TWI279463B - Anti-static fabric - Google Patents

Abstract

The invention provides an anti-static fabric including a plurality of conductive yarns which each is blended with at least one ultra-fine metal wire and a plurality of respective textile fibers. The anti-static fabric thereof defines a first side and a second side. In particular, the anti-static fabric has at least one textile structure property such that the conductive yarns at the floating points on the first side of the fabric appear the metal wires, and the conductive yarns at the floating points on the second side of the fabric appear the metal wires.

Description

1279463 IX. Description of the invention: [Technical field to which the invention pertains] [Prior Art] Industry, = electromechanical advancement and miniaturization 'Many of today's production protection needs have increased significantly. For example, s electrostatic, and the dust of dust pollution is very easy to make _ electronic products. In the second dust environment, the quality of the drug caused by static electricity and pollution is not. Second, the dust pile products in the process can be more and more useful. The mouth is so good that it is good for electricity and dust-proof weaving n („) (FIexible 柰 mouth, food and powder. Blood dust f such as Meng mine, wearing, is in the half, things; f dust ^ ^ room Made by the operator; the electrostatic cloth re-wovens the carbon or gold or the original into the finished product; (3) the f fiber or the fabric is electrically conductive. However, the non-conducting in the way of ==== has only surface treatment, so Anti-static cloth made by Fangff, „either friction and failure. This is the ideal of J and is easy for I. The antistatic cloth made of antistatic w may have some blocks easily divided into 2 1279463 The first side. In particular, the conductive yarn such as 誃λ has at least a textile structure characteristic such as a conductive yarn _ anti-static metal wire 1 line. Buzi- _ occurrence of individual gold ^ according to the present invention a yarn and a plurality of bundles of conductive yarns. The antistatic cloth comprising a plurality of bundles of conductive yarns is a first textile fiber, and the warp yarns are woven into the weft yarns. The first side of Yiyi and the second side. The second anti-static cloth itself' causes the conductive yarns to resist: There are at least - textile structure special metal wires, and some other metal wires appear at the characteristics of the conductive yarns. The appearance of the floating point on the two sides of the electric cloth is one, and the advantages and fine patterns of the present invention are further obtained. The invention is described in detail below and the accompanying embodiment: electric cloth = xnle. Each bundle of textile yarns 12 is made up of ^^ = Xtlle fiber) 122. The antistatic cloth 1 also contains g (Conctove yams) 14. Each bundle of conductive yarns 14 is formed of at least one ultrafine gold = 142 and a plurality of individual second textile fibers 144. The conductive yarn 14 uncovered by the second is composed of a root ultrafine metal wire 142 and a plurality of individual textile fibers H4. The second __ and the metal wire 1279463 can be combined or conjugated. Wrfl - In the specific embodiment, the diameter of each of the 'fresh metal wires' is between 10 microns and 80 microns. In a specific embodiment, each of the metal wires may be made of a wire, a metal having high electrical conductivity, or an alloy having high electrical conductivity. In a second embodiment, the first textile fibers and the second textile fibers can