TWM564600U - Fabric with breathable hollow hole structure - Google Patents
Fabric with breathable hollow hole structure Download PDFInfo
- Publication number
- TWM564600U TWM564600U TW107203022U TW107203022U TWM564600U TW M564600 U TWM564600 U TW M564600U TW 107203022 U TW107203022 U TW 107203022U TW 107203022 U TW107203022 U TW 107203022U TW M564600 U TWM564600 U TW M564600U
- Authority
- TW
- Taiwan
- Prior art keywords
- group
- warp
- fabric
- weft
- yarns
- Prior art date
Links
Landscapes
- Woven Fabrics (AREA)
Abstract
本創作係為一種具有透氣簍空孔洞組織結構的織物,主要利用空氣紡方式將彈性纖維(spandex)被圍繞聚酯纖維(PET)或尼龍(NYLON)而形成包覆紗(彈性複合紗),其特徵在於將包覆紗應用在本創作經紗與緯紗,其利用梭織絞綜方式將兩條以上經紗圍繞數根緯紗進行扭絞形成數種織物結構變化,並將經紗順序交叉排列做成組織錯位交叉設計,而形成大小不同的簍空孔洞織物,本創作產品具有簍空孔洞設計與彈性、透氣性,不僅能增加織物結構組織的安定性,其組織所形成的透氣孔洞會促進織物涼爽性增加,使本創作產品能廣泛地應用在休閒運動織物方面。 The present invention is a fabric having a ventilated hollow structure, which is mainly formed by air spinning to form a covered yarn (elastic composite yarn) around a polyester fiber (PET) or nylon (NYLON). The utility model is characterized in that the covering yarn is applied to the original warp yarn and the weft yarn, and the two or more warp yarns are twisted around the plurality of weft yarns by the woven twisting and weaving method to form several kinds of fabric structure changes, and the warp yarns are sequentially arranged to form a tissue. The misaligned cross design and the formation of different sizes of hollow hole fabrics, the creation of the product has hollow hole design and elasticity, gas permeability, not only can increase the stability of the fabric structure, the venting holes formed by the tissue will promote the fabric coolness The increase has enabled the creation of this product to be widely used in casual sports fabrics.
Description
本創作係有關於一種具有透氣簍空孔洞組織結構的織物,指主要利用空紡將彈性纖維(spandex)被圍繞聚酯纖維(PET)或尼龍(NYLON)而形成包覆紗,將包覆紗應用在經紗與緯紗,其利用梭織絞綜方式將兩條以上經紗圍繞數根緯紗進行扭絞形成數種具有簍空的織物結構。 The present invention relates to a fabric having a structure of a ventilated hollow hole, which means that the spandex is mainly wrapped around polyester fiber (PET) or nylon (NYLON) by means of air spinning, and the covered yarn is covered. The utility model relates to a warp yarn and a weft yarn, which twists two or more warp yarns around a plurality of weft yarns by a woven twisting weave method to form a plurality of hollow fabric structures.
市面上,傳統型孔洞織物係以梭織織造方式作成織物,而此設計應用於襯衫面料與女裝夏季裙裝等,此種設計在視覺外觀上不易看出像襯衫面料及女裝夏季裙裝有明顯的孔洞外觀具透氣性,而所採用的經緯紗線不具有彈性,不僅限制了織物具有伸展彈性,若織面具有簍空設計也無法在進行運動時展現出來織物特性。 In the market, the traditional hole fabric is made into a fabric by woven weaving, and this design is applied to shirt fabrics and women's summer dresses. This design is not easy to see in the visual appearance like shirt fabrics and women's summer dresses. The apparent appearance of the hole is breathable, and the warp and weft yarns used do not have elasticity, which not only limits the stretch elasticity of the fabric, but also exhibits the fabric characteristics when the fabric has a hollow design.
