CN110067139A - A kind of antibacterial heat-preservation clothing material and its manufacturing process, the eiderdown quilt using the fabric - Google Patents

Abstract

The invention discloses a kind of antibacterial heat-preservation clothing material and its manufacturing process, use the eiderdown quilt of the fabric.The antibacterial heat-preservation clothing material includes high density chemical fibre tissue layer and the insulating layer and antibiotic layer for being set in turn in high density chemical fibre fabric layer outer surface；Antibiotic layer is coated by antimicrobial mixtures, and insulating layer is coated by incubation mixture；Antimicrobial mixtures include the component of following parts by weight: 33-50 parts of styrene analog thermoplastic elastomer；0.5-1.2 parts of hydroxymethyl phenyl phosphinic acids；0.5-1 parts of nano silver；Incubation mixture includes the component of following parts by weight: 1.3-3.2 parts of vanillyl alcohol butyl ether；5.5-8.9 parts of nano-organosilicon fabric softening agent；35-50 parts of solvent；Solvent includes at least one of water, ethylene glycol.Antibacterial heat-preservation clothing material in the present invention, has the effect of the advantages of excellent antibacterial, heat preservation, pro-skin.The product qualified rate for the antibacterial heat-preservation clothing material that the manufacturing process of antibacterial heat-preservation clothing material in the present invention has the advantages that operating procedure is simple and obtains is higher.

Description

A kind of antibacterial heat-preservation clothing material and its manufacturing process, the eiderdown quilt using the fabric

Technical field

The present invention relates to eiderdown quilt and its fabric processing technique fields, more specifically, it relates to which a kind of antibacterial keeps the temperature face Material and its manufacturing process, the eiderdown quilt using the fabric.

Background technique

With being gradually increased for living standard, the crowd of each age level requires also increasingly the selection of daily necessity It is high.The all one's life of people has the time of one third related with sleeping, and bedding and our quality of the life and comfort level have Closely connection.Light possessed by eiderdown quilt, fluffy advantage allows it to be approved and be favored by more and more people.However, plumage Suede during long-time service, can inevitably be bred bacterium, but the cleaning difficulty of eiderdown quilt is big, the popularization and use to eiderdown quilt Produce certain restriction.

The Chinese patent that application publication number is CN108100984A, data of publication of application is on 06 01st, 2018 discloses one The manufacturing method of kind of antibacterial thermal insulating eiderdown quilt, which is characterized in that the manufacturing method the following steps are included:

S1, the down filler for choosing production eiderdown quilt；

S2, the down filler in S1 is subjected to pre-treatment；

S3, the down filler after pre-treatment in S2 is subjected to drying and processing；

S4, the down filler after drying in S3 is carried out by sterilization processing using ultraviolet sterilization device；

S5, heat generating fiber and anti-bacterial fibre are mixed into mixed packing, then immersed mixed packing in finishing fluid, dosage For 10-30g/L, pH value 6.5-7.5, keeping temperature is 70-80 DEG C, keeps the temperature 10-60min；

S6, by liquid collated in S5 treated mixed packing compression sizing, be then placed in cleaning device and clean 10- 30min；

S7, the mixed packing after cleaning in S6 is subjected to drying and processing, is then placed in expanding machine and carries out expansion process；

S8, the down filler after sterilizing in the mixed packing and S4 after expansion process in S7 is uniformly mixed, is subsequently filled Into the inner core cover of eiderdown quilt, is handled after populated by micro- vibration, suture is finally sealed to inner core cover using sewing machine；

S9, inner core cover is fitted into the quilt cover of eiderdown quilt, suture is then sealed to the quilt cover of eiderdown quilt using sewing machine, is obtained To antibacterial thermal insulating eiderdown quilt.

For the prior art by having carried out abundant sterilization processing to the mixed packing in eiderdown quilt, reduction makes it by bacterium Infringement, to be not easy to make bacteria breed.However, eiderdown quilt is in use, can directly use or outside its quilt cover It is used after putting on detachable protective set again.When directly use eiderdown quilt when, human skin directly with the quilt cover part of eiderdown quilt Contact be easy to cause quilt cover part to breed bacterium；When the outer cover in eiderdown quilt cover again upper detachable protective set after in use, The impurity such as dust can also enter protective case and put on outside being attached to due to the effect of electrostatic, or even be attached on inner core cover, Further result in bacterium to breed on quilt cover even inner core cover, and such case, merely simply by mixed packing into The abundant sterilization processing of row can not also prevent.

Summary of the invention

In view of the deficienciess of the prior art, the first purpose of this invention is to provide a kind of antibacterial heat-preservation clothing material, Have the advantages that excellent antibacterial, heat insulation effect.