be a general natural fiber, a synthetic fiber or a textile conductive fiber. Also shown in the figure - 'part of the spun yarn 12 is partially offset from the portion of the conductive yarn 14 along the second row J as the warp yarn (Warp yam), as shown in the first direction in the L direction. The other textile yarns are staggered along the other conductive yarns in the latitudinal direction as the latitudinal fine ^), as shown in the figure - the yarns arranged in the T direction. The latitudes are woven together to the yarns (12, 14) to complete the antistatic cloth i.抗", the antistatic cloth 1 has the meaning of - the first side - the second side. The electric cloth 1 has at least one textile structural characteristic, resulting in the first side and the second side of the antistatic fabric Floating point fine = line 142 'let the ocean point become a metal conductive floating point, and the person n of the conductive path of the cloth i (CGnduetive windQw), due to the point threat, the object is guided by the object. The textile structure of 1 represents both the surface morphology of the side of the antistatic cloth 1 and the surface morphology of the second side of the antistatic cloth 1. In the specific embodiment, the yarn width of the at least the textile structure yarn is 8~20捻/英对. Gangen V electric warp yarn-specific sealing towel 'The at least-textile structure characteristic comprises the density of the 1279496 is 100~180 roots/inch. In a specific embodiment The at least the density of the lean transition is 80 to 140 pairs/inch. The A, , and . structural characteristics include the same, and in a specific embodiment, the at least the spinning fabric has an embryonic shrinkage rate of 6~ The 25%, a, , and θ properties include the antistatic cloth in a specific embodiment, and the at least one The ratio of 6 to 25%, and the structure of the material comprises the antistatic cloth. In a specific embodiment, the at least the textile fabric has a residual rate of 〜 8%. The antistatic cloth is included. In addition, in another preferred embodiment, only a plurality of conductive yarns are included. Each of the conductive yarns according to the present invention can be formed with a plurality of individual textile fibers. Partially from at least one ultra-fine metal wire to the yarn, the other conductive (four) along the latitudinal row = yarns are arranged along the warp direction to woven through the warp yarns to complete the anti-static yarn. The weft yarn system is combined with a first side and a second side. In particular, the antistatic cloth itself defines a structural property, so that the conductive yarn is on the antistatic cloth; a metal wire, and the electron yarn appears in the anti-static = where the individual metal wire appears. On the two sides of the cloth, the floating point is discharged, in another preferred embodiment, according to Multiple bundles of textile yarns and multiple bundles of conductive yarns. Each bundle of textile yarns - textile fibers are formed. Each bundle of conductive yarns consists of at least - Fine: the woven fabric and other conductive yarns are staggered along the latitudinal direction as the weft ί, Γ the latitudinal yarn is woven together with the warp yarns to complete the definition of the antistatic 哕 electrostatic cloth itself a first side and a second side. The antistatic cloth has a structure of up to two textile structures, such that the conductive yarns are on the first surface of the antistatic cloth, 1279463' and are equally arranged in the present invention. Within the scope of the patent scope to be applied for.

