CN107083603A - A kind of fabric and application thereof - Google Patents
A kind of fabric and application thereof Download PDFInfo
- Publication number
- CN107083603A CN107083603A CN201710221441.8A CN201710221441A CN107083603A CN 107083603 A CN107083603 A CN 107083603A CN 201710221441 A CN201710221441 A CN 201710221441A CN 107083603 A CN107083603 A CN 107083603A
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- China
- Prior art keywords
- fabric
- nexine
- yarn
- top layer
- profiled
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Classifications
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- D—TEXTILES; PAPER
- D03—WEAVING
- D03D—WOVEN FABRICS; METHODS OF WEAVING; LOOMS
- D03D11/00—Double or multi-ply fabrics not otherwise provided for
-
- D—TEXTILES; PAPER
- D03—WEAVING
- D03D—WOVEN FABRICS; METHODS OF WEAVING; LOOMS
- D03D13/00—Woven fabrics characterised by the special disposition of the warp or weft threads, e.g. with curved weft threads, with discontinuous warp threads, with diagonal warp or weft
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- D—TEXTILES; PAPER
- D03—WEAVING
- D03D—WOVEN FABRICS; METHODS OF WEAVING; LOOMS
- D03D15/00—Woven fabrics characterised by the material, structure or properties of the fibres, filaments, yarns, threads or other warp or weft elements used
- D03D15/40—Woven fabrics characterised by the material, structure or properties of the fibres, filaments, yarns, threads or other warp or weft elements used characterised by the structure of the yarns or threads
- D03D15/44—Woven fabrics characterised by the material, structure or properties of the fibres, filaments, yarns, threads or other warp or weft elements used characterised by the structure of the yarns or threads with specific cross-section or surface shape
-
- D—TEXTILES; PAPER
- D03—WEAVING
- D03D—WOVEN FABRICS; METHODS OF WEAVING; LOOMS
- D03D15/00—Woven fabrics characterised by the material, structure or properties of the fibres, filaments, yarns, threads or other warp or weft elements used
- D03D15/50—Woven fabrics characterised by the material, structure or properties of the fibres, filaments, yarns, threads or other warp or weft elements used characterised by the properties of the yarns or threads
- D03D15/56—Woven fabrics characterised by the material, structure or properties of the fibres, filaments, yarns, threads or other warp or weft elements used characterised by the properties of the yarns or threads elastic
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- D—TEXTILES; PAPER
- D10—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
- D10B—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
- D10B2331/00—Fibres made from polymers obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds, e.g. polycondensation products
- D10B2331/02—Fibres made from polymers obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds, e.g. polycondensation products polyamides
-
- D—TEXTILES; PAPER
- D10—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
- D10B—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
- D10B2331/00—Fibres made from polymers obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds, e.g. polycondensation products
- D10B2331/04—Fibres made from polymers obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds, e.g. polycondensation products polyesters, e.g. polyethylene terephthalate [PET]
-
- D—TEXTILES; PAPER
- D10—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
- D10B—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
- D10B2403/00—Details of fabric structure established in the fabric forming process
- D10B2403/02—Cross-sectional features
- D10B2403/023—Fabric with at least two, predominantly unlinked, knitted or woven plies interlaced with each other at spaced locations or linked to a common internal co-extensive yarn system
Abstract
The purpose of the application is to provide a kind of fabric and application thereof, wherein, the fabric is intertwined to form by multiple warp thread and multiple weft yarns, and comprising:One top layer, a nexine, the intermediate layer being arranged between top layer and nexine.The each several part of each warp thread is respectively top layer, intermediate layer, a part for nexine, and progress is shuttled and alternate cycles between top layer, intermediate layer, nexine.Also, after the weft yarn between the weft yarn in weft yarn of each warp thread in top layer, the weft yarn in intermediate layer, nexine is interweaved, the joint face and multiple three-dimensional cavitys for being used to fill eider down being interspersed are formed between top layer and nexine.Compared with the existing technology, the structure does not result in the overall thickness of fabric and differed, it is to avoid the phenomenon of fold occur, and is not in gap between adjacent two three-dimensional cavitys and makes its heat insulating ability poor.Also, the structure is caused without being obtained by the way of artificial cutting and suture, thus can greatly improve operating efficiency, and reduces cost of labor.
Description
Technical field
The invention belongs to a kind of garment material, more particularly to a kind of fabric and application thereof.
Background technology
Down jackets mostly including fabric, lining and courage material, and will be handled as one kind of traditional dress by anti-suede,
Again by dress designing, cutting and sewing, the down jackets with consumer are eventually become.
However, in the prior art, the anti-suede effect of feather dress fabric is unstable, more difficult in quality to check on, and due to equal
When on the one hand sewing is taken a lot of work, production efficiency need to be not only influenceed by sewing, and production cost is higher, another aspect pin hole
There is the problem of boring suede in position, influence wears effect.In addition, can also be using a kind of cloth for treating two panels by anti-suede
Material, is bonded into horizontal stripe, vertical bar or grid that spacing differs in size, however, when being bonded using glue, there is fastness by glue
Difference, glue it is easy to change influence outward appearance the problem of.Seamless straight fills double-layer fabric, and pre- leave of two layer segments connection can fill sky up and down
Between, insert after filler, clothes is made.
Above-mentioned fabric by stitch tight suture, or seamless double-layer fabric, along seam at without filling insulation material, or filling material
Material is extruded very thin, therefore occurs insulation weakness zone along seam, integral heat insulation effect is influenceed, while the packing material meeting such as eider down
Oozed out from sewing hole.
It is disclosed to have in terms of stereo fabric fabric, for example, mentioned in Chinese invention patent CN106192164A
A kind of stereo fabric.Intermediate layer interlocks the binding joint face that is interspersed of formation and three-dimensional cavity with outer layer, internal layer respectively, and
Each joint face includes the binding place of more than 2.So although three-layer stereo structure fabric is solved after filling, and overall thickness is not
One, along seam at the problem of make heat insulating ability inferior position because thin.But, because top layer warp thread, intermediate layer warp thread and nexine warp thread are to divide
Not independent weaving system, warp tension is difficult to control, along with intermediate layer density ratio outer layer density and internal layer density are excessively small
If, during weaving in the middle of yarn it is easily loose, be easily caused that opening is unclear, difficulty of weaving is big, and after dyeing process, intermediate layer and outer layer
Web surface is caused the problems such as out-of-flatness, fold etc. are bad easily occur with the contraction difference of internal layer.
Therefore, how to prevent stereoscopic multi-layer fabric from fold occur, it is ensured that its warmth retention property, be technology to be solved by this invention
Problem.
The content of the invention
For the shortcoming or deficiency of above-mentioned prior art, the technical problem to be solved in the present invention is to prevent stereoscopic multi-layer fabric
There is fold, it is ensured that its warmth retention property.