Second object of the present invention is to provide a kind of manufacturing process of antibacterial heat-preservation clothing material, with operating procedure letter The higher advantage of product qualified rate of single and acquisition antibacterial heat-preservation clothing material.

Third object of the present invention is to provide a kind of eiderdown quilt using antibacterial heat-preservation clothing material have preferably anti- The advantages of bacterium, heat insulation effect.

To realize above-mentioned first purpose, the present invention provides the following technical scheme that

A kind of antibacterial heat-preservation clothing material including high density chemical fibre tissue layer and is set in turn in high density chemical fibre fabric layer outer surface Insulating layer and antibiotic layer；The antibiotic layer is coated by antimicrobial mixtures, and the insulating layer is coated by incubation mixture；

The antimicrobial mixtures include the component of following parts by weight:

33-50 parts of styrene analog thermoplastic elastomer；

0.5-1.2 parts of hydroxymethyl phenyl phosphinic acids；

0.5-1 parts of nano silver；

The incubation mixture includes the component of following parts by weight:

1.3-3.2 parts of vanillyl alcohol butyl ether；

5.5-8.9 parts of nano-organosilicon fabric softening agent；

35-50 parts of solvent；The solvent includes at least one of water, ethylene glycol.

By using above-mentioned technical proposal, high density chemical fibre tissue layer why is selected, is to reduce natural feather and run out of Phenomenon.

In antimicrobial mixtures, styrene analog thermoplastic elastomer has preferable pro-skin effect, and its hydrophily is poor.Hydroxyl The stability of methylphenylphosphinic acid is preferable, is not susceptible to decompose, and has the effect of excellent heat-resisting, hydrolysis, and fire-retardant effect Fruit is good, environmentally protective.The partial size of nano silver is nanoscale, and biggish specific surface area is easier to it and the phenylethylene in the present invention Thermoplastic elastomer (TPE), hydroxymethyl phenyl phosphinic acids generate preferable contact together；And its own is to Escherichia coli, gonococcus, sand The tens of kinds of pathogenic microorganisms such as chlamydia oculogenitale have excellent antibacterial and bactericidal effect, are not likely to produce drug resistance, can also effectively prevent It is smelly.

Styrene analog thermoplastic elastomer, hydroxymethyl phenyl phosphinic acids, nano silver collective effect under, can not only rise To preferably effect is attached, preferable hydrophobic effect also can reach, when using the fabric, if encountering water droplet etc., be not easy out The phenomenon that now permeating can be gathered into droplet instead, be easier to be not easy to remain by water wiped clean.

In incubation mixture, vanillyl alcohol butyl ether with after skin contact, it may appear that the feeling of some warms, the present invention in Using the substance, main function is to make after fabric and skin contact, is not easy to cause because fabric itself is ice-cold to fabric Experience sense is deteriorated.Nano-organosilicon fabric softening agent is purchased from German Klein company, is weak cation type, and particle therein Having a size of 10 micromillimetres, it can be formed and be come into full contact with high density chemical fibre tissue layer, and is washable.Vanillyl alcohol butyl ether, nano-organosilicon Fabric softening agent is mixed in a solvent and is formed mutual cooperation, helps to make the incubation mixture obtained that can make densification Fine tissue layer has the effect of preferable softness, in use, being easier to form sufficient be bonded with skin.

Insulating layer is formed in the mode that the outside of high density chemical fibre tissue layer first coats or impregnates, then in the outer of insulating layer Portion forms antibiotic layer by the way of coating or dipping, to help to make the fabric in the present invention while have to be not easy to attach The effect of liquid, antibacterial and preferable heat preservation and softness.

Further preferably are as follows: further include the nano-titanium dioxide that parts by weight are 1.6-2.8 parts in the antimicrobial mixtures.

By using above-mentioned technical proposal, nano-titanium dioxide not only has preferable dispersion effect, also has good Sterilizing ability.In the present invention use nano-titanium dioxide, be not only due to it with biggish specific surface area, due also to its have compared with Good adsorption effect, when forming mutual cooperation with styrene analog thermoplastic elastomer, hydroxymethyl phenyl phosphinic acids, nano silver, The adsorptivity of antimicrobial mixtures can be further provided for, so that the antibiotic layer for forming antimicrobial mixtures plays more lasting resist Bacterium, self-cleaning effect.

Further preferably are as follows: further include the 2- carboxyethyl phenyl that parts by weight are 2.5-3.2 parts in the incubation mixture Hypophosphorous acid.