11 1279463 [Simplified illustration of the drawings] Fig. 1 is a structural view of an antistatic cloth according to a preferred embodiment of the present invention. 12 : Textile yarn 14 : Conductive yarn 144 : Ultra-fine metal wire T: Direction of weft yarn [Description of main components] 1 : Antistatic cloth 122 : First textile fiber 142 : Second textile fiber L: Direction of warp yarn

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Claims (1)

V P79463 丨丨7, the scope of application for patents: __4, an antistatic cloth (WTO 4&1; 丨(^]^), including: Multi-string textile yarn (Textile yam), each bundle of textile yarns is composed of multiple A plurality of individual textile fibers are formed; and a plurality of conductive yarns (Conductive yams) each of which is composed of at least one thin metal wire (Ultra-fme metal wire) and a plurality of individual wires. In the second textile, some textile yarns and some conductive yarns are staggered along the warp direction as (^arp yam), and other textile yarns are staggered along with other conductive yarns along the latitudinal row = :, V (Weft Yam) 'The weft yarns are woven with the warp yarns to two: f antistatic cloth' the antistatic cloth Benn n side and - the J3 ^ cloth has at least - textile structural characteristics, resulting in The conductive yarns have individual metal wires appearing at the floating point of the anti-static surface, and the V is electrically generated, and individual metals appear at the floating point on the second side of the antistatic cloth. ^ The at least - textile structure contains the density of the warp yarns of 1 (8) to 180 / 2, and the anti-static described in the first item An electric cloth, wherein each of the metal wires has a diameter ranging from 10 micrometers to 80 micrometers. The mother 3, the antistatic cloth of the first aspect of the patent, wherein the metal, the coil in the wire ― The root metal wire is made of a stainless steel, an alloy with high electrical conductivity, and a mother's electrical properties. The metal of the three-month 等 或 or has a high conductivity | Cloth of the first spinning mother-root fiber system-natural fiber, an artificial fiber or a textile conductive fiber thread:, 5. The antistatic cloth according to item 1, wherein the second textile Transmission dimension Φ mother fiber system - natural fiber, an artificial fiber or a textile conductive fiber dimension 6, as claimed in the application of the range of anti-static cloth, wherein the at least - textile structure special 13 1279463 contains each The yarn of the conductive yarn has a yarn twist of 8 to 2 〇捻 / 。. 7. The antistatic cloth according to claim 1, wherein the at least one spinning property comprises the density of the weft yarns such as ~(4) Root / English.,, ~ constitutive 8, as in the scope of patent application The antistatic cloth, wherein the at least one property comprises the antistatic cloth having an embryonic shrinkage ratio of 6 to 25%.,,, 0,,,,,,,,,,,,,,,,, Wherein the at least one property comprises a finished fabric shrinkage ratio of 6 to 25% of the antistatic cloth. ',, ",,", and the antistatic cloth according to the scope of the patent application, wherein The at least one characteristic comprises a finished cloth shrinkage ratio of the antistatic cloth of 1 to 8%. ,,for,,,. Structure 11, an anti-static fabric, comprising: a plurality of conductive yarns (Conductive yams), each bundle of conductive yarns consisting of at least - = metal wire (Ultm-fme metal wire) and a plurality of individual textiles The fiber household electric yarn is arranged along the warp direction as a warp yarn (, -, other conductive iii:, the first side, the side of the antistatic cloth has at least - a textile structure i conducts a float on the first side of the 4 antistatic cloth) Point (F1〇a ^ genus: and the conductive yarns in the antistatic coffee, the at least one textile structural characteristic comprises the density of the warp yarns as the work / job / 12, as described in claim n Anti-static-rooted gold rider Wei® from the female 嶋 ^ ^ ^ 4 gold hidden in the mother 13, as (4) patent fine (4) anti-static wealth, which in the edge of each 1279463: root metal tips Stainless steel, metal with high electrical conductivity or alloy with high electrical conductivity. 4. Antistatic cloth according to item 11 of the patent application scope, the mother of the fiber The root fiber is a natural fiber, an artificial fiber or a textile conductive fiber. 15. An antistatic cloth (Anti- Static fabric), comprising: a plurality of textile yarns (Textile yam), each bundle of textile yarns consisting of a plurality of individual first textile fibers; and a plurality of conductive yarns (Conductive yams), each The bundle of conductive yarns is formed by at least one ultra-fine metal wire and a plurality of individual second textile fibers; wherein some of the conductive yarns are arranged in the warp direction as a warp yarn (Warp yam), The textiles, crepe and other conductive yarns are staggered in a weft direction as a weft yarn (we yam), and the weft yarns are woven together with the warp yarns to complete the antistatic cloth. The electrostatic cloth itself defines a first side and a second side, and the antistatic cloth has at least one textile structural characteristic, so that the conductive yarns appear on the floating point of the first side of the antistatic cloth. Metal wires, and the conductive wires present individual metal wires at a floating point on the second side of the antistatic cloth; wherein the at least one textile structure characteristic comprises the warp yarns having a density of 1 〇〇 18 〇 Root / English. 16, if the scope of patent application is 15 The antistatic cloth, wherein each of the metal wires has a diameter ranging from 10 micrometers to 8 micrometers. 17. The antistatic cloth according to claim 15, wherein Each of the metal wires is made of a stainless steel, a metal having high electrical conductivity, or an alloy having high electrical conductivity. ^ ° 18, antistatic cloth as described in claim 15 Wherein the mother fiber of the first textile fibers is a natural fiber, an artificial fiber or a textile conductive fiber. The antistatic cloth of claim 15, wherein each of the second textile fibers is a natural fiber, an artificial fiber or a woven conductive fiber.