CN202658326U - Structure of unilateral moisture absorption and sweat removal fabric - Google Patents

Abstract

The utility model relates to a structure of a unilateral moisture absorption and sweat removal fabric. The structure comprises a first artificial fiber and a second artificial fiber, wherein the first artificial fiber and the second artificial fiber are staggered to form a first surface and a second surface; the second artificial fiber forms a plurality of slight convex structures on the second surface in contact with skin; the first artificial fiber is arranged on a concave part among the slight convex structures; and water of the second surface is absorbed by the first artificial fiber on the concave part and is conveyed to the first surface, so that a dry, cool and non-sticky effect is achieved.

Description

The structure of one-way hygroscopic sweat-discharging fabric

Technical field

The utility model relates to a kind of fabric construction, particularly a kind of structure of one-way hygroscopic sweat-discharging fabric.

Background technology

On the fabric field, " moisture absorbing and sweat releasing " is to instigate not that the hydrophilic fabric of tool has water imbibition and quick-drying simultaneously.In general, no matter be that natural fabric or artificial synthetic fiber are difficult to have concurrently simultaneously this two kinds of performances.Artificial fibre-polyester fiber (Polyester) of for example commonly using, its moisture content is low, hydrophily is poor, causes the cloth hygroscopicity not good.

Moisture Absorption ﹠ Sweat Releasing Fabric can utilize following several technology to make on the market now, comprises: superfine fibre, section fiber, the little porous fibre of hollow and fiber surface upgrading.Usually hygroscopic sweat-discharging fabric is widely used in the field of motion or outdoor leisure, sweat must spread at cloth very rapidly, it is larger and promote greatly the quick-drying effect that diffusion area is got over ambassador's disengagement area, thus these clothes also more general cloth more quick-drying functional is arranged.

In the prior art, this class cloth is to make fiber through the weft yarn end user, weave the processing of recycling hydrophily after finishing and make originally not hydrophilic monoblock cloth tool moisture-absorption characteristics, sweat and on cloth diffusion make its tool quick-drying effect, but (interior outside diffusion area is identical) spread on the top layer simultaneously when these clothes spread in cloth because of sweat with internal layer, so that the inboard sweat that stops makes cloth viscid on skin, and make the wearer have discomfort.

Summary of the invention

Main purpose of the present utility model is to provide a kind of Structure Method of one-way hygroscopic sweat-discharging fabric, and the structure of this cloth is dry and comfortable not viscid.

Be the purpose of taking off before reaching, the utility model provides a kind of structure of one-way hygroscopic sweat-discharging fabric, and it comprises: one first artificial fibre, the surface of this first artificial fibre are inhaled and are soaked hygroscopic agent; And one second artificial fibre, the surface of this second artificial fibre is inhaled and is soaked or be coated with dryingagent, wherein this first artificial fibre and this second artificial fibre interlock and form a first surface and a second surface, this second artificial fibre forms a plurality of microprotrusion structures in this second surface of contact skin, recess between described a plurality of microprotrusion structure has this first artificial fibre, and this of this recess the first artificial fibre absorbs the water of this second surface and is delivered to this first surface.

Wherein, this first artificial fibre is Polyethyleneglycol Terephthalate, polyamide fiber or cation dyeable copolyester.

Wherein, this second artificial fibre is Polyethyleneglycol Terephthalate, polyamide fiber or cation dyeable copolyester.

Wherein, this hygroscopic agent is the hydrophilic resin, and is polyacrylate, polyacrylonitrile hydrolyzed compound, vinyl acetate co-polymer or polyvinyl alcohol.

Wherein, this dryingagent is siloxy group dryingagent, the agent of C6 fluouine water extraction, the agent of C8 fluouine water extraction or floride-free plain dryingagent.

Wherein, this microprotrusion structure is formed by the double-sided cloth weave.