By using above-mentioned technical proposal, 2- carboxyethyl phenyl hypophosphorous acid has preferable thermal stability, it may have preferably Stability, can also form preferable combination with high density chemical fibre tissue layer, and form phase interworking with hydroxymethyl phenyl phosphinic acids It closes, further increases the thermostable effect for the fabric to be formed.

Further preferably are as follows: in the incubation mixture, use parts by weight for 6.3-6.8 parts of polyethylene emulsion softening agents Replace the nano-organosilicon fabric softening agent that parts by weight are 5.5-8.9 parts.

By using above-mentioned technical proposal, polyethylene emulsion softening agent plays preferable protective effect to fabric, can Increase the smooth degree of fiber, it helps the soft effect to high density chemical fibre tissue layer is improved, it is made more to be bonded skin, And be not easy to generate electrostatic interaction between skin, further increase the experience sense of user.

Further preferably are as follows: in the incubation mixture, use parts by weight for 2.3-3.5 parts of nano-organosilicon fabric Softening agent and 1.8-2.5 parts of polyethylene emulsion softening agent, the nano-organosilicon fabric that replacement parts by weight are 5.5-8.9 parts are soft Soft dose.

By using above-mentioned technical proposal, phase is carried out using nano-organosilicon fabric softening agent and polyethylene emulsion softening agent Mutually cooperation, can further improve the softness, pro-skin, the effect of heat preservation of the antibacterial heat-preservation clothing material in the present invention.

Further preferably are as follows: the high density chemical fibre tissue layer is polyester layer or layer of polyester fiber, and yarn count density is 250- 290T。

By using above-mentioned technical proposal, the performance of polyester layer or layer of polyester fiber with monolithic stability is not easy due to clear It washes and loose phenomenon occurs.The higher polyester layer of yarn count density or layer of polyester fiber are used in the present invention, comparatively dense In the case where fiber interweaving, using incubation mixture, the compactness extent between fiber is further increased, at the same time, may be used also Keep antibacterial, the heat insulation effect of the antibacterial heat-preservation clothing material obtained more uniform.

To realize above-mentioned second purpose, the present invention provides the following technical scheme that

A kind of manufacturing process of antibacterial heat-preservation clothing material, includes the following steps:

Step 1, pretreatment: high density chemical fibre tissue layer being soaked in inorganic agent and handles 10-15min, is taken out and in 40-50 Dry 15-25min, high density chemical fibre tissue layer after being pre-processed under conditions of DEG C；

According to parts by weight, by styrene analog thermoplastic elastomer, hydroxymethyl phenyl phosphinic acids, nano silver, nano-titanium dioxide, 2- carboxyethyl phenyl hypophosphorous acid is sufficiently mixed, then is melted, and antimicrobial mixtures are obtained；

According to parts by weight, vanillyl alcohol butyl ether, nano-organosilicon fabric softening agent, solvent, polyethylene emulsion softening agent are carried out It is sufficiently mixed, obtains incubation mixture；

The incubation mixture obtained in step 1 is evenly applied to after pre-processing in high density chemical fibre tissue layer by step 2, quiet 30-60min is set, then dries 20-30min under conditions of being placed in 60-80 DEG C, obtains first product fabric；

Step 3, the table for the first product fabric that the antimicrobial mixtures obtained in step 1 are evenly applied to obtain in step 2 Face, after natural drying, dry 10-15min, obtains antibacterial heat-preservation clothing material at a temperature of being placed in 40-55 DEG C；

The inorganic agent is Gemini surface active aqueous solution, and the surface Gemini is living in Gemini surface active aqueous solution Property agent concentration be 25-33%.

By using above-mentioned technical proposal, in step 1, high density chemical fibre tissue layer is pre-processed, densification is made The structure between fiber in fine tissue layer is easily deformable, so that facilitating the high density chemical fibre tissue layer for making to obtain has more Soft effect.

In step 1, when manufacturing antimicrobial mixtures, first said components are dispersed, then is melted, convenient for above-mentioned Being sufficiently mixed between component, convenient for that sufficiently and can be evenly coated with antimicrobial mixtures during subsequent coating operation On the surface of first product fabric, and reach preferable adhesion effect.When manufacturing incubation mixture, solvent can be by vanillyl alcohol fourth The phenomenon that ether, nano-organosilicon fabric softening agent, polyethylene emulsion softening agent are mixed, are less prone to precipitating or floccule, Convenient for subsequent processing.

