare that lasting stirring prevents solidification from giving over to；

The integration of S3, outer shell fabric fiber: by the every Fypro and silk of outer shell fabric respectively with a terylene fibre Dimension winding together and after the completion of every winding smeared by the obtained adhesive prepared in S2 by fiber；

The integration of S4, fabric fiber: by fine every point of fiber polytetrafluoroethylene (PTFE) used in fabric and flame-resistant terylene It is not intertwined, then smears the fiber that every winds by the adhesive being prepared in S2；

The drying of S5, fiber: the fiber being prepared in S3 and S4 is stored in air-drying box and is dried, is protected in drying process Demonstrate,prove internal temperature equilibrium and low humidity；

The braiding of S6, fabric: the fabric after will be dry in S5 is weaved to obtain on the textile machine corresponding with fiber Fabric storage give over to it is spare；

The braiding of S7, outer shell fabric: the outer shell fabric after will be dry in S5 is weaved to obtain on the textile machine corresponding with fiber Outer shell fabric storage give over to it is spare；

The suture of S8, fabric and outer shell fabric: by the fabric woven in S6 and the outer layer woven in S7 Fabric is sutured on sewing machine, and suture is intersected in the middle part of fabric.

6. the manufacturing method of the ultra-thin macromolecule thermal fabric of one kind according to claim 1, it is characterised in that: wherein S2 Guarantee that the adhesive storage environment temperature that it is prepared controls between 30-35 degrees Celsius when preparing auxiliary material.

7. the manufacturing method of the ultra-thin macromolecule thermal fabric of one kind according to claim 1, it is characterised in that: wherein S6 It is lower than the tightness of outer shell fabric with the tightness of its fabric during braiding in S7.

8. the manufacturing method of the ultra-thin macromolecule thermal fabric of one kind according to claim 1, it is characterised in that: wherein S5 Drying box temperature guarantee that the relative humidity in 45-50 degrees Celsius, drying box is controlled in 10%-15%, and in drying box Unexpectedly dustfree environment inside possible guarantee.