本創作主要目的,係要提出一種具有透氣簍空孔洞組織結構的織物專利申請,而本創作的技術方面主要利用空氣包紗方式將彈性纖維(spandex)被圍繞聚酯纖維(PET)或尼龍(NYLON)而形成包覆紗,其特徵在於將具有交絡節點的包覆紗應用在本創作經紗與緯紗,其利用梭織絞綜方式將兩條以上經紗圍繞數根緯紗進行扭絞形成數種織物結構變化,並將經紗順序交叉排列做成組織錯位交叉設計,而形成大小不同的孔洞織物,並具有簍空設計與透氣性,不僅能增加織物結構組織的安定性,其組織所形成的透氣孔洞會促進 織物涼爽性增加,亦具有穿著透氣不熱且吸濕排汗彈性高的特性,使本創作產品能廣泛地應用在休閒運動織物方面,並在進行運動間的伸展下,其孔洞藉由此動作能讓布料透氣值增加,更能提高人們穿著舒適性。 The main purpose of this creation is to propose a fabric patent application with a breathable hollow hole structure, and the technical aspect of the creation mainly uses air-wrapped yarn to surround the spandex with polyester fiber (PET) or nylon ( NYLON) to form a covered yarn, which is characterized in that a covered yarn having an entanglement node is applied to the present warp and weft yarn, which twists two or more warp yarns around a plurality of weft yarns by a woven weave to form several kinds of fabrics. The structure changes, and the warp yarns are arranged in a crosswise arrangement to form a dislocation crossover design, and a hole fabric with different sizes is formed, and has a hollow design and gas permeability, which not only increases the stability of the fabric structure, but also forms a venting hole formed by the tissue. Will promote The fabric has increased cooling properties, and also has the characteristics of being breathable and not absorbing moisture and wicking moisture. This product can be widely used in casual sports fabrics, and the holes can be moved by stretching during exercise. It can increase the ventilation value of the fabric and improve the wearing comfort.
為了使審查工作者更能明瞭本創作的特徵、功能,及結構,茲配合如下之圖式及圖號說明本創作於后; In order to make the reviewer better understand the features, functions, and structure of the creation, the following drawings and drawings are used to illustrate the creation;
A,C,E,G,I,K,M,O‧‧‧經紗方向 A, C, E, G, I, K, M, O‧‧‧ warp direction
B,D,F,H,J,L,N,P‧‧‧緯紗方向 B, D, F, H, J, L, N, P‧‧‧ weft direction
A11,A12,C11,C12,E11,E12,E13,E14,G11,G12,I11,I12,K11,K12,M11,M12,O11,O12‧‧‧經紗 A11, A12, C11, C12, E11, E12, E13, E14, G11, G12, I11, I12, K11, K12, M11, M12, O11, O12‧‧ warp
B21,B22,B23,D1,F1,H1,J1,L1,N11,N12,N13,P11,P12,P13,P14,P15‧‧‧緯紗 B21, B22, B23, D1, F1, H1, J1, L1, N11, N12, N13, P11, P12, P13, P14, P15‧‧‧ weft
A1,A2,C1,C2,E1,E2,G1,G2,I1,I2,K1,K2,M1,M2,O1,O2‧‧‧群組 A1, A2, C1, C2, E1, E2, G1, G2, I1, I2, K1, K2, M1, M2, O1, O2‧‧ Group
AB1,AB2,CD1,CD2,EF1,EF2,GH1,GH2,IJ1.IJ2,KL1,KL2,MN1,MN2,OP1,OP2‧‧‧交叉點 AB1, AB2, CD1, CD2, EF1, EF2, GH1, GH2, IJ1.IJ2, KL1, KL2, MN1, MN2, OP1, OP2‧‧‧ intersection
V1,V2,V3,V4,V5,V6,V7,V8‧‧‧簍空孔洞 V1, V2, V3, V4, V5, V6, V7, V8‧‧‧ hollow holes
100,700‧‧‧2X3紗羅組織 100,700‧‧‧2X3 leno
200,400,500‧‧‧2X1紗羅組織 200,400,500‧‧‧2X1 leno
300‧‧‧4X1紗羅組織 300‧‧‧4X1 leno tissue
600‧‧‧2X1排列反向紗羅組織 600‧‧‧2X1 arranged reverse saddle
800‧‧‧2X5紗羅組織 800‧‧‧2X5 leno organization
W‧‧‧身體 W‧‧‧ body
圖1 係為本創作之2X3紗羅組織立體示意圖。 Figure 1 is a three-dimensional schematic diagram of the 2X3 leno weave.