Wherein, this microprotrusion structure comprises a lug boss and a basal part, this lug boss is raised in this second surface and contacts skin, and this basal part and this first artificial fibre are staggered, and the surface that this hygroscopic agent is soaked in the suction of this first artificial fibre is delivered to this first surface with sweat by this second surface.

Wherein, in this first surface, the surface area that the surface of this hygroscopic agent is soaked in the suction of this first artificial fibre soaks or is coated with the surface area on the surface of this dryingagent greater than the suction of this second artificial fibre, and the water that makes this second surface fast via this hygroscopic agent surface diffusion into the surface of this first artificial fibre in this first surface, and then make water be expelled to this first surface and reach by this second surface fast to be spread in this first surface.

Wherein, after this second artificial fibre is inhaled in advance and is soaked or be coated with this dryingagent, this first artificial fibre and suction are soaked or this second artificial fibre of being coated with this dryingagent is processed via dyeing and this hygroscopic agent jointly, and the suction of this second artificial fibre is soaked or any this hygroscopic agent is not adsorbed on the surface that is coated with this dryingagent.

In one embodiment, the structure of one-way hygroscopic sweat-discharging fabric of the present utility model, it comprises one first artificial fibre and one second artificial fibre.The thermoplasticity fibers such as the optional autopolyester of material, polyamide, the first artificial fibre can be identical material with the second artificial fibre.This first artificial fibre is the general fiber that soaks or be coated with dryingagent without suction.And this second artificial fibre surface suction is soaked or be coated with dryingagent.This first artificial fibre (comprising warp thread and the first weft yarn) interlocks with this second artificial fibre (the second weft yarn) and forms a first surface and a second surface, this second artificial fibre forms a plurality of microprotrusion structures in this second surface of contact skin, recess between described a plurality of microprotrusion structure has the first artificial fibre of first surface, utilizes the capillary siphonage of the first artificial fibre of recess to absorb the sweat of this skin and be delivered to this first surface.And utilize described a plurality of microprotrusion structure (the second artificial fibre of tool drying effect) that skin and the second surface that has absorbed sweat are separated, to reach dry and comfortable not viscid and effect that sweat does not bleed back.

The manufacture method of one-way hygroscopic sweat-discharging fabric of the present utility model, it is characterized in that general do not inhale this first artificial fibre of soaking or be coated with dryingagent and inhaling this second artificial fibre that soaks or be coated with dryingagent and interlock and form a first surface and a second surface, after then the first artificial fibre and the second artificial fibre are processed via hygroscopic agent, this second artificial fibre forms a plurality of microprotrusion structures in this second surface of contact skin, described a plurality of microprotrusion structure is to be soaked or the second artificial fibre of being coated with dryingagent is consisted of by suction, recess between described a plurality of microprotrusion structure has the first artificial fibre of first surface, utilizes the thin siphonage of the first artificial fiber hair of recess to absorb the sweat of this skin and be delivered to this first surface.And utilize described a plurality of microprotrusion structure (the second artificial fibre of tool drying effect) that skin and the second surface that has absorbed sweat are separated, to reach dry and comfortable not viscid and effect that sweat does not bleed back.

The structure of one-way hygroscopic sweat-discharging fabric of the present utility model is not only had a hydroscopic fast-drying function, and can be fast that sweat is outer and not bleed back from body surface guiding cloth, and then reaches dry and comfortable not viscid effect.

In one embodiment, difference by two sides structure in the table of simple layer cloth and character characteristic, and can be become by the mutual access node of warp thread weft yarn the cloth matter structure of one-way moisture absorbing and sweat releasing, make the sweat of second surface be delivered to rapidly first surface and quickly diffuse on the large tracts of land of first surface.

Above summarize quite widely technical characterictic of the present utility model, obtained better understanding so that the utility model is hereinafter described in detail.Other technical characterictic that consists of claim target of the present utility model will be described in hereinafter.Have in the technical field under the utility model and know that usually the knowledgeable should be appreciated that, can quite easily utilize the concept that hereinafter discloses to can be used as modification with specific embodiment or design other structure or processing procedure and realize the purpose identical with the utility model.Have in the technical field under the utility model and know that usually the knowledgeable also should be appreciated that, this class equivalence construction can't break away from the spirit and scope of the present utility model that appending claims defines.