In order to solve the above technical problems, the invention provides a kind of fabric, being interweaved by multiple warp thread and multiple weft yarns
Formed, wherein, the fabric is included:One top layer, a nexine, the intermediate layer being arranged between the top layer and the nexine;
The each several part of each warp thread is respectively the top layer, the intermediate layer, a part for the nexine, and in the table
Carry out shuttling and alternate cycles between layer, the intermediate layer, the nexine;
Also, each warp thread with the weft yarn in the weft yarn in the top layer, the intermediate layer, the weft yarn phase in the nexine
After mutually interweaving, the joint face being interspersed is formed between the top layer and the nexine and multiple solids for being used to fill eider down are empty
Chamber.
Present invention also offers one kind fabric as made from above-mentioned fabrics, applied to home textile articles for use, clothes textile or
In fabrics for industrial use.
Compared with prior art, the present invention has the advantages that:Due to each warp thread in the fabric with its top layer,
Weft yarn in intermediate layer, nexine is interweaved, and carries out between three shuttling and alternate cycles, and top layer and nexine it
Between form the joint face being interspersed, and the space between top layer and nexine be divided into by joint face multiple be used to fill plumage
The three-dimensional cavity of suede.Therefore during woven, without individually being connected using intermediate layer or binder yarn, you can so that fabric exists
It is the stereochemical structure with multiple three-dimensional cavitys after weaving, and the joint face between three-dimensional cavity is in warp thread and intermediate layer
Weft yarn, which is interweaved, to be formed, therefore is not resulted in the overall thickness of fabric and differed, it is to avoid the phenomenon of fold, and adjacent two occur
Be not in gap between individual three-dimensional cavity and make the poor phenomenon of its heat insulating ability.Also, the structure causes need not be using artificial
The mode for cutting and suturing carries the fabric of three-dimensional cavity to obtain, and can greatly improve operating efficiency, and reduce cost of labor.
Further, in order to meet actual design requirement, the joint face is included:N number of connection unit;Wherein, the N
For the positive integer more than 1, and the warp-wise of adjacent two connection units along the fabric is connected with each other, and simultaneously respectively with it is described
Top layer and nexine connection;Also, each warp thread in the joint face is parallel to each other or intersected in each connection unit.So as to
It may be such that joint face disclosure satisfy that three layers or more than the four layers demands designed, and cause the fabric that there are multiple three-dimensional cavitys, with
Lift the warmth retention property of the fabric.
Further, it is at least a kind of in the warp thread and weft yarn of the top layer and the nexine to include by multiple abnormity fibres
Tie up silk and constitute profiled filament yarn, and accounting of the weight in the fabric of the profiled filament yarn is a default ratio, and
After the non-profiled silvalin in the profiled filament yarn and the fabric is interweaved, the covering of the top layer and the nexine
Coefficient is all higher than or equal to 1600.Because at least part is profiled filament yarn, and abnormity is fine in the warp thread and weft yarn of the fabric
Tie up the weight of yarn 5 has certain accounting in fabric, is cooperated by profiled filament yarn between non-profiled silvalin
Support, in the case where ensureing fabric intensity with regard to anti-suede effect can be reached, and because profiled filament yarn is to be by multiple sections
The profiled filament silk boundling of abnormity is formed, and profiled filament silk produces multiple irregular holes after mutual armful and winding, and
So that profiled filament yarn is more fluffy so that after warp thread and weft yarn are interweaved, arrangement between each group yarn compared with
To be close, and cause fabric compared with traditional fabric lining, it is equal through weft count under, its hole scrambling compared with
By force, and quantity is more, typically smaller than 1 μm~20 μm, the i.e. diameter less than eider down, so as to prevent eider down from being got out from fabric,
And by the predominance of hole, improve the air permeability of fabric, it is ensured that the comfortableness of fabric.
Further, in order to meet different design requirements, the coverage coefficient 2300 of the fabric.To cause fabric need not
Whether calen-dering process is used, in the case where air permeability meets certain condition, can meet the demand of anti-suede.
Further, the ratio is more than or equal to 5%.So as to can ensure that profiled filament yarn is reaching percent in fabric
When five, you can while lifting fabric anti-suede, lift the air permeability of fabric.
Further, in order to preferably while fabric anti-suede is lifted, lifting fabric that can be by a relatively large margin it is ventilative
Degree, it is preferred that the scope of the ratio is 20%~90%.
Further, as preferred, the section of the profiled filament silk is triangle, bifurcation shape, pentagon, trilobal,
In quatrefoil, five leaf, fan-shaped, cross, star font any one and combinations thereof.
Further, in order to meet different design requirements, the fiber number of the profiled filament yarn is 10D~150D, described
The fiber number of non-profiled silvalin is 10D~150D.
Further, in order to increase the void content in profiled filament yarn, and the size of single hole is reduced, the abnormity is fine
The fiber number of silk is tieed up for below 1.1 Denier.
Further, in the non-profiled silvalin at least part be elastomer yarn, and the elastomer yarn with
There is a default ratio in the quantity between non-elastic fiber yarn.Because at least part is elastomer yarn in non-profiled silvalin,
So that yarn between adjacent in fabric profiled filament yarn, elastomer yarn, non-profiled silvalin interaction
Under, arrange more close, and pass through the rebound performance of elastomer yarn so that in closely knit complementary arrangement, phase between yarn
Mutually constraint, to ensure that fabric is relatively moved in outer masterpiece with generation constantly, between yarn is difficult to, so as to further avoid fabric
Appearance part hole is excessive and produces the phenomenon for boring suede.And due to the presence of elastomeric yarn so that when eider down is extruded by the external world
During with friction, the eider down close to textile surface or nexine is extruded outwards to wear and penetrated by the repulsion and air repulsion of internal eider down
During, when touching elastomeric yarn, due to elastic reaction, rebounded by buffering, so being difficult to pass from fabric, so increase
Anti- suede performance.
Further, it is described default than being less than 95%.So as to ensure to ensure to have enough elastomer yarns in fabric
So that in closely knit complementary arrangement, mutually constraint between each yarn.
Further, as preferred, the scope of the default ratio is 10%~80%, with ensure fabric gas permeability and
Anti- suede is in preferably numerical value.
Further, the elastomer yarn is by pet fiber, polybutylene terephthalate
One kind in ester fiber, poly fiber, PTT fiber or Fypro or
It is a variety of to be constituted.
Further, the anti-chiseling down for measuring the fabric according to GB/T14272 annex E standards is less than 50.
Further, according to JISL1096:The air permeability that 2010 standards measure the fabric is more than or equal to 1cc/cm2.By
This understands, may be such that the fabric in the application in the case where that can realize anti-chiseling down, and ensures that ventilative sexual satisfaction is comfortably worn
The requirement, has larger advantage compared to common fabric.
Brief description of the drawings
By reading the detailed description made to non-limiting example made with reference to the following drawings, the application's is other
Feature, objects and advantages will become more apparent upon:
Fig. 1:The structural representation of fabric in the embodiment of the present invention 1;
Fig. 2:Structural representation when profiled filament yarn and non-profiled silvalin are interweaved in the embodiment of the present invention 1
Fig. 3:The structural representation of fabric in the embodiment of the present invention 11.
