CN206457581U - A kind of broadwise pad knits the radiation-proof fabric of metal fiber wire - Google Patents
A kind of broadwise pad knits the radiation-proof fabric of metal fiber wire Download PDFInfo
- Publication number
- CN206457581U CN206457581U CN201720090745.0U CN201720090745U CN206457581U CN 206457581 U CN206457581 U CN 206457581U CN 201720090745 U CN201720090745 U CN 201720090745U CN 206457581 U CN206457581 U CN 206457581U
- Authority
- CN
- China
- Prior art keywords
- fabric
- core
- yarn
- core latitude
- wire
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Abstract
The utility model discloses the radiation-proof fabric that a kind of broadwise pad knits metal fiber wire, the fabric is made up of upper strata, lower floor and core latitude, the core latitude be with weaving mode be clipped in above and below row's metallic fiber or wire between two layers, cotton yarn or wool yarn weaving of the upper and lower of the fabric using soft moisture absorption, the core latitude alternating and bilevel warp yarns, so as to which two layers up and down is stiched together, fabric multiple layer is formed overall;The core latitude and top line interweave using V-arrangement consolidation, and with different colors, increase is ornamental;The core latitude and lower layer warp yarns interweave using W shapes consolidation, increase core latitude consolidation fastness, it is to avoid core latitude receives external force abjection.The utility model solves the soft problem of moisture absorption of fabric appearance, the need for meeting wearing comfort, and utilizes the gloss of wire to produce decorative effects in cloth cover while causing fabric to have electromagnetic wave radiation shielding effect.
Description
Technical field
The utility model belongs to home textile fabric weaving field, and in particular to a kind of broadwise pad knits the radiation proof of metal fiber wire
Fabric.
Background technology
It is general using metallic fiber and the mixed yarn of cotton fiber using the electromagnetic wave radiation-proof fabric of wire (fiber),
Or the covering yarn of wire outsourcing cotton fiber, it is non-hygroscopic because metallic fiber or wire are rigidly big, it is irritating to the skin
Property, it is poor that fabric endures with all one's will not soft, comfort, it is impossible to does personal garment material, especially during the broiling summer, due in necessary liner
Clothing, could wear such radiation-proof fabric.
Utility model content
Utility model purpose:In order to solve the deficiencies in the prior art, the utility model knits metal there is provided a kind of broadwise pad
Filametntary radiation-proof fabric so that fabric has electromagnetic wave radiation shielding effect, while solving the moisture absorption of fabric appearance
Soft problem, the need for meeting wearing comfort, and utilizes the gloss of wire to produce decorative effects in cloth cover.
Technical scheme:A kind of broadwise pad knits the radiation-proof fabric of metal fiber wire, and the fabric is by upper strata, lower floor and core
Latitude is constituted, the core latitude be with weaving mode be clipped in above and below the yarn that is constituted of row's metallic fiber between two layers or wire
Line, the cotton yarn of the soft moisture absorption of the upper and lower use of the fabric or wool yarn weaving, the core latitude replace and two layers up and down
Warp yarns, so as to will be stiched together for two layers up and down, form fabric multiple layer overall;The core latitude and top line, which interweave, to be adopted
Consolidated with V-arrangement, with different colors, increase is ornamental;The core latitude and lower layer warp yarns interweave using W shapes consolidation, increase core latitude
Consolidate fastness, it is to avoid core latitude receives external force abjection.
It is used as optimization:The arrangement of the warp thread is compared:Top line:Lower layer warp yarns=1:1;Can change core weft yarn with it is upper
The arrangement ratio of lower floor's weft yarn, so as to change the arranging density of core weft yarn;Or, change the rugosity of core latitude, so as to change wire
The thickness and radiation-proof effect and decorative effect of radiation protective layer.
It is used as optimization:Length n of the core latitude between two layers up and down can also be changed, so as to change the length of weft yarn band yarn
Degree, n values are big, then the yarn of the composition of inner wire or metal fiber is longer, is exposed to the wire of cloth cover or containing metal
The yarn that fiber is constituted is few, and comfortableness increase, dicoration declines.
Beneficial effect:The utility model is solved outside fabric while causing fabric to have electromagnetic wave radiation shielding effect
The soft problem of the moisture absorption of table, the need for meeting wearing comfort, and is imitated using the gloss of wire in cloth cover generation decoration
Should.