Description of drawings

Fig. 1 is shown as the schematic diagram of one-way hygroscopic sweat-discharging fabric of the present utility model;

Fig. 2 is shown as the generalized section of Fig. 1 hatching 1-1;

Fig. 3 is shown as the generalized section of another hatching;

Fig. 4 is shown as the generalized section of Fig. 1 hatching 2-2;

Fig. 5 shows the moisture content of experimental group of the present utility model (a) and the schematic diagram of time;

Fig. 6 shows the moisture content of control group of the present utility model (b) and the schematic diagram of time;

Fig. 7 shows the moisture content of experimental group of the present utility model (c) and the schematic diagram of time;

Fig. 8 shows the moisture content of control group of the present utility model (d) and the schematic diagram of time; And

Fig. 9 shows the schematic diagram of the EXPERIMENTAL EXAMPLE of cloth of the present utility model and blotting paper.

Wherein, description of reference numerals is as follows:

10 one-way hygroscopic sweat-discharging fabrics

11 second surfaces

12 second surfaces

13a blotting paper

13b blotting paper

21 weft yarns

22 weft yarns

23 warp thread

24 microprotrusion structures

241 lug bosses

242 basal parts

25 recesses

30 skins

The specific embodiment

The utility model is one-way hygroscopic sweat-discharging fabric structure and manufacture method thereof in this direction of inquiring into.In order to understand up hill and dale the utility model, detailed step and structure will be proposed in following description.Apparently, execution of the present utility model is not defined in the specific details that the skill person of association area has the knack of.On the other hand, well-known structure or step are not described in the details, with the restriction of avoiding causing the utility model unnecessary.Preferred embodiment meeting of the present utility model is described in detail as follows, yet except these were described in detail, the utility model can also be implemented in other embodiments widely, and scope of the present utility model circumscribed not, and it is as the criterion with appended claim.

Consult shown in Figure 1ly, one-way hygroscopic sweat-discharging fabric 10 is interwoven by warp thread and weft yarn.One-way hygroscopic sweat-discharging fabric 10 comprises the second surface 11 that contacts skin and corresponding first surface 12 thereof.In this embodiment, the warp thread of one-way hygroscopic sweat-discharging fabric 10 and weft yarn can be made of the first artificial fibre and the second artificial fibre respectively.The surface suction of the first artificial fibre is soaked or is coated with hygroscopic agent, and therefore the first artificial fibre will have absorptive characteristic, and the surface-coated dryingagent of the second artificial fibre, therefore the second artificial fibre will have the characteristic of repellency.In other embodiments, the first artificial fiber surface is the general artificial fibre that soaks or be coated with dryingagent without suction, the cloth that the first artificial fibre and the second artificial fibre can be interwoven, inhale again after this cloth is dyed and soak hygroscopic agent (hydrophily processing), therefore the first artificial fibre will have absorptive characteristic, and the second artificial fibre surface has been inhaled before interweaving and is soaked or be coated with dryingagent, cloth adds man-hour through dyeing and hydrophily, do not affect the drying effect of the second artificial fibre, therefore the second artificial fibre will have the characteristic of repellency.Particularly, in manufacture process, after the second artificial fibre is coated with dryingagent in advance, this first artificial fibre and this second artificial fibre that is coated with this dryingagent then jointly are infiltrated in the hygroscopic agent and carry out moisture absorption and process, but because anticipate on the dryingagent surface of the second artificial fibre, therefore hygroscopic agent can't adhere to or be adsorbed on the surface of the second artificial fibre, therefore the second artificial fibre is still kept the characteristic of repellency.In addition, the intensity of the first artificial fibre and the second artificial fibre is from 2g/D (red Buddhist nun) to 40g/D (red Buddhist nun), and specification is from 15D (red Buddhist nun) to 2000D (red Buddhist nun).