Embodiment
The technique effect of the design of the present invention, concrete structure and generation is described further below with reference to accompanying drawing, with
It is fully understood from the purpose of the present invention, feature and effect.
Following examples only express the several embodiments of the present invention, and it describes more specific and detailed, but can not
Therefore it is construed as limiting the scope of the patent.It should be pointed out that for the person of ordinary skill of the art,
On the premise of not departing from present inventive concept, various modifications and improvements can be made, these belong to protection scope of the present invention.
Therefore, the protection domain of patent of the present invention should be determined by the appended claims.
Embodiment 1:
Embodiments of the invention 1 provide a kind of fabric, as shown in figure 1, a kind of fabric, by multiple warp thread and multiple weft yarns
It is intertwined to form, wherein, fabric is included:One top layer 1, a nexine 3, the intermediate layer 2 being arranged between top layer 1 and nexine 3.
The each several part of each warp thread is respectively top layer 1, intermediate layer 2, a part for nexine 3, and on top layer 1, intermediate layer 2, inner
Shuttled and alternate cycles along different position progress between layer 3.
Also, each warp thread 10 with the phase of weft yarn 20 in the weft yarn 20 in top layer 1, the weft yarn 20 in intermediate layer 2, nexine 3
After mutually interweaving, the joint face and multiple three-dimensional cavitys 4 for being used to fill eider down being interspersed are formed between top layer 1 and nexine 3.
In summary understand, due to each warp thread 10 in the fabric with the weft yarn in its top layer 1, intermediate layer 2, nexine 3
20 are interweaved, and carry out between three shuttling and alternate cycles, and are formed and be interspersed between top layer 1 and nexine 3
Joint face (not indicated in figure), and by joint face by the space between top layer 1 and nexine 3 be divided into it is multiple be used for fill plumage
The three-dimensional cavity 4 (not indicated in figure) of suede heat insulating materials such as (or) cotton fibers.Therefore during woven, without individually use
Single fabric or binder yarn connection, you can so that fabric is the stereochemical structure with multiple three-dimensional cavitys 4 after weaving, and
Joint face between three-dimensional cavity 4 is interweaved by the weft yarn 20 in warp thread 10 and intermediate layer 2 to be formed, therefore does not result in fabric
Overall thickness differ, it is to avoid there is the phenomenon of fold, and be not in gap between adjacent two three-dimensional cavitys 4 and make it
The poor phenomenon of heat insulating ability.Also, the structure is caused without being obtained by the way of artificial cutting and suture with three-dimensional empty
The fabric of chamber 4, can greatly improve operating efficiency, and reduce cost of labor.
Specifically, in the present embodiment, in the present embodiment, as depicted in figs. 1 and 2, in order to meet actual design need
Ask, joint face is included:Multiple connection units, and (warp thread prolongs the warp-wise of adjacent two connection units along fabric in such as top layer
Stretch direction) it is connected with each other, and be connected respectively with top layer 1 and nexine 3 simultaneously.Also, each warp thread 10 in joint face is in each connection
It is parallel to each other or intersects in unit.So as to may be such that joint face meets three layers or more than the four layers demands designed, and this is knitted
Thing has multiple three-dimensional cavitys 4, to lift the warmth retention property of the fabric.In the present embodiment, as preferred, in the connection unit
Each warp thread 10 is parallel to each other, and three-dimensional cavity 4 is formed between the warp thread in top layer 1 and intermediate layer 2, between intermediate layer 2 and nexine 3
Three-dimensional cavity 4 is formed, after each warp thread 10 shuttles in top layer 1 or nexine 3, per two sections of adjacent (101 Hes as shown in Figure 1
102) it is in a default angle, and in the present embodiment, the angle is preferably 120 degree, it is clear that in the present embodiment, the angle
Can also be 60 degree, 90 degree etc., and the present embodiment is only explained as example.
In detail, as preferred mode, the warp thread 10 in the fabric in top layer 1, intermediate layer 2 and nexine 3 is using rule
Lattice are 75D-48f-DTY conventional polyester (non-profiled silvalin), and the specification of its weft yarn 20 is divided into two kinds, wherein, it is as follows
Shown in table 1, the weft yarn 1 in top layer 1, intermediate layer 2 and nexine 3 selects 75D-48f-DTY conventional polyester (non-profiled fiber
Yarn), weft yarn 2 is 75D-24f-DTY from specification and section is criss-cross terylene (profiled filament yarn).Also, top layer 1,
The assortment between weft yarn 1 and weft yarn 2 in the weft yarn 20 of intermediate layer 2 and nexine 3 is 3:1.
Wherein, the fabric is weaved using multi-arm air-jet loom, wherein, top layer 1 and nexine 3 are by warp count
101 pieces/inch, weft count is 74 pieces/inch, and intermediate layer 2 is 51 pieces/inch according to warp count, and weft count is 37
Piece/inch specification weaving fabric, and the fabric that weaves use as concise (95 DEG C of temperature) → middle sizing (180 DEG C) →
The processing such as disperse dyeing (135 DEG C of * 30min) → drying (150 DEG C) → resin processing (water repellent 30g/l) → finished product sizing
After the dyeing of → one side calendering (180 DEG C) and Final finishing processing, you can obtain the fabric.Wherein, the top layer 1 of the fabric and nexine
Warp count be 108 pieces/inch, weft count is 87 pieces/inch, and coverage coefficient is 1689.And the warp thread in intermediate layer
Density is 54 pieces/inch, and weft count is 43 pieces/inch, and coverage coefficient is 840.Also, as preferred testing standard,
According to JISL1096:It is 1.29cc/cm that 2010 standards, which measure the top layer of the fabric and the air permeability of nexine,2, and according to GB/
It is 42 that T14272 annex E standards, which measure the top layer 1 of the fabric and the anti-chiseling down of nexine 3,.
Also, can be according to actual demand so that removed in the fabric and profiled filament is used in the weft yarn of top layer and nexine
It can also be used outside yarn in the warp thread of top layer and nexine fine using abnormity in profiled filament yarn, or the weft yarn of top layer and nexine
The mode of dimension yarn realizes above-mentioned purpose.Therefore, the present embodiment using which kind of mode for not making specific limit and explanation.
In addition, as preferred, in the present embodiment, each special-shaped silvalin 5 is in top layer 1, intermediate layer 2 and nexine 3
It is equidistant in weft yarn 20 to be arranged at intervals arrangement.By using this setup, may be such that profiled filament yarn 5 in fabric
Distribution is more uniform, to cause the distribution of pores in fabric more uniform, bad to avoid causing fabric from local gas permeability occur
Phenomenon.
In addition, as preferred, in the present embodiment, non-profiled fibre is provided between two adjacent profiled filament yarns 5
Tie up yarn 6.It is larger or cause because too closely to bore because occurring hole between two adjacent non-profiled silvalins 6 so as to avoid
Suede or the less phenomenon of gas permeability.