圖2 係為本創作之2X3紗羅組織示意圖之一。 Figure 2 is one of the schematic diagrams of the 2X3 leno structure of the creation.
圖3 係為本創作之2X1紗羅組織立體示意圖之一。 Figure 3 is one of the stereoscopic schematic diagrams of the 2X1 leno weave.
圖4 係為本創作之4X1紗羅組織立體示意圖。 Figure 4 is a perspective view of the 4X1 leno weave of the creation.
圖5 係為本創作之2X1紗羅組織立體示意圖之二。 Figure 5 is the second schematic view of the 2X1 leno weave of the creation.
圖6 係為本創作之2X1紗羅組織示意圖。 Figure 6 is a schematic diagram of the 2X1 leno structure of the creation.
圖7係為本創作之2X1排列反向紗羅組織示意圖。 Figure 7 is a schematic diagram of the 2X1 aligned reverse leno structure of the present creation.
圖8 係為本創作之2X3紗羅組織示意圖之二。 Figure 8 is the second schematic diagram of the 2X3 leno structure of the creation.
圖9 係為本創作之2X5紗羅組織示意圖。 Figure 9 is a schematic diagram of the 2X5 leno structure of the creation.
圖10 係為本創作實施例之一。 Figure 10 is one of the creative embodiments.
圖11 係為本創作實施例之二。 Figure 11 is the second embodiment of the present invention.
本創作係為一種具有透氣簍空孔洞組織結構的織物,主要利用空氣包紗方式將彈性纖維(spandex)取40~200丹尼被圍繞聚酯纖維(PET)或尼龍(NYLON)取20~140丹尼,而形成包覆紗具有交絡節點的包覆紗應用在本發明經紗方向A,C,E,G,I,K,M,O與緯紗方向B,D,F,H,J,L,N的經、緯紗,其特徵在 於將,其利用梭織絞綜方式將兩條以上經紗圍繞數根緯紗進行扭絞形成數種織透氣孔洞組織結構的織物100~800。 This creation is a fabric with a ventilated hollow hole structure. The air-wrapped yarn is used to take 40~200 denier from spandex and 20~140 around polyester (PET) or nylon (NYLON). Danny, and the covered yarn forming the covered yarn with the entanglement node is applied to the warp direction A, C, E, G, I, K, M, O and weft direction B, D, F, H, J, L of the present invention. , N warp and weft yarns, characterized by In the woven woven fabric, two or more warp yarns are twisted around a plurality of weft yarns to form a plurality of fabrics 100 to 800 woven into a venting hole structure.
如圖1及圖2所示2X3(經紗數X緯紗數)紗羅組織100,其中經紗方向A與緯紗方向B,經紗A11,A12採二道為一群組A1,緯紗B21,B22,B23採三道為一群組,其中經紗A11,A12交叉形成交叉點AB1,同時與另一群組A2的交叉點AB2之間形成簍空孔洞V1。如圖3所示2X1紗羅組織200,其中經紗方向C與緯紗方向D,經紗C11,C12採二道為一群組C1,緯紗D1採一道為一群組,其中經紗C11,C12交叉形成交叉點CD1,同時與另一群組C2的交叉點CD2之間形成簍空孔洞V2。 As shown in Fig. 1 and Fig. 2, 2X3 (number of warp yarns X number of weft yarns), the yarn structure 100, wherein warp direction A and weft direction B, warp yarns A11, A12 take two lanes as a group A1, weft yarns B21, B22, B23 The three tracks are a group in which the warp yarns A11 and A12 intersect to form the intersection point AB1, and at the same time, the hollow hole V1 is formed between the intersection point AB2 and the other group A2. As shown in Fig. 3, the 2X1 leno weave 200, wherein the warp direction C and the weft direction D, the warp yarns C11, C12 take two lanes as a group C1, and the weft yarns D1 take a group as a group, wherein the warp yarns C11 and C12 cross each other to form a cross. A point CD1 is formed while a hollow hole V2 is formed between the intersection CD2 of another group C2.