In step 2, by the way of standing, enable component in incubation mixture naturally with high density chemical & blended fabric Fiber in layer is combined, and the gap between fill fiber and fiber, so that high density chemical fibre tissue layer be made to have more For soft quality.At the same time, part vanillyl alcohol butyl ether by nano-organosilicon fabric softening agent, polyethylene emulsion softening agent into Row cladding, also has part vanillyl alcohol butyl ether exposed, after in direct contact with the skin, or be more bonded and make between skin, skin On heat be easier to pass to evenly dispersed vanillyl alcohol butyl ether, and heat is given out, so that skin be made to have warm feeling. And the use of nano-organosilicon fabric softening agent, polyethylene emulsion softening agent, help to make first product fabric with preferably soft Softly, make its more pro-skin.

Further preferably are as follows: in the step 1, when high density chemical fibre tissue layer is soaked in inorganic agent, while using super Sonicated.

By using above-mentioned technical proposal, ultrasonication helps to reduce Gemini surface active aqueous solution generation gas A possibility that bubble, helps to further increase the effective component in inorganic agent well into the fiber in high density chemical fibre tissue layer Between fiber, make high density chemical fibre tissue layer that there is more soft feel.

To realize above-mentioned third purpose, the present invention provides the following technical scheme that

A kind of eiderdown quilt using antibacterial heat-preservation clothing material, including housing, inner core cover and down layer, the housing and inner core cover are adopted It is sewed with above-mentioned antibacterial heat-preservation clothing material, and down layer is sutured in inside；The housing and inner core cover are sutured in one.

By using above-mentioned technical proposal, housing, the compactness extent of inner core cover are high, in use, do not easily lead to plumage Suede is run out of, and is also not easy to make the dust in external environment to enter in natural feather, also occurs showing for bacteria breed in natural feather to reduce The possibility of elephant.The down layer in eiderdown quilt in the present invention obtains fully dispersed, reaches preferable heat insulation effect.And in housing and It under the collective effect of inner core cover, does not easily cause natural feather to be pierced by, also makes the globality for the eiderdown quilt to be formed more preferably.

Eiderdown quilt in the present invention in use, is preferably carried out again in one protective case of its outer cover using can be into One step, which reduces the dirty situation of housing, to be occurred.

In conclusion the invention has the following advantages:

The first, mixing is formed together using styrene analog thermoplastic elastomer, hydroxymethyl phenyl phosphinic acids, nano silver in the present invention And antimicrobial mixtures are obtained, using vanillyl alcohol butyl ether, nano-organosilicon fabric softening agent and/or polyethylene emulsion softening agent molten It is mixed to form incubation mixture in agent, forms heat preservation in the mode that the outside of high density chemical fibre tissue layer first coats or impregnates Layer, then antibiotic layer is formed by the way of coating or dipping in the external of insulating layer, to help to make the face in the present invention Expect while having the effect of being not easy to attach liquid, antibacterial and preferable heat preservation and softness；

The second, the nano-titanium dioxide and/or 2- carboxyethyl phenyl hypophosphorous acid used in the present invention, with styrene analog thermoplastic bullet Property body, hydroxymethyl phenyl phosphinic acids, nano silver form cooperation, help to further increase in invention the self-cleaning ability of fabric and Antibacterial ability；

Third, manufacture the present invention in fabric when, use concentration for the Gemini table of 25-33% high density chemical fibre tissue layer Face aqueous surfactant solutions are handled, and then it is preferably soft to help to make after the pretreatment obtained high density chemical fibre tissue layer to have Soft pro-skin effect；

4th, when manufacturing the fabric in the present invention, first the outer surface of high density chemical fibre tissue layer coats heat preservation after the pre-treatment Mixture forms insulating layer, after to be dried, then coat antimicrobial mixtures in the outside of insulating layer and forms antibiotic layer, and then make to obtain The antibacterial heat-preservation clothing material obtained has excellent antibacterial, self-cleaning effect, and at the same time also there is preferable pro-skin, heat insulation effect, Help to improve the experience sense of user；

5th, the present invention in eiderdown quilt quilt cover, inner core cover be all made of the antibacterial heat-preservation clothing material in the present invention be made, pass through by Down layer is evenly laid out and sews, and the eiderdown quilt of acquisition is light, good warmth retention effect, self-cleaning ability are strong.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of antibacterial heat-preservation clothing material in the present invention；

Fig. 2 is the structural schematic diagram of eiderdown quilt in the present invention；

Fig. 3 is the structural schematic diagram of down layer, inner core cover, housing in eiderdown quilt in the present invention.

In figure, 1, high density chemical fibre tissue layer；2, insulating layer；3, antibiotic layer；4, eiderdown quilt；41, down layer；42, inner core Set；43, housing.

Specific embodiment

Below in conjunction with drawings and examples, invention is further described in detail.