Embodiment 2
Embodiments of the invention 2 provide a kind of fabric, the yams of the fabric provided in embodiments of the invention 2,
Structure, weaving process, processing technology are roughly the same with embodiments of the invention 1, and its difference is, in the present embodiment 2,
In the fabric when it is fabric, its top layer 1, nexine 3 through weft count are warp count:120 pieces/inch, weft yarn
Density:92 pieces/inch of intermediate layers for warp count:60 pieces/inch, weft count:46 pieces/inch, and added at it by fabric
Work is into after finished product, and its top layer 1, the warp count of nexine 3 are:128 pieces/inch, weft count is:106 pieces/inch, cover
Lid coefficient is 2026.And the warp count in intermediate layer 2 is:64 pieces/inch, weft count is:53 pieces/inch, coverage coefficient
For 1013.Also, the method according to being used in above-described embodiment 1 measures its air permeability for 1.13cc/cm2, and its anti-chiseling down
For 35.
It follows that when the coverage coefficient of the top layer of fabric and nexine becomes big, the anti-suede of the fabric gradually increases, but
Air permeability has reduced, but when the coverage coefficient of top layer and nexine is 2026, still ensures that in 1.0cc/cm2More than.
Embodiment 3
Embodiments of the invention 3 provide a kind of fabric, the yams of the fabric provided in embodiments of the invention 3,
Structure, weaving process, processing technology are roughly the same with embodiments of the invention 2, and its difference is, in the present embodiment
Fabric is when it is fabric, and the warp count of its nexine 3 of top layer 1 is:143 pieces/inch, weft count:102 pieces/inch, in
The warp count of interbed 2 is:71 pieces/inch, weft count is:50 pieces/inch, and after it is processed into finished product by fabric, its
Top layer 1, the warp count of nexine 3 are:152 pieces/inch, weft count:118 pieces/inch, coverage coefficient is 2338, middle
Layer 2 warp count be:76 pieces/inch, weft count is:58 pieces/inch, coverage coefficient is 1160.Also, above-described embodiment
The method used in 1 measures the air permeability of its top layer 1 and nexine 3 for 1.12cc/cm2, and measure the anti-of its top layer 1 and nexine 3
Eiderdown property is 38.
Furthermore, it is desirable to explanation, fabric in the present embodiment is at it by during fabric is processed into finished product, not adopting
Handled with calen-dering process.
Embodiment 4
Embodiments of the invention 4 provide a kind of fabric, the yams of the fabric provided in embodiments of the invention 4,
It is structure, weaving process, roughly the same with embodiments of the invention 3 through weft count, coverage coefficient, processing technology, its difference
Be in, in the weft yarn 20 on the top layer 1 of fabric, intermediate layer 2 and nexine 3 that embodiment 3 is provided, its (non-profiled fiber of weft yarn 1
Yarn) with the proportioning of weft yarn 2 (profiled filament yarn) it is 3:1, and in the present embodiment 4, top layer 1, intermediate layer 2 and the nexine of fabric
The weft yarn 1 of weft yarn 20 in 3 and the proportioning of weft yarn 2 are 2:1, and its table is measured according to the method used in above-described embodiment 1
The air permeability of layer 1 and nexine 3 is 1.30cc/cm2, and the anti-chiseling down for measuring its top layer 1 and nexine 3 is 35.
Embodiment 5
Embodiments of the invention 5 provide a kind of fabric, the yams of the fabric provided in embodiments of the invention 5,
Structure, weaving process, coverage coefficient, processing technology are roughly the same with embodiments of the invention 4, and its difference is, at this
In the weft yarn 20 of the top layer 1 of fabric, intermediate layer 2 and nexine 3 that embodiment 5 is provided, its weft yarn 1 (non-profiled silvalin) and weft yarn
The proportioning of 2 (profiled filament yarns) is 1:1, and its top layer 1 and nexine 3 are measured according to the method used in above-described embodiment 1
Air permeability is 1.39cc/cm2, and the anti-chiseling down for measuring its top layer 1 and nexine 3 is 32.
Furthermore, it is desirable to explanation, in the present embodiment, it is preferred that the ratio shared in fabric of profiled filament yarn 5 is big
In 25%, to ensure that the distribution of pores in fabric is more uniform, extremely individual other hole is prevented excessive and occur boring suede and show
As.
Embodiment 6
Embodiments of the invention 6 provide a kind of fabric, the yams of the fabric provided in embodiments of the invention 6,
Structure, weaving process, coverage coefficient, processing technology are roughly the same with embodiments of the invention 5, and its difference is, at this
In top layer 1, intermediate layer 2 and the nexine 3 of the fabric that embodiment 6 is provided, the proportioning of weft yarn 1 and weft yarn 2 in its weft yarn 20 is 1:
2, and the air permeability of its top layer 1 and nexine 3 is measured for 1.51cc/cm according to the method used in above-described embodiment 12, and measure
The anti-chiseling down of its top layer 1 and nexine 3 is 30.
Embodiment 7
Embodiments of the invention 7 provide a kind of fabric, the yams of the fabric provided in embodiments of the invention 7,
Structure, weaving process, processing technology are roughly the same with embodiments of the invention 6, and its difference is, in the present embodiment 7,
The fabric is when it is fabric, and the warp count of its nexine 3 of top layer 1 is:167 pieces/inch, weft count is:111/
Inch, the warp count in intermediate layer 2 is:84 pieces/inch, weft count is:55 pieces/inch, and be processed at it by fabric
After finished product, the warp count of its top layer 1 and nexine 3 is:178 pieces/inch, weft count is:128 pieces/inch, covering system
Number is:2650, and the warp count in intermediate layer 2 is:89 pieces/inch, weft count is:64 pieces/inch, coverage coefficient is equal
For:1325.Also, the method according to being used in above-described embodiment 1 measures the air permeability of its top layer 1 and nexine 3 for 1.10cc/
cm2, and the anti-chiseling down for measuring its top layer 1 and nexine 3 is 23.
Embodiment 8
Embodiments of the invention 8 provide a kind of structure of the fabric provided in fabric, embodiments of the invention 8, weaving
Technique, roughly the same with embodiments of the invention 7 through weft count, processing technology, its difference is, in the present embodiment 8
Non-profiled silvalin 6 at least part be elastomer yarn, and accounting of the weight in fabric of elastomer yarn is one
Default ratio.
Specifically, as preferred, the fabric weft yarn 1 in the present embodiment uses specification for 75D-36f PBT/PET
(polybutylene terephthalate/Polyethylene terephthalate, polybutylene terephthalate (PBT)/
Polyethylene terephthalate /) composite fibre.
Also, the ventilative of its top layer 1 and nexine 3 in the present embodiment, is measured according to the method used in above-described embodiment 1
Spend for 1.35cc/cm2, and the anti-chiseling down for measuring its top layer 1 and nexine 3 is 12.
In detail, in the present embodiment, as preferred, in order to ensure fabric in the case where lifting fabric breathability
Anti- suede, above-mentioned default ratio may range from 10%~80%,
Also, in the present embodiment, as preferred, each elastomer yarn equidistant interval setting arrangement in weft yarn 20.