如圖4所示4X1紗羅組織300,其中經紗方向E與緯紗方向F,經紗E11,E12,E13,E14採四道為一群組E1,緯紗F1採一道為一群組,其中經紗E11,E14交叉形成交叉點EF1,同時與另一群組E2的交叉點EF2之間形成簍空孔洞V3。如圖5所示2X1紗羅組織400,其中經紗方向G與緯紗方向H,經紗G11,G12採二道為一群組G1,緯紗H1採一道為一群組,其中經紗G11,G12交叉形成交叉點GH1,同時與另一群組G2的交叉點GH2之間形成簍空孔洞V4。 As shown in Fig. 4, the 4X1 leno weave 300, wherein the warp direction E and the weft direction F, the warp yarns E11, E12, E13, E14 take four lanes as a group E1, and the weft yarns F1 take a group as a group, wherein the warp yarn E11, The E14 intersects to form the intersection EF1 while forming a hollow hole V3 with the intersection EF2 of the other group E2. As shown in Fig. 5, the 2X1 leno weave 400, wherein the warp direction G and the weft direction H, the warp yarns G11, G12 are taken as a group G1, and the weft yarn H1 is taken as a group, wherein the warp yarns G11 and G12 cross each other to form a cross. A point GH1 is formed while a hollow hole V4 is formed between the intersection GH2 and the other group G2.
如圖6所示2X1紗羅組織500,其中經紗方向I與緯紗方向J,經紗I11,I12採二道為一群組I1,緯紗J1採一道為一群組,其中經紗I11,I12交叉形成交叉點IJ1,同時與另一群組I2的交叉點IJ2之間形成簍空孔洞V5。如圖7所示2X1排列反向紗羅組織600,其中經紗方向K與緯紗方向L,經紗K11,K12採二道為一群組K1,緯紗L1採一道為一群組,其中經紗K11,K12交叉形成交叉點KL1,同時與另一群組K2的交叉點KL2之間形成簍空孔洞V6。 As shown in Fig. 6, the 2X1 leno weave 500, wherein the warp direction I and the weft direction J, the warp yarns I11, I12 take two lanes as a group I1, and the weft yarns J1 take a group as a group, wherein the warp yarns I11 and I12 cross each other to form a cross. A point IJ1 is formed, and a hollow hole V5 is formed between the intersection IJ2 and the other group I2. As shown in Fig. 7, 2X1 arranges the reverse leno weave 600, wherein the warp direction K and the weft direction L, the warp yarns K11, K12 take two lanes as a group K1, and the weft yarns L1 take a group as a group, wherein the warp yarns K11, K12 The intersection forms a cross point KL1 while forming a hollow hole V6 between the intersection KL2 of another group K2.
如圖8所示2X3紗羅組織700,其中經紗方向M與緯紗方向N,經紗M11,M12採二道為一群組M1,緯紗N11,N12,N13採三道為一群組,其中經紗 M11,M12交叉形成交叉點MN1,同時與另一群組M2的交叉點MN2之間形成簍空孔洞V7。如圖9所示2X5紗羅組織800,其中經紗方向O與緯紗方向P,經紗O11,O12採二道為一群組O1,緯紗P11,P12,P13,P14,P15採五道為一群組,其中經紗O11,O12交叉形成交叉點OP1,同時與另一群組O2的交叉點OP2之間形成簍空孔洞V8。 As shown in Fig. 8, 2X3 leno weave 700, wherein warp direction M and weft direction N, warp yarns M11, M12 take two lanes as a group M1, weft yarns N11, N12, N13 take three lanes as a group, wherein warp yarns M11, M12 intersect to form a crossing point MN1, and a hollow hole V7 is formed between the intersection MN2 and another group M2. As shown in Fig. 9, the 2X5 leno weave 800, wherein the warp direction O and the weft direction P, the warp yarns O11, O12 take two lanes as a group O1, the weft yarns P11, P12, P13, P14, P15 take five lanes as a group Wherein the warp yarns O11, O12 intersect to form the intersection OP1, and at the same time, the hollow hole V8 is formed between the intersection OP2 of the other group O2.