Embodiment 1: a kind of antibacterial heat-preservation clothing material, as shown in Figure 1, including high density chemical fibre tissue layer 1 and being set in turn in The insulating layer 2 and antibiotic layer 3 of 1 outer surface of high density chemical fibre tissue layer；Antibiotic layer 3 is coated or impregnated with by antimicrobial mixtures, Insulating layer 2 is coated or impregnated with by incubation mixture.Wherein, component included by antimicrobial mixtures and its corresponding parts by weight Number is as shown in table 1；Component included by incubation mixture and its corresponding parts by weight are as shown in table 2.

Acquisition is manufactured by the following steps in the antibacterial heat-preservation clothing material:

Pretreatment: high density chemical fibre tissue layer 1 is soaked in the Gemini surface active aqueous solution that concentration is 25% by step 1 Middle processing 15min, taking-up and dry 15min under conditions of 50 DEG C, high density chemical fibre tissue layer 1 after being pre-processed；

By styrene analog thermoplastic elastomer, hydroxymethyl phenyl phosphinic acids, nano silver, nano-titanium dioxide, 2- carboxyethyl phenyl Hypophosphorous acid is sufficiently mixed, then is melted, and antimicrobial mixtures are obtained；

Vanillyl alcohol butyl ether, nano-organosilicon fabric softening agent, water, polyethylene emulsion softening agent are sufficiently mixed, protected Warm mixture；

The incubation mixture obtained in step 1 is evenly applied to after pre-processing in high density chemical fibre tissue layer 1 by step 2, quiet 30min is set, then dries 30min under conditions of being placed in 60 DEG C, obtains first product fabric；

Step 3, the table for the first product fabric that the antimicrobial mixtures obtained in step 1 are evenly applied to obtain in step 2 Face, after natural drying, dry 15min, obtains antibacterial heat-preservation clothing material at a temperature of being placed in 40 DEG C；

Wherein, high density chemical fibre tissue layer 1 is polyester layer or layer of polyester fiber, and yarn count density is 250T.

Embodiment 2-8: a kind of antibacterial heat-preservation clothing material, the difference from embodiment 1 is that, component included by antimicrobial mixtures And its parts by weight are as shown in table 1 accordingly；Component included by incubation mixture and its corresponding parts by weight such as 2 institute of table Show.

Component and its corresponding parts by weight included by antimicrobial mixtures in 1 embodiment 1-8 of table

Component and its corresponding parts by weight included by incubation mixture in 2 embodiment 1-8 of table

Embodiment 9: a kind of antibacterial heat-preservation clothing material, the difference with embodiment 3 are, when manufacturing antibacterial heat-preservation clothing material, step In rapid one, high density chemical fibre tissue layer 1 is soaked in the Gemini surface active aqueous solution that concentration is 29% and is handled 12min, taking-up and dry 25min under conditions of 40 DEG C.

Embodiment 10: a kind of antibacterial heat-preservation clothing material, the difference with embodiment 3 are, when manufacturing antibacterial heat-preservation clothing material, step In rapid one, high density chemical fibre tissue layer 1 is soaked in the Gemini surface active aqueous solution that concentration is 33% and is handled 10min, taking-up and dry 20min under conditions of 45 DEG C.

Embodiment 11: a kind of antibacterial heat-preservation clothing material, the difference with embodiment 3 are, during manufacturing fabric, step In one, when high density chemical fibre tissue layer 1 is soaked in concentration to handle in 25% Gemini surface active aqueous solution, adopt simultaneously With ultrasonication, the frequency of ultrasonic wave is 30kHz.

Embodiment 12: a kind of antibacterial heat-preservation clothing material, the difference with embodiment 3 are, when manufacturing antibacterial heat-preservation clothing material, step In rapid two, incubation mixture is evenly applied to after pre-processing in high density chemical fibre tissue layer 1, stands 50min, then be placed in 70 DEG C Under conditions of dry 25min.

Embodiment 13: a kind of antibacterial heat-preservation clothing material, the difference with embodiment 3 are, when manufacturing antibacterial heat-preservation clothing material, step In rapid two, incubation mixture is evenly applied to after pre-processing in high density chemical fibre tissue layer 1, stands 30min, then be placed in 80 DEG C Under conditions of dry 20min.

Embodiment 14: a kind of antibacterial heat-preservation clothing material, the difference with embodiment 3 are, when manufacturing antibacterial heat-preservation clothing material, step In rapid three, coating antimicrobial mixtures and after natural drying dry 12min at a temperature of being placed in 46 DEG C.

Embodiment 15: a kind of antibacterial heat-preservation clothing material, the difference with embodiment 3 are, when manufacturing antibacterial heat-preservation clothing material, step In rapid three, coating antimicrobial mixtures and after natural drying dry 10min at a temperature of being placed in 55 DEG C.

