The present invention includes a coiled electrical line 7 and a chainstitch yarn 4, the chainstitch yarn 4 being continuously chain-stitched, the coiled electrical line 7 being sewn in place within a loop 3 of the chainstitch yarn 4, and the coiled electrical line 7 and the chainstitch yarn 4 being integrated. This method for manufacturing electroconductive wiring includes performing chain-stitching through use of a chain-stitching sewing machine such that the loop 3 of the chainstitch yarn 4 is formed continuously in one plane of a sheet, and, in so doing, sewing the coiled electrical line 7 in place within the loop of the chainstitch yarn to integrate the coiled electrical line 7 with the chainstitch yarn 4. A core yarn may furthermore be present inside a coil of the coiled electrical line 7. There is thereby provided electroconductive wiring that has excellent properties for following cloth, does not have excess slack, does not become kinked, and has excellent usability.
D07B 1/10 - Ropes or cables built-up from metal wires, e.g. of section wires around a hemp core the layers of which are formed of profiled interlocking wires, i.e. the strands forming concentric layers with a core of wires arranged parallel to the centre line
H01B 13/008 - Apparatus or processes specially adapted for manufacturing conductors or cables for manufacturing extensible conductors or cables
2.
COVERING YARN, TWISTED YARN, AND FIBER STRUCTURE USING SAME
A covering yarn 1, 4, 6 includes a metal filament 2 and organic fiber yarns 3 and 5. The metal filament 2 is disposed at the core, the organic fiber yarns 3 and 5 are disposed at a sheath, and the covering yarn 1, 4, 6 is entirely formed into a straight line. The metal filament 2 has a diameter of 35 μm or less, and the covering yarn 1, 4, 6 is electrically conductive. The metal filament 2 is preferably a filament of at least one selected from tungsten, molybdenum, and stainless steel. The twisted yarn according to the present invention is formed of a core yarn, a fancy yarn, and a pressing yearn. The fancy yarn includes a loop or slack. At least one selected from the core yarn, the filament, and the pressing yarn is said covering yarn, and is entirely real-twisted. Accordingly, a covering yarn and a twisted yarn in which fiber yarns themselves are as soft as common clothing fiber yarns, which have good electrical conductivity and breathability, and which can be washed at home, etc., and a fiber structure using the same are provided.
A heat-resistant bound double woven fabric which comprises: two ground weave layers (10 and 20) constituting upper and lower layers and each formed from warps and wefts; and binding yarns (1a and 1b) which connect the two upper and lower ground weave layers (10 and 20). At least one of the two upper and lower ground weave layers (10 and 20) is constituted of heat-resistant fiber yarns, and the binding yarns (1a and 1b) are constituted of fancy twisted yarns having loops. Also provided is a garment part or all of which comprises the heat-resistant bound double woven fabric and in which the ground weave layer constituted of the heat-resistant fiber yarns is disposed on the outer side. Furthermore provided is a glove which has the heat-resistant bound double woven fabric united to the grasp side and in which the ground weave layer constituted of the heat-resistant fiber yarns is disposed on the outer side. The heat-resistant bound double woven fabric is high in heat-insulating properties, heat resistance, flameproofness, flame retardancy, and protective properties. The garment and heat-resistant glove employ this fabric.
D03D 15/00 - Woven fabrics characterised by the material, structure or properties of the fibres, filaments, yarns, threads or other warp or weft elements used
D03D 15/12 - Woven fabrics characterised by the material or construction of the yarn or other warp or weft elements used using heat-resistant or fireproof threads
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