By using this setup so that the yarn adjacent with elastomer yarn can receive the effect of elastomer yarn, enter one
Step ensures that fabric constantly, between yarn is difficult to produce relative movement in washing or external force effect, so as to further avoid fabric
Appearance part hole is excessive and produces the phenomenon for boring suede.
Further, it is provided with non-elastic fiber yarn between two adjacent elastomer yarns.So as to avoid because adjacent
Two elastomer yarns between hole occur larger or cause because too closely to bore suede or the less phenomenon of gas permeability.
In addition, it is necessary to explanation, in the present embodiment, above-mentioned elastomer yarn is except using PBT/PET composite fibres
Outside, can also be according to actual design requirement, using by pet fiber, polybutylene terephthalate
One or more in ester fiber, PTT fiber or Fypro are constituted.
Embodiment 9
Embodiments of the invention 9 provide a kind of structure of the fabric provided in fabric, embodiments of the invention 9, weaving
Technique, coverage coefficient, roughly the same with embodiments of the invention 8 through weft count, processing technology, its difference is, real
The warp thread 10 applied in the top layer 1, intermediate layer 2 and nexine 3 of the fabric of example 8 uses 75D-24f-DTY conventional polyesters.And in this reality
In the weft yarn 20 on top layer 1, intermediate layer 2 and nexine 3 for applying the fabric provided in example 9, the PBT/PET that not only weft yarn 1 is used is fine
Tie up (being used as preferred elastomer yarn), and it is 75D-36f PBT/PET fibers (as excellent that its warp thread 10, which uses specification,
The elastomer yarn of choosing).Also, the fabric is when it is fabric, and the warp count of its nexine 3 of top layer 1 is:167/English
Very little, weft count is:118 pieces/inch, the warp count in intermediate layer 2 is:84 pieces/inch, weft count is:59/English
It is very little, and after it is processed into finished product by fabric, the warp count of its top layer 1 and nexine 3 is:178 pieces/inch, weft count
It is:136 pieces/inch, coverage coefficient is:2647, and the warp count in intermediate layer 2 is:89 pieces/inch, weft count is:
68 pieces/inch, coverage coefficient is:1324.
Also, the ventilative of its top layer 1 and nexine 3 in the present embodiment, is measured according to the method used in above-described embodiment 1
Spend for 1.29cc/cm2, and the anti-chiseling down for measuring its top layer 1 and nexine 3 is 15.
Embodiment 10
Embodiments of the invention 10 provide a kind of structure of the fabric provided in fabric, embodiments of the invention 10, knitted
Make technique, it is coverage coefficient, roughly the same with embodiments of the invention 9 through weft count, processing technology, its difference is,
In the top layer 1, intermediate layer 2 and nexine 3 of the fabric of embodiment 10, the weft yarn 1 in its weft yarn 20 uses specification for T65R35
40ST/R staple yarn.And the fabric is when it is fabric, and the warp count of its top layer 1 and nexine 3 is:157/English
Very little, weft count is:98 pieces/inch, the warp count in intermediate layer 2 is:78 pieces/inch, weft count is:50/English
It is very little, and after it is processed into finished product by fabric, the warp count of its top layer 1 and nexine 3 is:167 pieces/inch, weft count
It is:113 pieces/inch, coverage coefficient is:2641, and the warp count in intermediate layer 2 is:83 pieces/inch, weft count is equal
For:58 pieces/inch, coverage coefficient is:1332.
Also, the ventilative of its top layer 1 and nexine 3 in the present embodiment, is measured according to the method used in above-described embodiment 1
Spend for 3cc/cm2, and the anti-chiseling down for measuring its top layer 1 and nexine 3 is 8.
Embodiment 11
The specification of the fabric provided in the fabric and embodiment 1 that the present embodiment 11 is provided, structure, weaving process, covering
Coefficient, roughly the same with embodiments of the invention 9 through weft count, processing technology, its difference is, connects in embodiment 1
Each warp thread 10 in order member is parallel to each other, and as shown in figure 3, the interval of each warp thread 10 in the present embodiment 11 in connection unit is set
Put, and two adjacent warp thread 10 intersect.Also, as preferred, 11 each connection units are connecting successively in the present embodiment
After connecing, the intermediate layer 2 that each warp thread 10 is constituted in joint face is two layers.
Comparative example 12
Fabric is common fabric in this comparative example 12, and the warp thread 10 and weft yarn 20 in its top layer, intermediate layer, nexine are
75D-48f-DTY conventional polyester, compared with above-described embodiment 1, is fabricated by into using same institutional framework and technique
After product, the coverage coefficient of its top layer and nexine is 2312, and warp count is 149 pieces/inch, and weft count is 118/
Inch, and the coverage coefficient in intermediate layer is 1152, warp count is 74 pieces/inch, and weft count is 59 pieces/inch.And
And, its air permeability is measured for 0.5cc/cm according to the method used in above-described embodiment 12, and its anti-chiseling down is measured for 30.
It follows that the fabric in the present embodiment is causing the coverage coefficient of fabric to be less than the feelings of common fabric coverage coefficient
Under condition, i.e., in the case that the projection accounting of fabric is less than the projection accounting of common fabric, remain to there is preferable anti-suede and saturating
Gas.
In summary, the fabric and its detection knot provided according to the present embodiment 1 to 11 and comparative example 12 carries out analysis and total
Knot, obtains as shown in table 1 below.
Wherein, the calculation formula to coverage coefficient (CF) is:
Coverage coefficient (CF)=warp count (number/inch) × SQRT (warp thread Denier)+weft count (quantity/English
It is very little) × SQRT (weft yarn Denier);
Anti-chiseling down is detected:Detected according to GB/T14272 annex E standards;
Air permeability is detected:Detected using JIS L 1096-2010 standards.
The embodiment parameter comparison table of table 1
By to table 1 analyze obtaining as drawn a conclusion:
By the content in embodiment 1 and embodiment 11 and comparative example 12, because each warp thread 10 in the fabric is equal
It is interweaved with the weft yarn 20 in its top layer 1, intermediate layer 3, nexine 2, and the simultaneously alternate cycles that shuttle is carried out between three, and
The joint face being interspersed is formed between top layer 1 and nexine 2, and is divided the space between top layer 1 and nexine 2 by joint face
It is cut into multiple three-dimensional cavitys 4 for being used to fill eider down.Therefore during woven, without individually using single fabric or connecing
Tie yarn connection, you can so that fabric is the stereochemical structure with multiple three-dimensional cavitys 4 after weaving, and between three-dimensional cavity 4
Joint face be interweaved and form by the weft yarn in warp thread and intermediate layer, therefore do not result in the overall thickness of fabric and differ, keep away
Exempt from the phenomenon for fold occur, and be not in gap between adjacent two three-dimensional cavitys 4 and make the poor phenomenon of its heat insulating ability.