Embodiment 16: a kind of antibacterial heat-preservation clothing material, the difference with embodiment 3 are that high density chemical fibre tissue layer 1 is terylene Layer or layer of polyester fiber, yarn count density are 290T.

Embodiment 17: a kind of eiderdown quilt, as shown in Figures 2 and 3, including housing 43, inner core cover 42 and down layer 41, housing 43 It is all made of the antibacterial heat-preservation clothing material obtained in embodiment 3 with inner core cover 42 to sew, and down layer 41 is sutured in inside, outside Set 43 is sutured in one with inner core cover 42, forms eiderdown quilt 4.

Comparative example 1: a kind of fabric, the difference with embodiment 3 are, as application publication number CN108486738A, application are public Cloth day is shown in the embodiment in the patent of invention of 2018.09.04, using the high grade cotton yarn more than or equal to 60S of pure cotton spinning As a raw material for production, production method includes warping process, sizing operation and weaving process；Production method further includes dyeing and finishing work Skill, dyeing and finishing technology include following processing step: being singed, concise desizing, bleaching, mercerising, Anti-Pilling Finishes, stentering forming and pre- Contracting；The workshop temperature of production method is 20~30 DEG C, and relative humidity is 80~90%, finally obtains novel soft fabric.

Comparative example 2: a kind of fabric, the difference with embodiment 3 are, as Authorization Notice No. is CN107012565B, authorization The day for announcing be 2018.11.06 patent of invention in embodiment 1 shown in,

(1) cotton fiber selective oxidation: cotton fiber is selected using 4- acetylaminohydroxyphenylarsonic acid TEMPO-NaClO-NaBr oxidation system Selecting property oxidation, through centrifugation, filtering, the carboxyl cotton fiber for drying obtained carboxyl-content 0.4-0.5mmol/g；

(2) scribbled is processed: made carboxyl cotton fiber and polyurethane fiber are subjected to mixed fibre with the ratio of mass ratio 5:3, then Scribbled is processed into through blowing, cotton carding, drafting, rove, spinning process；

(3) scribbled dyes: scribbled is disseminated, and is mixed into insect prevention mite-proof agent in dye liquor, scribbled and anti- Worm mite-proof agent mass ratio be 1: 0.05, in 45-55 DEG C of fixation 30min after dyeing, and through washing, dehydration, baking process at Reason；

(4) face weave: the scribbled after dyeing is gone up into loom after warping, sizing, denting, is weaved into plain fabric；

(5) fabric calendering pre-treatment: calendering aids plus boiling water stirring are made to the solution of 25g/1, through naturally cooling to 40-50 DEG C, then weaving gained fabric is impregnated in the solution, and in 40-50 DEG C of heat preservation 30min, is then taken out fabric, through being dehydrated Weight water content 5-10% is dried in 70-80 DEG C afterwards；

(6) fabric calendering: the fabric through calendering pre-treatment is subjected to calendering using calender, controls pressure in 6-7MPa, temperature At 120-130 DEG C, speed is in 20-25m/min, and three times, every minor tick 30min is most formed through natural cooling afterwards for calendering repeatedly.

Comparative example 3: a kind of eiderdown quilt, the difference with embodiment 17 are, using the fabric obtained in comparative example 1 as outer Set 43 and inner core cover 42.

Test one: antibacterial tests

Test specimen: embodiment 1-16 is chosen as test sample 1-16, chooses comparative example 1-2 as control sample 1-2.

Test method: by test sample 1-16, control sample 1-2 be respectively placed in temperature be 25-37 DEG C, humidity 50-65%RH Dark surrounds in stand 48h, respectively for staphylococcus aureus, Bacillus typhosus, Escherichia coli content surveyed Examination, records and analyzes result.

Test result: test sample 1-16, the antibacterial effect of control sample 1-2 are as shown in table 3.

The antibacterial effect of 3 test sample 1-16 of table, control sample 1-2

As shown in Table 3, test sample 1-16 all has preferably staphylococcus aureus, Bacillus typhosus, Escherichia coli Fungistatic effect, and then occur more bacterial plaque on control sample 1-2, bacteriostasis rate is poor.Above-mentioned additional symbols: different faces Material selection and different to the processing mode of fabric, different to component used by fabric processing, finally all can be to test specimen Antibacterial ability cause different degrees of influence.

Test two: automatically cleaning test

Test specimen: embodiment 1-17 is chosen as test sample 1-17, chooses comparative example 1-3 as control sample 1-3.