Cotton yarn or wool yarn weaving of the utility model the upper and lower fabric using soft moisture absorption, thus fabric face is soft
Comfortably, hygroscopicity.Pad between two layers knits the wire of screen effect or the yarn of metal fiber, up and down two-layer fabrics it
Between, by the warp yarns of core latitude alternately with levels, so that two layers up and down is stiched together, form fabric multiple layer overall.Core
Latitude, between upper strata A and core latitude layer, the electromagnetic wave shielding played a part of.
The utility model has saved the raw material of yarn, weaving cost reduction, its directionality compared to conventional treble cloths
Good, guidance quality is high.
Brief description of the drawings
Fig. 1 is structural representation of the present utility model;
Fig. 2 is schematic illustration of tissue of the present utility model.
Embodiment
With reference to specific embodiment, the utility model is described in further detail.
Specific embodiment 1
A kind of broadwise pad knits the radiation-proof fabric of metal fiber wire, and the fabric is made up of upper strata, lower floor and core latitude, institute
State core latitude and be with weaving mode be clipped in above and below the yarn that is constituted of row's metallic fiber between two layers or wire, the fabric
The upper and lower using cotton yarn or the wool yarn weaving of soft moisture absorption, the core latitude alternately and bilevel warp yarns,
So as to which two layers up and down is stiched together, fabric multiple layer is formed overall;The core latitude and top line interweave using V-arrangement consolidation,
With in different colors, increase is ornamental;The core latitude and lower layer warp yarns interweave using W shapes consolidation, increase core latitude consolidation fastness, keep away
Exempt from core latitude and receive external force abjection.
As shown in Fig. 1 structural representations of the present utility model, in figure, top line Arabic numerals 1,2,3,4,5,6,
7th, 8 represent;Upper layer weft yarns A latitudes 1, A latitudes 2 are represented;Lower layer warp yarns Roman character I, II, III, IV, V, VI, VII, VIII is represented;
Lower floor's weft yarn B latitudes 1, B latitudes 2 are represented;Band yarn between levels is wire or the weft yarn of metal fiber, with core latitude table
Show.
As shown in Fig. 2 schematic illustration of tissue of the present utility model, in figure, the warp and weft interweaving of × expression upper strata (A layers) fabric
When, top line (Arabic numerals are represented) is on weft yarn (A latitudes 1 or A latitudes 2);
When represents fabric (no matter A, B layers or core latitude layer) warp and weft interweaving, weft yarn is on warp thread;
During zero expression weaving layer fabric (B layers), top line (Arabic numerals are represented) lifts, so as to represent that upper strata is passed through
Top line lifts yarn on lower layer warp yarns and weft yarn, or when representing to knit core latitude;
When △ represents weaving lower floor (B layers) fabric, lower layer warp yarns (Roman character is represented) lift, so as to represent lower layer warp yarns
Top line lifts on lower floor's weft yarn (B latitudes 1 or B latitudes 2), or when representing to knit core latitude.
Also, in Fig. 2, a to c is circulated and (repeated with this Warp Tension Test) for a Warp Tension Test of fabric later;N is b to c
Between Warp Tension Test period, n values are big, then the yarn of inner wire or metal fiber is longer, is exposed to the metal of cloth cover
Silk or metal fiber yarn are few, and comfortableness increase, dicoration declines.Now by taking the arrangement circulation of warp thread as an example, with reference to Fig. 1 and
Fig. 2, is specifically described interleaving process:
This fabric picking order be:A latitudes 1, B latitudes 1, core latitude, A latitudes 2, B latitudes 2.
When A latitudes 1 and top line interweave, top line:1st, 3,5,7 on A latitudes 1, used in organization chart ×
Represent;During remaining warp and weft interweaving, A latitudes 1 are represented on warp thread in organization chart with;
When B latitudes 1 and lower layer warp yarns interweave, top line:1st, 2,3,4,5,6,7,8 lift, so that top line is in B latitudes
On 1, represented in organization chart with zero;Lower layer warp yarns:Ith, III, V, VII lifts, so that lower layer warp yarns are on B latitudes 1,
Represented in organization chart with △;B latitudes 1 are in lower layer warp yarns:IIth, on IV, VI, VIII, represented in organization chart with;
When core latitude and levels warp yarns, top line:1st, 4,5,6,7,8 lift, so that top line is in lower floor
On warp thread and core latitude, represented in organization chart with zero;Lower layer warp yarns:IVth, VI lifts, thus lower layer warp yarns core latitude it
On, represented in organization chart with △;Core latitude is in top line:2nd, on 3, core latitude is in lower layer warp yarns:Ⅰ、Ⅱ、Ⅲ、Ⅴ、
VIIth, on VIII, represented in organization chart with;
When A latitudes 2 and top line interweave, top line:2nd, 4,6,8 on A latitudes 2, used in organization chart ×
Represent;During remaining warp and weft interweaving, A latitudes 2 are represented on warp thread in organization chart with;
When B latitudes 2 and lower layer warp yarns interweave, top line:1st, 2,3,4,5,6,7,8 lift, so that top line is in B latitudes
On 2, represented in organization chart with zero;Lower layer warp yarns:IIth, IV, VI, VIII lifts, so that lower layer warp yarns are on B latitudes 2,
Represented in organization chart with △;B latitudes 2 are in lower layer warp yarns:Ith, on III, V, VII, represented in organization chart with.