Also, the structure causes the fabric that three-dimensional cavity is carried without being obtained by the way of artificial cutting and suture, can be great
Operating efficiency is improved, and reduces cost of labor.Also, joint face can be caused to meet three layers or four layers (centre according to the actual requirements
Layer) more than the demand that designs.
Further, by the fabric analysis to being provided in embodiments of the invention 1 to 11 and comparative example 12, upper
State in each embodiment 1 to 11, it is at least a kind of in the warp thread and weft yarn in the top layer and nexine of each fabric to include by multiple different
Shape filament constitutes profiled filament yarn, and accounting of the weight in fabric of the profiled filament yarn (is more than for a default ratio
Or equal to 5%), and the coverage coefficient of top layer and nexine is all higher than or during equal to 1600.Also, in embodiment 1-3, each reality
The fabric that example is obtained is applied, its air permeability and anti-chiseling down are close, the difference is that the covering system of embodiment 1 and embodiment 2
Number can be less than 2300, and the coverage coefficient of embodiment 1 is equal to 1680, and be required to can be only achieved necessarily by calendering during processing
Anti-chiseling down, and the coverage coefficient of embodiment 3 is close to 2300, and needs not move through calendering with regard to that can reach same anti-chiseling down
Property, it is seen then that in order to reduce manufacturing procedure, cost is saved, production efficiency is improved, when designing anti-pile fabric, the covering system of fabric
Number is preferably greater than or equal to 2300.
By embodiment 3 to embodiment 6, the fabric provided in each embodiment, coverage coefficient is approached, after being washed before washing
Anti-chiseling down also close to, unlike with profiled filament yarn 5 in textile surface and nexine and the assortment of non-profiled silvalin 6
Reduce, that is, gradually step up accounting (i.e. default ratio) of the weight in fabric of profiled filament yarn 5, air permeability be in it is increased become
Gesture, this breaches the existing conventional theory for thinking air permeability and anti-chiseling down in inverse ratio, and the reason for this trend is presented is,
Profiled filament yarn 5 is to be formed by multiple sections for the profiled filament silk boundling of abnormity, and profiled filament silk is mutually being embraced and wound
After produce multiple irregular holes, and make it that profiled filament yarn 5 is more fluffy, so that warp thread and weft yarn are mutually handed over
After knitting, the arrangement between each group yarn is more close, and causes fabric compared with traditional fabric lining, equal through weft yarn
Under density, its hole scrambling is stronger, and quantity is more, typically smaller than 1 μm~20 μm, the i.e. diameter less than eider down, therefore
It may insure under similar coverage coefficient, by way of improving the weight of profiled filament yarn 5 in the accounting of fabric, realize and exist
While ensureing anti-chiseling down, moreover it is possible to improve air permeability to a certain extent.Also, with being referred in comparative example 12 for contrasting
Common fabric compare, same coverage coefficient, the top layer of the fabric provided from embodiment 3 into embodiment 6 and nexine it is saturating
Manner be the common fabric provided in comparative example 12 top layer and 2.24-3.02 times of air permeability of nexine, it is seen that increase fabric
After profiled filament yarn 5 in top layer and nexine, compared to the fabric without profiled filament yarn 5, equally ensureing the premise of anti-chiseling down
Under, its air permeability is improved.
It is can be seen that from embodiment 1 to 2 and embodiment 6 to 7 under identical technique, material, assortment, by significantly
Coverage coefficient is improved to improve during fabric anti-chiseling down, the air permeability of fabric can decline therewith.
And by comparative example 8 and embodiment 9, will be non-profiled in fabric under same coverage coefficient
Yarn in silvalin 6 is set to after PBT/PET elastomer yarns, but can be when anti-chiseling down is improved, and air permeability still increases
Plus, it is primarily due to due to the presence of elastomer yarn so that during eider down is being worn to outside fabric and penetrated, touch elasticity
During silvalin, due to elastic reaction, rebounded by buffering, so being difficult to pass from the top layer of fabric or nexine, so adding
Anti- suede performance.And the fiber of elastomer yarn is made, due to elastic shrinkage, the surface irregularity of fiber in each yarn,
So that the space increase between each fiber, so compared to common yarn, under the conditions of same coverage coefficient, the space number of ventilation
Amount increase, so that ventilation volume is added, so can be while anti-chiseling down is increased, air permeability also obtains a certain degree of increasing
Plus, so by selecting elastomer yarn or lifting elastomer yarn in the warp thread or weft yarn in top layer and nexine in fabric
Accounting mode (be preferably 20%~90%), anti-chiseling down and air permeability can be improved simultaneously.
As can be seen that embodiment 9 is by by textile surface 1, intermediate layer 2 in embodiment 8 from embodiment 8 and embodiment 9
Changed into the weft yarn 1 in nexine 3 after T/R staple yarns, its anti-chiseling down and approaching in embodiment 8, but air permeability has greatly
Width is improved, and is primarily due to staple yarn and is carried loose structure, therefore exchanged beneficial to air-flow, it is not necessary to increases yarn and yarn
Between gap, namely on the premise of anti-suede is ensured, can also improve air permeability, institute is not one to prevent suede and air permeability
It is straight that the relation of inverse ratio is presented, but air permeability can be increased considerably under conditions of anti-suede is not reduced.Therefore, fabric is worked as
Top layer 1, intermediate layer 2 and nexine 3 in comprising staple yarn, elastomer yarn and during profiled filament yarn 5, its air permeability and anti-
The test result of brill suede is optimal in all embodiments, so being most preferred scheme.
Embodiment is acted on and effect
The fabric provided according to embodiment 1-11 and comparative example 12, due to each warp thread in the fabric with its top layer 1, in
Weft yarn in interbed 2, nexine 3 is interweaved, and progress is shuttled and alternate cycles between three, and on top layer 1 and nexine 3
Between form the joint face being interspersed, and the space between top layer 1 and nexine 3 be divided into by joint face multiple be used to fill out
Fill the three-dimensional cavity 4 of eider down.Therefore during woven, without individually being connected using single fabric or binder yarn, you can
So that fabric is the stereochemical structure with multiple three-dimensional cavitys 4 after weaving, and the joint face between three-dimensional cavity 4 is by warp thread
It is interweaved and forms with the weft yarn in intermediate layer 2, therefore do not result in the overall thickness of fabric and differs, and two adjacent solids
Be not in gap between cavity 4 and make the poor phenomenon of its heat insulating ability.Also, the structure to cut using artificial and
The mode of suture carries the fabric of three-dimensional cavity 4 to obtain, and can greatly improve operating efficiency, and reduce cost of labor.
Further, because the joint face between the top layer of fabric and nexine includes multiple connection units, and adjacent two
Warp-wise of the individual connection unit along fabric is connected with each other, and is connected respectively with top layer and nexine simultaneously.Also, each warp in joint face
Yarn is parallel to each other or intersected in each connection unit.Therefore, can according to the actual requirements cause joint face meet three layers or four layers (in
Interbed) more than the demand that designs.