In the one-way hygroscopic sweat-discharging fabric 10 as shown in Figure 1, the first artificial fibre and the second artificial fibre can be selected from the thermoplasticity artificial fibres such as Polyethyleneglycol Terephthalate (PET), polyamide fiber (Polyamide) and cation dyeable copolyester (CATIONIC DYEABLE POLYESTER).Hygroscopic agent then is the hydrophilic resin, and wherein the hydrophilic resin is optional from polyacrylate, polyacrylonitrile hydrolyzed compound, vinyl acetate co-polymer and polyvinyl alcohol.Particularly, Polyethyleneglycol Terephthalate and cation dyeable copolyester are to process with polynary ester resin, and polyamide fiber then can be processed with nonionic water-wash resistance water-absorbing resins.In addition, dryingagent is selected from siloxy group (Silicone-based) dryingagent, fluorine carbon is dryingagent (for example, C4 fluouine water extraction agent, the agent of C6 fluouine water extraction, the agent of C8 fluouine water extraction) and floride-free plain dryingagent.

Fig. 2 is that Fig. 1 is along hatching 1-1.With reference to Fig. 1 and Fig. 2, the weft yarn 21 of the second artificial fibre is positioned on the second surface 11 near skin 30, in this embodiment, weft yarn 22 and the warp thread 23 of first surface 12 all are made of the first artificial fibre, and therefore bibulous the first artificial fibre mainly is distributed on the first surface 12.In addition, when Fig. 3 is presented at another section (not shown), the annexation of the weft yarn 21 of warp thread 23 and the second artificial fibre.

One-way hygroscopic sweat-discharging fabric 10 of the present utility model is mainly formed by double-sided cloth (double face) weave, and therefore as shown in Figure 4, microprotrusion structure 24 also is to be formed by the double-sided cloth weave.This microprotrusion structure 24 is made of the second artificial fibre.In other words, the second artificial fibre forms a plurality of microprotrusion structures 24 in this second surface 11 of contact skin 30, because the surface-coated dryingagent of the second artificial fibre, therefore this first artificial fibre of the bottom of the recess 25 between described a plurality of microprotrusion structures 24 and recess 25 absorbs the water of this second surface 11 and is delivered to this first surface 12.And utilize described a plurality of microprotrusion structure 24 that skin 30 and second surface 11 are separated, to reach dry and comfortable not viscid and effect that sweat does not bleed back.

Fig. 4 is the hatching 2-2 schematic diagram of Fig. 1.Such as Fig. 4 and shown in Figure 1, microprotrusion structure 24 comprises a lug boss 241 and a basal part 242, this lug boss 241 is raised in this second surface 11 and contacts skin 30, this basal part 242 is staggered with the warp thread 23 of this first artificial fibre, the thin syphon structure that consists of of the first artificial fiber hair of this tool hydrophily hygroscopic agent is delivered to this first surface 12 with sweat by this second surface 11, and therefore fabric construction of the present utility model can reach the function of one-way moisture absorbing and sweat releasing.

In addition, in first surface 12, because this hygroscopic agent surface of the first artificial fibre of tool hydrophily moisture absorption is greater than this dryingagent surface of the second artificial fibre, and make the sweat that is delivered to this second surface 11 can be fast via this hygroscopic agent surface diffusion into the surface of this first artificial fibre in this first surface 12, and then make sweat be expelled to first surface 12 by second surface 11 fast, and reach and be spread in first surface 12 and the function of quick-drying.And utilize described a plurality of microprotrusion structure 24 that skin 30 and second surface 11 are separated, to reach dry and comfortable not viscid and effect that sweat does not bleed back.