In above-described embodiment, the arrangement of the warp thread of fabric, which is compared, is:Top line:Lower layer warp yarns=1:1;Core latitude can be changed
The arrangement ratio of yarn and levels weft yarn, so as to change the arranging density of core weft yarn;Or, change the rugosity of core latitude, so as to change
The thickness and radiation-proof effect and decorative effect of wire radiation protective layer.
Length n of the core latitude between two layers up and down can also be changed, so as to change the length of weft yarn band yarn, n values are big,
The yarn that then inner wire or metal fiber are constituted is longer, is exposed to the yarn that the wire or metal fiber of cloth cover are constituted
Line is few, and comfortableness increase, dicoration declines.
Because core latitude is also acted as the effect that two-layer fabrics binding is got up up and down, thus core latitude is not only above and below between two layers
Extend and arrange, can also emerge by the organization rule of design in fabric face, in such as Fig. 1 at D, weft yarn interweaves with top line, floats
Long line emerges in fabric face, plays a part of decorating cloth cover with reference to the change of core latitude color.
In the utility model, coverage coefficient refers to the coefficient of fullness and voidage between yarn, and coverage coefficient 100% is meaned
Between yarn does not have space.
The coverage coefficient of core latitude is preferably more than 80%, with ensure more core latitude radical (or thicker core weft density) and
Appropriate gas permeability, coverage coefficient refers to the coefficient of fullness or voidage between yarn, and such as coverage coefficient 100% means yarn
Between there is no space.
Coverage coefficientWherein P is pick count (root/10cm), and Tex is weft yarn
Line density (g/1000m), if weft yarn line density be 20Tex, coverage coefficient is 80%, according to above-mentioned formula, is then calculated
Go out arranging density=484 piece/10cm of core latitude.
Because of two superimposed above and below fabric, the weft yarn coverage coefficient of fabric levels should be between 55-65%, because on fabric
Lower two superimposed, tightening weft resistance is excessive during too high then weaving, difficulty of weaving increase, and too low, then anti-radiation is poor.
Because wefting insertion order is that table, inner, core are alternately arranged, the line density of metal band yarn should be one times of top line with
On, with the arrangement tight ness rating for the yarn for ensureing wire or metal fiber, the effect of electromagnetic shielding is improved, i.e. anti-radiation is carried
Height, meanwhile, the yarn of wire or metal fiber is improved in the rate that shows of fabric face, decoration sense increase.
The utility model is not limited to above-mentioned preferred forms, and anyone can draw other under the enlightenment of the present invention
Various forms of products, however, make any change in its shape or structure, it is every with identical or similar to the present application
Technical scheme, all fall within protection domain of the present utility model.
Claims (3)
1. a kind of broadwise pad knits the radiation-proof fabric of metal fiber wire, it is characterised in that:The fabric is by upper strata, lower floor and core
Latitude is constituted, the core latitude be with weaving mode be clipped in above and below the yarn that is constituted of row's metallic fiber between two layers or wire
Line, the cotton yarn of the soft moisture absorption of the upper and lower use of the fabric or wool yarn weaving, the core latitude replace and two layers up and down
Warp yarns, so as to will be stiched together for two layers up and down, form fabric multiple layer overall;The core latitude and top line, which interweave, to be adopted
Consolidated with V-arrangement, with different colors, increase is ornamental;The core latitude and lower layer warp yarns interweave using W shapes consolidation, increase core latitude
Consolidate fastness, it is to avoid core latitude receives external force abjection.