Further, because at least part is profiled filament in the warp thread and weft yarn in the textile surface and nexine
Yarn, and accounting of the weight in fabric of profiled filament yarn is a default ratio, by profiled filament yarn with non-profiled fibre
Mutual cooperation support between yarn is tieed up, in the case where ensureing fabric intensity with regard to anti-suede effect can be reached, and due to profiled filament
Yarn be by multiple sections for abnormity profiled filament silk boundling form, and profiled filament silk mutually embrace and winding after produce it is multiple
Irregular hole, and make it that profiled filament yarn is more fluffy, so that after warp thread and weft yarn are interweaved, each group yarn
Arrangement between line is more close, and causes fabric compared with traditional fabric lining, equal through under weft count, its hole
Gap scrambling is stronger, and quantity is more, typically smaller than 1 μm~20 μm, the i.e. diameter less than eider down, so as to prevent eider down from
Got out in fabric, and by the predominance of hole, improve the air permeability of fabric, it is ensured that the comfortableness of fabric.
Further, in order to meet different design requirements, and fabric is caused without whether using calen-dering process, can be
In the case that air permeability meets certain condition, the demand of anti-suede is met.Therefore, in order to reduce manufacturing procedure (at calendering
Reason), cost is saved, production efficiency is improved, when designing anti-pile fabric, the coverage coefficient of fabric is preferably greater than or equal to 2300.
Further, at least part is elastomer yarn in non-profiled silvalin, due to its elasticity capacity, has relaxed plumage
The ability that suede is punctured, so further increase anti-suede, and due to elastic shrinkage, between the fiber inside elastomer yarn
Gap also increase, so also improve air permeability simultaneously, and the elastomer yarn of optimal use can be set according to actual
Meter demand, using by pet fiber (abbreviation PET), polybutylene terephthalate (PBT) fiber (abbreviation
PBT), poly fiber (abbreviation PBT), PTT fiber (abbreviation PTT or PPT) or
One or more in Fypro (abbreviation PA) are constituted.Due to the thermal-shrinkage differential shape that its elasticity mechanism is two kinds of components
Into so elasticity can be more longlasting.Also, part profiled filament yarn 5 also has low elasticity, thus can further lift the saturating of fabric
Manner.
, can be with addition, in embodiment 1-11 fabric, profiled filament yarn 5 preferentially uses section for cross yarn
It it is in the noncircular cross sections such as triangle, bifurcation shape, pentagon, trilobal, quatrefoil, five leaf, fan-shaped, star fonts from section
One kind of anticipating and combinations thereof.Non-profiled silvalin 6 preferentially uses conventional polyester, can also be fine using Silon yarn, acetic acid
Tie up in yarn, cotton fiber yarn, flaxen fiber yarn, polyester fiber yarn, regenerated cellulose yarn, protein fibre yarn etc.
One or more are made.
In addition, in embodiment 1-11, the fiber number of non-profiled silvalin 6 is preferably 75D, 50D, 20D, profiled filament yarn 5
Fiber number is 75D, in the fabric as the present invention, the fiber number range of choice of non-profiled silvalin 6 can according to actual design requirement,
Selected between 10D~150D, and the fiber number range of choice of profiled filament yarn 5 can be according to actual design requirement, in 10D
Selected between~150D, to avoid because fiber number causes feel bad very much greatly, comfort level is not high, and wearability is poor, or because of fibre
Degree is too small, causes current loom can not realize the weaving of high sley or high filling density.
Further, in embodiment 1-11 fabric, profiled filament yarn 5 and non-profiled fibre in its top layer, intermediate layer, nexine
The assortment scope for tieing up yarn 6 is 3:1-1:2, it is in order that obtaining the weight of the profiled filament yarn 5 in above-mentioned fabrics in the fabric
Accounting, i.e., default ratio is more than or equal to 5%, and to prevent its accounting too small, air permeability cannot be significantly improved and can not prevented
Suede, and as a kind of preferred mode, the scope of the preset ratio of the accounting can be 20%~90%, in order to by special-shaped fine
Dimension yarn 5 and other non-profiled silvalins 6 cooperate, in the case where ensureing anti-suede, and further lifting fabric is ventilative
Degree.Also, it is worth mentioning, above-mentioned profiled filament yarn 5 is according to actual design requirement, and the accounting in fabric can also be percentage
Hundred.
Further, in order to meet the abnormity in top layer 1 in actual design requirement, above-mentioned fabrics, intermediate layer 2, nexine 3
Proportioning between silvalin and non-profiled silvalin can be more than or equal to 25%, to ensure that the distribution of pores in fabric is more equal
It is even, prevent extremely individual other hole it is excessive and occur bore suede phenomenon.Or, profiled filament is included in warp thread and weft yarn
Yarn.It is more uniform so as to the distribution of pores in fabric is ensured, prevent extremely individual other hole excessive and occur boring suede
Phenomenon.Also, matching somebody with somebody between profiled filament yarn and non-profiled silvalin in the top layer, intermediate layer, nexine in the various embodiments described above
Than that can also be mutual identical, and above-described embodiment make specific elaboration and illustrated to this.
Further, in order to ensure to ensure to have enough elastomer yarns in fabric so that in closely knit between each yarn
Complementation arrangement, mutually constraint.The accounting of the weight of elastic silvalin in the fabric is less than 95% in above-mentioned fabrics.Wherein, make
For a kind of preferred mode, the scope of the default ratio of the accounting is 10%~80%, to ensure the gas permeability and anti-suede of fabric
It is in preferably numerical value.
In addition, in the above-described embodiments, as preferred, the fiber number of above-mentioned profiled filament silk can for 1.1 Denier with
Under, to increase the void content in profiled filament yarn, and reduce the size of single hole.
In addition, in the above-described embodiments, as preferred, what warp thread 10 was used is non-profiled filament yarn 6, and by weft yarn
Part yarn in 20 selects the set-up mode of profiled filament yarn 5.Obviously, profiled filament yarn can also be used in above-described embodiment
5 be warp thread 10, non-profiled silvalin 6 be weft yarn 20 set-up mode, therefore above-described embodiment for non-profiled silvalin 6 with it is different
Which kind of permutation and combination specific limit and explanation is not made between shape silvalin 5 for.
The above embodiments are merely illustrative of the technical solutions of the present invention and it is non-limiting, reference only to preferred embodiment to this hair
It is bright to be described in detail.It will be understood by those within the art that, technical scheme can be modified
Or equivalent substitution, without departing from the spirit and scope of technical solution of the present invention, it all should cover in scope of the presently claimed invention.
Claims (16)
1. a kind of fabric, including:It is intertwined to form by multiple warp thread and multiple weft yarns, wherein, the fabric is included:One table
Layer, a nexine, the intermediate layer being arranged between the top layer and the nexine, it is characterised in that:
The each several part of each warp thread is respectively the top layer, the intermediate layer, a part for the nexine, and in the top layer, institute
State and carry out shuttling and alternate cycles between intermediate layer, the nexine;
Also, each warp thread is mutually handed over the weft yarn in the weft yarn in the top layer, the intermediate layer, the weft yarn in the nexine
After knitting, the joint face and multiple three-dimensional cavitys for being used to fill eider down being interspersed are formed between the top layer and the nexine.