In addition, the utility model also provides a kind of manufacture method of one-way hygroscopic sweat-discharging fabric, it is characterized in that the first artificial fibre is for soaking or be coated with the artificial fibre of dryingagent without suction; And this second artificial fibre surface suction is soaked or be coated with dryingagent.This first artificial fibre and this second artificial fibre are staggered and form the cloth of a first surface and a second surface, this second artificial fibre forms a plurality of microprotrusion structures in this second surface of contact skin, utilize the first artificial fibre of the first surface that recess has between described a plurality of microprotrusion structure, utilize the capillary syphon structure of the first artificial fibre of the tool hydrophily hygroscopic agent of recess to absorb the sweat of this second surface and be delivered to this first surface, utilize simultaneously described a plurality of microprotrusion structure that skin and second surface are separated, to reach dry and comfortable not viscid and effect that sweat does not bleed back.

In addition, the utility model also provides a kind of manufacture method of one-way hygroscopic sweat-discharging fabric, it is characterized in that this second artificial fibre that is coated with this first artificial fibre of hygroscopic agent and is coated with dryingagent is staggered and form a first surface and a second surface, this second artificial fibre forms a plurality of microprotrusion structures in this second surface of contact skin, recess between described a plurality of microprotrusion structure has this first artificial fibre, and this of this recess the first artificial fibre absorbs the water of this second surface and is delivered to this first surface.

Moreover, the utility model provides a kind of manufacture method of one-way hygroscopic sweat-discharging fabric in addition, it is characterized in that the second artificial fibre without the first artificial fibre and the impregnation of processing or coating dryingagent interlocks and forms a cloth, again dyed and hydrophily processing, make hygroscopic agent be attached to the first artificial fibre, make the first artificial fibre tool hygroscopicity, wherein the processing of dyeing and hydrophily does not affect the hydrophobic effect of the second artificial fibre, this first artificial fibre of coating hygroscopic agent interlocks with this second artificial fibre that is coated with dryingagent and forms a second surface and a second surface, this second artificial fibre forms a plurality of microprotrusion structures in this second surface of contact skin, this dryingagent surface of described a plurality of microprotrusion structures forms at least one capillary syphon structure, and described at least one capillary syphon structure absorbs the sweat of this second surface and is delivered to this first surface.

Nominal definition:

One-way: be illustrated in the upper hydrone of macroscopic view and be the ratio to surpass 50%, carried toward another place by a place, therefore be referred to as unidirectional, can be with reference to the definition of unidirectional biography outlet capacity.

The moistening time of upper strata/lower floor (Wetting Time-Top/Bottom): touch fabric face from liquid, begin to absorb the required time of moisture to fabric.The timing definition that fabric begins to absorb moisture is the time when occurring for the first time slope more than or equal to tan15 ° on the relation curve of moisture content and time.

The side of contact top current inductor when it refers at the middle and upper levels test sample book and is positioned over instrument; Lower floor is the side of the test sample book time contact below current inductor that is placed on instrument.When actual dress or use, the upper strata also is called conducting shell for the one side of contact skin, and lower floor is outside front, also is called absorbed layer.

Upper strata/lower floor's rate of water absorption (Absorbtion Rate-Top/Bottom): the increment rate of fabric unit interval moisture.Be in the testing time at the moisture content change curve, the slope mean value of moisture content change curve.

The maximum radius of wetted bulb (Maximum Wetted Radius-Top/Bottom) in upper strata/lower floor: fabric begins moistening humidification zones maximum radius when stopping to experimental period.The maximum radius of humidification zones when in plot of water cut, slope occurring for the first time and finish to the testing time more than or equal to tan15 ° from slope of a curve.

Upper strata/lower floor's diffusion velocity (Spreading Speed-Top/Bottom): when being diffused into maximum radius of wetted bulb after fabric face is moistening along the accumulation conduction of velocity of radial direction aqueous water.

Unidirectional biography outlet capacity (Accumulative One-Way Transport Capability): aqueous water is transmitted to the ability on absorbed layer (top layer, outside) from fabric conducting shell (skin surface or nexine).Represent with the difference of the fabric two sides water absorption ratio with the testing time.