如圖10所示並將經紗順序交叉排列做成組織錯位交叉設計,而形成大小不同的簍空孔洞V1~V8織物,而具有簍空設計與透氣性,不僅能增加織物結構組織的安定性,其組織所形成的透氣孔洞會促進織物涼爽性增加,亦具有穿著透氣不熱且吸濕排汗彈性高的特性,使本發明產品能廣泛地應用在休閒運動織物方面,並在進行運動間的身體W伸展下,其簍空孔洞V1~V8藉由此動作能讓布料透氣值增加,更能提高人們穿著舒適性如圖11所示。 As shown in Fig. 10, the warp yarns are arranged in a crosswise arrangement to form a dislocation intersection design, and the hollow holes V1 to V8 fabrics having different sizes are formed, and the hollow design and the air permeability are provided, which not only can increase the stability of the fabric structure, The venting holes formed by the tissue promote the increase of the coolness of the fabric, and also have the characteristics of being ventilated and not hot, and having high moisture wicking elasticity, so that the product of the invention can be widely applied to the leisure sports fabric, and during the exercise. When the body W is stretched, the hollow holes V1~V8 can increase the ventilation value of the fabric by this action, and the wearing comfort can be improved as shown in FIG.
Claims (9)
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TW107203022U TWM564600U (en) | 2018-03-08 | 2018-03-08 | Fabric with breathable hollow hole structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TW107203022U TWM564600U (en) | 2018-03-08 | 2018-03-08 | Fabric with breathable hollow hole structure |
Publications (1)
Publication Number | Publication Date |
---|---|
TWM564600U true TWM564600U (en) | 2018-08-01 |
Family
ID=63960761
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
TW107203022U TWM564600U (en) | 2018-03-08 | 2018-03-08 | Fabric with breathable hollow hole structure |
Country Status (1)
Country | Link |
---|---|
TW (1) | TWM564600U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113388944A (en) * | 2021-07-02 | 2021-09-14 | 浙江理工大学 | Upper shedding mechanism and drafting method of two-warp leno fabric without fixed twisting group |
-
2018
- 2018-03-08 TW TW107203022U patent/TWM564600U/en not_active IP Right Cessation
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113388944A (en) * | 2021-07-02 | 2021-09-14 | 浙江理工大学 | Upper shedding mechanism and drafting method of two-warp leno fabric without fixed twisting group |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US9365958B2 (en) | Woven stretch fabric and method for its production | |
CN106400264B (en) | Garment and manufacturing method thereof | |
CN210438890U (en) | Flannel jean fabric | |
CN107075751A (en) | Elastic fabric and its preparation technology | |
CN202247147U (en) | COOLMAX fiber, bamboo fiber and conductive fiber blended fabric | |
CN110184711B (en) | Four-side elastic imitation knitted jean fabric | |
CN107415378A (en) | The ventilative radiating shell fabric of one kind and processing method | |
TW201938868A (en) | A woven fabric having a hollow structure of air-permeable baskets | |
CN106367873A (en) | Spandex stretch fabric jean cloth with knitted fabric-similar impression and performance | |
TWM564600U (en) | Fabric with breathable hollow hole structure | |
CN210684061U (en) | Multilayer composite yarn and fabric thereof | |
US20230144350A1 (en) | Novel woven warp-knit-like fabric | |
JP7328238B2 (en) | Method for producing stretch fabric containing plant fibers and stretch fabric produced by this method | |
JP2018127743A (en) | Bulky fabric, and production method of the same | |
TWI630296B (en) | Woven bristle elastic fabric and manufacturing method thereof | |
CN214992151U (en) | Moisture-absorbing sweat-releasing antibacterial color spinning fabric | |
TWI785306B (en) | Open mesh leno fabric, a bag made from it, and a method of making the leno fabric | |
CN211994519U (en) | Three-proofing composite fabric | |
CN204491132U (en) | Cool feeling silk stocking | |
CN208006392U (en) | A kind of heterochromatic two-sided interwoven silk | |
CN209010704U (en) | A kind of household wearing comfort fabric | |
CN207331172U (en) | A kind of simulating hemp-simulating surfacing material | |
CN206345968U (en) | A kind of sun washs the high two-color fabric thoroughly of intertexture | |
CN210458504U (en) | Superfine ultra-dense thin waterproof down-proof fabric | |
CN212312989U (en) | Anti-wrinkle cotton fabric |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
MM4K | Annulment or lapse of a utility model due to non-payment of fees |