Test method: it takes 20 groups of 20ml with money hero's board ink respectively, is poured into test sample 1-17, the control of white respectively In sample 1-3, then using being wiped with money heart chief minister's seal paper handkerchief, until test sample 1-17, control sample 1-3 dry tack free, see Examine the test sample 1-17 after drying, whether the surface control sample 1-3 has the marking of residual ink, record and analyze.

Test result: test sample 1-17, the self-cleaning ability of control sample 1-3 are as shown in table 4.

The self-cleaning ability of 4 test sample 1-17 of table, control sample 1-3

Test specimen	Whether the ink marking is had	Test specimen	Whether the ink marking is had
				Test sample 1	The ink marking is very light	Test sample 11	Inkless watermark note
Test sample 2	Inkless watermark note	Test sample 12	Inkless watermark note
				Test sample 3	Inkless watermark note	Test sample 13	Inkless watermark note
Test sample 4	Inkless watermark note	Test sample 14	Inkless watermark note
				Test sample 5	Inkless watermark note	Test sample 15	Inkless watermark note
Test sample 6	Inkless watermark note	Test sample 16	Inkless watermark note
				Test sample 7	Inkless watermark note	Test sample 17	Inkless watermark note
Test sample 8	Inkless watermark note	Control sample 1	The ink marking is deeper
				Test sample 9	Inkless watermark note	Control sample 2	The ink marking is deeper
Test sample 10	Inkless watermark note	Control sample 3	The ink marking is deeper

As shown in Table 4, the surface of test sample 1-16, the marking of residual ink, it is excellent not illustrate that test sample 1-16 has Hydrophobicity and self-cleaning ability, and use test sample 3 production obtain eiderdown quilt similarly have excellent hydrophobicity with And self-cleaning ability, it is not easy by ink bleed and is not easy the colored pigment in residual ink.And in control sample 1-3, due to it The material of selection and technologic gap cause the fabric finally obtained to be difficult to reach hydrophobic and self-cleaning effect, are easy By ink bleed and cause ink residue.

Test three: heat preservation test

Test specimen: embodiment 1-17 is chosen as test sample 1-17, chooses comparative example 1-3 as control sample 1-3.

Test method: it is tested in the environment that temperature is 25 DEG C, humidity is 65%RH.At the same time, every kind of test Sample respectively takes the specification of 3 pieces of 1.8m*2m, and one of middle ice cream for placing -5 DEG C is wrapped respectively with test specimen；One piece The middle cover glass cup placed storage and have 0 DEG C of mixture of ice and water, is wrapped respectively with test specimen；Storage is placed in one piece to be had The cover glass cup of 37 DEG C of warm water is wrapped respectively with test specimen.After storing 1hr in this context, then respectively to every kind The temperature for the article that test specimen is wrapped up is tested, and recording and analyzing the temperature difference to be formed, (temperature-after 1hr is original Temperature difference).

Test result: test sample 1-17, the heat insulation effect of control sample 1-3 are as shown in table 5.

The heat insulation effect of 5 test sample 1-17 of table, control sample 1-3

As shown in Table 5, test sample 1-16, control sample 1-2 are fabric, and test sample 17, control sample 3 are then eiderdown quilt 4.Examination It tests in sample 1-16, p- 5 DEG C of ice cream, 0 DEG C of mixture of ice and water, 37 DEG C of warm water all have preferable heat insulation effect, and -5 DEG C Ice cream, the temperature ascensional range of 0 DEG C of mixture of ice and water it is smaller, it is smaller that the temperature of 37 DEG C of warm water reduces amplitude.It compares Compared with test sample 1-16, more preferably, reason is wherein not only to be added to two layers of test sample 3 heat insulation effect of test sample 17, and also increases Add down layer 41, further reduced the dissipation of heat.

It is noted that more vanillyl alcohol butyl ether is added in test sample 3, for storing the hot water for being similar to body temperature When, since hot water is loaded in the glass covered, hot gas is difficult to drift out, under the action of 3 spontaneous heating of test sample, is further dropped The heat of low warm water dissipates, and then reduces the cooling of warm water.

And in control sample 1-2, due to its own material and manufacturing process, cause heat insulation effect poor, finally makes The temperature difference at the article of three kinds of different temperatures is big.In control sample 3, although using 2 layers of control sample 1 and increasing down layer 41, but it is in disadvantage compared with the heat insulation effect of test sample 17.The additional symbols, easy pair of the heat insulation effect of fabric The heat insulation effect of eiderdown quilt 4 plays a key effect.

At the same time, from the aspect of marketplace experience sense, test sample 1-16 is than control sample 1-2 with more soft, pro-skin The real experiences sense of effect, test sample 17 will be substantially better than the real experiences sense of control sample 3.