2. broadwise pad according to claim 1 knits the radiation-proof fabric of metal fiber wire, it is characterised in that:The warp thread
Arranging ratio is:Top line:Lower layer warp yarns=1:1;The arrangement ratio of core weft yarn and levels weft yarn can be changed, so as to change core
The arranging density of weft yarn;Or, change core latitude rugosity so that change wire radiation protective layer thickness and radiation-proof effect and
Decorative effect.
3. broadwise pad according to claim 2 knits the radiation-proof fabric of metal fiber wire, it is characterised in that:It can also change
The core latitude is in length n up and down between two layers, so as to change the length of weft yarn band yarn, n values greatly, then inner wire or containing gold
Belong to fiber constitute yarn it is longer, be exposed to cloth cover wire or metal fiber constitute yarn it is few, comfortableness increase, dress
Decorations property declines.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720090745.0U CN206457581U (en) | 2017-01-24 | 2017-01-24 | A kind of broadwise pad knits the radiation-proof fabric of metal fiber wire |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720090745.0U CN206457581U (en) | 2017-01-24 | 2017-01-24 | A kind of broadwise pad knits the radiation-proof fabric of metal fiber wire |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206457581U true CN206457581U (en) | 2017-09-01 |
Family
ID=59699212
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201720090745.0U Expired - Fee Related CN206457581U (en) | 2017-01-24 | 2017-01-24 | A kind of broadwise pad knits the radiation-proof fabric of metal fiber wire |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN206457581U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106757653A (en) * | 2017-01-24 | 2017-05-31 | 江苏工程职业技术学院 | A kind of broadwise pad knits the radiation-proof fabric and its method for weaving of metal fiber wire |
-
2017
- 2017-01-24 CN CN201720090745.0U patent/CN206457581U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106757653A (en) * | 2017-01-24 | 2017-05-31 | 江苏工程职业技术学院 | A kind of broadwise pad knits the radiation-proof fabric and its method for weaving of metal fiber wire |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN101338468A (en) | Extra fine, high density, extra broad jacquard bedclothes face fabric and producing method thereof | |
CN101230513A (en) | Weaving of intertexture double-layer fabric | |
CN206465543U (en) | The umbrella fabric lining that a kind of waterproof uv resistance can be consolidated | |
CN206457581U (en) | A kind of broadwise pad knits the radiation-proof fabric of metal fiber wire | |
CN103184618A (en) | Cotton and polyamide interwoven double-layer check fabric and processing process thereof | |
CN102433652A (en) | Silk-like crepon georgette fabric | |
CN106987964A (en) | A kind of soft Hygroscopic material and its method for weaving with wet guilding | |
CN201678797U (en) | Wood pulp fiber and real silk interweaving home textile fabric | |
CN206495012U (en) | A kind of woven flexible fabric of jet double-beam loom | |
CN206448001U (en) | The soft Hygroscopic material with wet guilding that a kind of warp thread pad is knitted | |
CN206457580U (en) | One kind makees the woven heat-preservation clothing material of band yarn using warp thread | |
CN106835431A (en) | One kind makees the woven heat-preservation clothing material of band yarn and its method for weaving using weft yarn | |
CN208180415U (en) | A kind of novel sofa fabric | |
CN106757654A (en) | One kind makees the woven heat-preservation clothing material of band yarn and its method for weaving using warp thread | |
CN205188545U (en) | Imitative pitted skin material of elasticity | |
CN206456028U (en) | A kind of waterproof knitting flannelette | |
CN214927681U (en) | Breathable hidden-lattice fabric | |
CN201762520U (en) | Home textile fabric with blending of bamboo fibre and Modal and interweaving of cotton fibre | |
CN106868687A (en) | Soft Hygroscopic material with wet guilding and its method for weaving that a kind of warp thread pad is knitted | |
CN105220317B (en) | Single-faced silk velvet fabric with glittering velvet flower patterns and weaving method thereof | |
CN106757653A (en) | A kind of broadwise pad knits the radiation-proof fabric and its method for weaving of metal fiber wire | |
CN205188544U (en) | Nice and cool moisture absorbable and breathable complex function jacquard fabric of uvioresistant | |
CN208844252U (en) | A kind of tatting layer cloth | |
CN210116230U (en) | Anti-acid-base fabric | |
CN102321939A (en) | Multi-functional bamboo fiber and PTT (polytrimethylene terephthalate) blended elastic fabric |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20170901 Termination date: 20180124 |