2. fabric according to claim 1, it is characterised in that the joint face is included:N number of connection unit;Wherein, it is described
N is positive integer more than 1, and the warp-wise of adjacent two connection units along the fabric is connected with each other, and simultaneously respectively with institute
State top layer and nexine connection;
Also, each warp thread in the joint face is parallel to each other or intersected in each connection unit.
3. fabric according to claim 1, it is characterised in that in the warp thread and weft yarn of the top layer and the nexine extremely
A kind of rare include constitutes profiled filament yarn by multiple profiled filaments silk, and the profiled filament yarn weight in the fabric
Accounting be a default ratio, and after the non-profiled silvalin in the profiled filament yarn and the fabric is interweaved,
The coverage coefficient of the top layer and the nexine is all higher than or equal to 1600.
4. fabric according to claim 1, it is characterised in that the coverage coefficient is all higher than or equal to 2300.
5. fabric according to claim 1, it is characterised in that the ratio is more than or equal to 5%.
6. fabric according to claim 3, it is characterised in that the scope of the ratio is 20%~90%.
7. fabric according to claim 1, it is characterised in that the section of the profiled filament silk is triangle, bifurcation shape, five
In angular, trilobal, quatrefoil, five leaf, fan-shaped, cross, star font any one and combinations thereof.
8. fabric according to claim 3, it is characterised in that the fiber number of the profiled filament yarn is 10D~150D, described
The fiber number of non-profiled silvalin is 10D~150D.
9. fabric according to claim 9, it is characterised in that the fiber number of the profiled filament silk is below 1.1 Denier.
10. the fabric according to any one in claim 3 to 9, it is characterised in that in the non-profiled silvalin at least
It is elastomer yarn to have part, and accounting of the weight in the fabric of the elastomer yarn is a default ratio.
11. fabric according to claim 10, it is characterised in that described default than being less than 95%.
12. fabric according to claim 11, it is characterised in that the scope of the default ratio is 10%~80%.
13. fabric according to claim 10, it is characterised in that the elastomer yarn is by polyethylene terephthalate
Ester fiber, polybutylene terephthalate (PBT) fiber, poly fiber, PTT are fine
One or more in dimension or Fypro are constituted.
14. anti-pile fabric according to claim 3, it is characterised in that according to being measured GB/T14272 annex E standards
The anti-chiseling down of fabric is less than 50.
15. fabric according to claim 3, it is characterised in that according to JISL1096:10 standards measure the saturating of the fabric
Manner is more than or equal to 1cc/cm2。
16. fabric made from a kind of fabric according to any one in the claims 1 to 15, is used applied to home textile
In product, clothes textile or fabrics for industrial use.
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108083222A (en) * | 2018-01-19 | 2018-05-29 | 湖南梦洁家纺股份有限公司 | It is a kind of to fill stereo fabric with grid lining structure |
CN111676565A (en) * | 2020-06-22 | 2020-09-18 | 安徽省太和县众友筛网滤布制造有限公司 | Extension-resistant tensile high-performance industrial filter cloth and preparation method thereof |
CN111691037A (en) * | 2020-06-22 | 2020-09-22 | 安徽省太和县众友筛网滤布制造有限公司 | Industrial filter cloth with self-purification function and preparation method thereof |
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Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN201358347Y (en) * | 2009-01-22 | 2009-12-09 | 河北科技大学 | Three-dimensional fabric capable of being lengthened horizontally and longitudinally |
CN102181986A (en) * | 2011-05-19 | 2011-09-14 | 江阴福斯特纺织有限公司 | Method for preparing warm composite woven fabric |
CN104520481A (en) * | 2012-08-02 | 2015-04-15 | 东丽株式会社 | Textile using flat multilobar cross-section fiber |
CN205115746U (en) * | 2015-05-25 | 2016-03-30 | 东丽纤维研究所(中国)有限公司 | Three -dimensional fabric |
CN106012237A (en) * | 2016-08-14 | 2016-10-12 | 谢强 | 3d interval woven fabric |
US20160333504A1 (en) * | 2015-05-13 | 2016-11-17 | Hop Pin Enterprise Co., Ltd | Down-proof double-layer fabric |
CN107287736A (en) * | 2016-07-01 | 2017-10-24 | 东丽纤维研究所(中国)有限公司 | A kind of stereo fabric |
CN207079342U (en) * | 2017-04-06 | 2018-03-09 | 浙江万姿布业有限公司 | A kind of fabric |
-
2017
- 2017-04-06 CN CN201710221441.8A patent/CN107083603B/en active Active
Patent Citations (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN201358347Y (en) * | 2009-01-22 | 2009-12-09 | 河北科技大学 | Three-dimensional fabric capable of being lengthened horizontally and longitudinally |
CN102181986A (en) * | 2011-05-19 | 2011-09-14 | 江阴福斯特纺织有限公司 | Method for preparing warm composite woven fabric |
CN104520481A (en) * | 2012-08-02 | 2015-04-15 | 东丽株式会社 | Textile using flat multilobar cross-section fiber |
US20160333504A1 (en) * | 2015-05-13 | 2016-11-17 | Hop Pin Enterprise Co., Ltd | Down-proof double-layer fabric |
CN205115746U (en) * | 2015-05-25 | 2016-03-30 | 东丽纤维研究所(中国)有限公司 | Three -dimensional fabric |
CN106192164A (en) * | 2015-05-25 | 2016-12-07 | 东丽纤维研究所(中国)有限公司 | A kind of stereo fabric and application thereof |
CN107287736A (en) * | 2016-07-01 | 2017-10-24 | 东丽纤维研究所(中国)有限公司 | A kind of stereo fabric |
CN106012237A (en) * | 2016-08-14 | 2016-10-12 | 谢强 | 3d interval woven fabric |
CN207079342U (en) * | 2017-04-06 | 2018-03-09 | 浙江万姿布业有限公司 | A kind of fabric |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108083222A (en) * | 2018-01-19 | 2018-05-29 | 湖南梦洁家纺股份有限公司 | It is a kind of to fill stereo fabric with grid lining structure |
CN111676565A (en) * | 2020-06-22 | 2020-09-18 | 安徽省太和县众友筛网滤布制造有限公司 | Extension-resistant tensile high-performance industrial filter cloth and preparation method thereof |
CN111691037A (en) * | 2020-06-22 | 2020-09-22 | 安徽省太和县众友筛网滤布制造有限公司 | Industrial filter cloth with self-purification function and preparation method thereof |
CN111676565B (en) * | 2020-06-22 | 2021-11-23 | 安徽省太和县众友筛网滤布制造有限公司 | Extension-resistant tensile high-performance industrial filter cloth and preparation method thereof |
CN114318624A (en) * | 2020-10-10 | 2022-04-12 | 上海水星家用纺织品股份有限公司 | Preparation method of multilayer sewing-free down-proof fabric |
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