Embodiment:

Experimental group (a) is cloth of the present utility model with experimental group (c), and (b) is the control group of experimental group (a) in addition, (d) is the control group of experimental group (c).Experimental group and control group difference are as follows:

The fabric construction of experimental group (a) comprises the first artificial fibre and the second artificial fibre.The first artificial fiber surface infiltrates hygroscopic agent, and dryingagent is soaked in the second artificial fibre surface-coated or suction.Wherein the second surface of fabric construction contact skin forms a plurality of microprotrusion structures (comprising the second artificial fibre).

Its yarn count material of the fabric construction of control group (b), red Buddhist nun, fiber number, weave are all identical with experimental group (a), but fabric fibre was not all done first coating or inhaled and soak dryingagent.Wherein the second surface of fabric construction contact skin forms a plurality of microprotrusion structures.

The fabric construction of experimental group (c) comprises the first artificial fibre and the second artificial fibre.The first artificial fiber surface infiltrates hygroscopic agent, and dryingagent is soaked in the second artificial fibre surface-coated or suction.Wherein the second surface of fabric construction contact skin there is no and forms microprotrusion structure (comprising the second artificial fibre).

Its yarn count material of the fabric construction of control group (d), red Buddhist nun, fiber number, weave are all identical with experimental group (c), but fabric fibre was not all done first coating or inhaled and soak dryingagent.Wherein the second surface of fabric construction contact skin there is no and forms the microprotrusion structure.

Above-mentioned various fabric constructions are tested by the test macro (United States Patent (USP) certificate number 6,499,338) of The Hong Kong Polytechnic University exploitation and obtain each other moisture content and coordinate diagram of time.

Fig. 5 shows the moisture content (%) of experimental group (a) and the coordinate diagram of time (second).Fig. 6 shows the moisture content (%) of control group (b) and the coordinate diagram of time (second).Fig. 7 shows the moisture content (%) of experimental group (c) and the coordinate diagram of time (second).Fig. 8 shows the moisture content (%) of control group (d) and the coordinate diagram of time (second).Comparison diagram 5 and Fig. 6 to Fig. 8, in coordinate diagram, the area between upper strata and the lower floor is that Fig. 5 is maximum, and Fig. 8 is minimum, the unidirectional biography outlet capacity that therefore also can understand easily Fig. 5 embodiment is maximum; And the unidirectional biography outlet capacity of Fig. 8 embodiment is minimum.The embodiment comparison sheet arrangement of Fig. 5 to Fig. 8 is as follows:

General unidirectional biography outlet capacity numerical value can assert more than 200 that approximately fabric construction has the function that moisture can be conducted to lower floor by the upper strata " unidirectional " of fabric construction.In case therefore fabric construction does not possess coating or inhales when soaking the artificial fibre of dryingagent, for example the unidirectional biography outlet capacity of control group (b), (d) is all less than 200.Yet comparative experiments group (a) can find (c) time, has coating or inhale the artificial fibre that soaks dryingagent really to promote unidirectional biography outlet capacity, if but when a plurality of microprotrusion structure was arranged, unidirectional biography outlet capacity more can significantly promote.

Such as Fig. 9, with the second surface (contact skin surface) of water droplet in one-way hygroscopic sweat-discharging fabric 10 of the present utility model, after cloth 10 absorbs moisture content, utilize blotting paper 13a, 13b (blotting paper) contacts respectively cloth 10 first surfaces and second surface, the blotting paper 13a that finds the contact first surface is wetted, the blotting paper 13b of contact second surface then is still dry, expression is dripped in the water droplet of cloth second surface (contact skin surface), is conducted to first surface by cloth 10.Further checking cloth of the present utility model is not only had a hydroscopic fast-drying function, and can be fast that sweat is outer and not bleed back from body surface guiding cloth, and then reaches dry and comfortable not viscid effect.

So following main effect of the utility model tool:

The sweat that human body is discharged is discharged body surface fast;

The sweat of discharging does not bleed back body surface;

Effectively reduce fabric because of absorbing sweat after with the viscosity of skin and improve dry and comfortable property;

Wear when air-dry contactlessly because of the sweat on body surface and the fabric, health more can not feel ice-cold when evaporation of perspiration or when entering the cold air room.