This specific embodiment is only explanation of the invention, is not limitation of the present invention, those skilled in the art Member can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but as long as at this All by the protection of Patent Law in the scope of the claims of invention.

Claims (9)

1. a kind of antibacterial heat-preservation clothing material, which is characterized in that including high density chemical fibre tissue layer (1) and be set in turn in densification The insulating layer (2) and antibiotic layer (3) of fine tissue layer (1) outer surface；The antibiotic layer (3) is coated by antimicrobial mixtures, institute Insulating layer (2) is stated to be coated by incubation mixture；

The antimicrobial mixtures include the component of following parts by weight:

33-50 parts of styrene analog thermoplastic elastomer；

0.5-1.2 parts of hydroxymethyl phenyl phosphinic acids；

0.5-1 parts of nano silver；

The incubation mixture includes the component of following parts by weight:

1.3-3.2 parts of vanillyl alcohol butyl ether；

5.5-8.9 parts of nano-organosilicon fabric softening agent；

35-50 parts of solvent；The solvent includes at least one of water, ethylene glycol.

2. a kind of antibacterial heat-preservation clothing material according to claim 1, which is characterized in that further include weight in the antimicrobial mixtures Measure the nano-titanium dioxide that number is 1.6-2.8 parts.

3. a kind of antibacterial heat-preservation clothing material according to claim 1, which is characterized in that further include weight in the antimicrobial mixtures Measure the 2- carboxyethyl phenyl hypophosphorous acid that number is 2.5-3.2 parts.

4. a kind of antibacterial heat-preservation clothing material according to claim 1, which is characterized in that in the incubation mixture, using weight The nano-organosilicon fabric that the polyethylene emulsion softening agent replacement parts by weight that amount number is 6.3-6.8 parts are 5.5-8.9 parts is soft Soft dose.

5. a kind of antibacterial heat-preservation clothing material according to claim 1, which is characterized in that in the incubation mixture, using weight Measuring number is 2.3-3.5 parts of nano-organosilicon fabric softening agent and 1.8-2.5 parts of polyethylene emulsion softening agent, replaces weight The nano-organosilicon fabric softening agent that number is 5.5-8.9 parts.

6. a kind of antibacterial heat-preservation clothing material according to claim 1, which is characterized in that the high density chemical fibre tissue layer (1) For polyester layer or layer of polyester fiber, yarn count density is 250-290T.

7. a kind of manufacturing process of antibacterial heat-preservation clothing material described in any one of claim 1-6, which is characterized in that including such as Lower step:

Step 1, pretreatment: high density chemical fibre tissue layer (1) being soaked in inorganic agent and handles 10-15min, is taken out and in 40- Dry 15-25min, high density chemical fibre tissue layer (1) after being pre-processed under conditions of 50 DEG C；

According to parts by weight, by styrene analog thermoplastic elastomer, hydroxymethyl phenyl phosphinic acids, nano silver, nano-titanium dioxide, 2- carboxyethyl phenyl hypophosphorous acid is sufficiently mixed, then is melted, and antimicrobial mixtures are obtained；

According to parts by weight, vanillyl alcohol butyl ether, nano-organosilicon fabric softening agent, solvent, polyethylene emulsion softening agent are carried out It is sufficiently mixed, obtains incubation mixture；

The incubation mixture obtained in step 1 is evenly applied to after pre-processing in high density chemical fibre tissue layer (1) by step 2, 30-60min is stood, then dries 20-30min under conditions of being placed in 60-80 DEG C, obtains first product fabric；

Step 3, the table for the first product fabric that the antimicrobial mixtures obtained in step 1 are evenly applied to obtain in step 2 Face, after natural drying, dry 10-15min, obtains antibacterial heat-preservation clothing material at a temperature of being placed in 40-55 DEG C；

The inorganic agent is Gemini surface active aqueous solution, and the surface Gemini is living in Gemini surface active aqueous solution Property agent concentration be 25-33%.

8. a kind of manufacturing process of antibacterial heat-preservation clothing material according to claim 7, which is characterized in that in the step 1, When high density chemical fibre tissue layer (1) is soaked in inorganic agent, while using ultrasonication.

9. a kind of eiderdown quilt using antibacterial heat-preservation clothing material described in any one of claim 1-8, which is characterized in that including Housing (43), inner core cover (42) and down layer (41), the housing (43) and inner core cover (42) are all made of institute in claim 1-8 The antibacterial heat-preservation clothing material stated sews, and down layer (41) is sutured in inside；The housing (43) and inner core cover (42) are stitched Together in one.