Technology contents of the present utility model and technical characterstic have disclosed as above, yet have in the technical field under the utility model and know that usually the knowledgeable should be appreciated that, in the utility model spirit and scope that attached claim defines after not deviating from, teaching of the present utility model and announcement can be done all replacements and modification.For example, the many processing procedures that above disclose can diverse ways be implemented or are replaced with other processing procedure, perhaps adopt the combination of above-mentioned two kinds of modes.

In addition, the interest field of this case is not limited to above processing procedure, board, the manufacturing of the specific embodiment that discloses, composition, device, method or the step of material.Have in the technical field under the utility model and know that usually the knowledgeable should be appreciated that, based on the utility model teaching and disclose composition, device, method or the step of processing procedure, board, manufacturing, material, no matter existed now or developer in the future, it carries out the identical function of essence with this case embodiment announcement person in the identical mode of essence, and reach the identical result of essence, also can be used in the utility model.Therefore, following claim is in order to contain composition, device, method or the step in order to this type of processing procedure, board, manufacturing, material.

Claims (10)

1. the structure of an one-way hygroscopic sweat-discharging fabric is characterized in that, comprises:

One first artificial fibre, the surface of this first artificial fibre are inhaled and are soaked hygroscopic agent; And

One second artificial fibre, the surface of this second artificial fibre is inhaled and is soaked or be coated with dryingagent, wherein this first artificial fibre and this second artificial fibre interlock and form a first surface and a second surface, this second artificial fibre forms a plurality of microprotrusion structures in this second surface of contact skin, recess between described a plurality of microprotrusion structure has this first artificial fibre, and this of this recess the first artificial fibre absorbs the water of this second surface and is delivered to this first surface.

2. structure according to claim 1 is characterized in that, this first artificial fibre is Polyethyleneglycol Terephthalate, polyamide fiber or cation dyeable copolyester.

3. structure according to claim 1 is characterized in that, this second artificial fibre is Polyethyleneglycol Terephthalate, polyamide fiber or cation dyeable copolyester.

4. structure according to claim 1 is characterized in that, this hygroscopic agent is the hydrophilic resin.

5. structure according to claim 4 is characterized in that, this hydrophilic resin is polyacrylate, polyacrylonitrile hydrolyzed compound, vinyl acetate co-polymer or polyvinyl alcohol.

6. structure according to claim 1 is characterized in that, this dryingagent is siloxy group dryingagent, the agent of C6 fluouine water extraction, the agent of C8 fluouine water extraction or floride-free plain dryingagent.

7. structure according to claim 1 is characterized in that, this microprotrusion structure is formed by the double-sided cloth weave.

8. structure according to claim 1, it is characterized in that, this microprotrusion structure comprises a lug boss and a basal part, this lug boss is raised in this second surface and contacts skin, this basal part and this first artificial fibre are staggered, and the surface that this hygroscopic agent is soaked in the suction of this first artificial fibre is delivered to this first surface with sweat by this second surface.

9. structure according to claim 1, it is characterized in that, in this first surface, the surface area that the surface of this hygroscopic agent is soaked in the suction of this first artificial fibre soaks or is coated with the surface area on the surface of this dryingagent greater than the suction of this second artificial fibre, and the water that makes this second surface fast via this hygroscopic agent surface diffusion into the surface of this first artificial fibre in this first surface, and then make water be expelled to this first surface and reach by this second surface fast to be spread in this first surface.

10. structure according to claim 1, it is characterized in that, after this second artificial fibre is inhaled in advance and is soaked or be coated with this dryingagent, this first artificial fibre and suction are soaked or this second artificial fibre of being coated with this dryingagent is processed via dyeing and this hygroscopic agent jointly, and the suction of this second artificial fibre is soaked or any this hygroscopic agent is not adsorbed on the surface that is coated with this dryingagent.

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