CN212000058U - Intelligent wearable vortex spun conductive yarn - Google Patents

Abstract

The utility model discloses an intelligent eddy current spinning conductive yarn for wearing, which comprises a yarn body; the yarn body comprises a core yarn, an insulating wrapping layer and a silk fiber layer; the core yarn is a carbon fiber tow; the conductive carbon fiber wire comprises a substrate carbon wire, a graphene coating and a nano silver coating; the substrate carbon filament is a carbon fiber filament; coating a graphene coating on the surface of the substrate carbon filament; plating the nano silver plating layer on the surface of the graphene coating; the insulating wrapping layer is made of aramid fibers, and the aramid fibers are wrapped outside the core yarns in a spiral manner; the silk fiber layer is mulberry silk, the mulberry silk spiral wrap is in outside the insulating wrap layer. The utility model discloses tensile breaking strength is high, and spinnability is good, and the conductivity is high, and the wearability is good, and the comprehensive properties is excellent, can be applied to intelligence and dress the fabrics, and stability and security are good.

Description

Intelligent wearable vortex spun conductive yarn

Technical Field

The utility model relates to a textile sector, in particular to intelligence is dressed and is spun with vortex conductive yarn.

Background

With the continuous progress of society, textile technology and textile equipment are continuously developed, new yarns are continuously appeared, and vortex spun yarns are one of the most attractive yarns. Vortex spinning is a new technology in the existing spinning system, compared with the traditional ring spinning: the method has the characteristics of short spinning flow, high production efficiency, online quality monitoring, high automation intelligent degree and the like, and also has the advantages of greatly reducing labor, reducing yarn hairiness and the like. Therefore, the vortex spun yarn is processed into needle and cotton fabrics, and has the advantages of smooth cloth cover, less hairiness, good wear resistance, good fuzz and pilling resistance, bright color, moisture absorption, quick drying and the like. At present, the vortex spinning technology is researched a lot at home and abroad, but the research on the linear performance of the vortex spinning is less.

With the development and popularization of intellectualization, conductive fibers have attracted attention as one of typical representatives of smart fibers. The conductive fiber has excellent application prospect in the aspects of sensors, clothes and the like. However, the existing conductive yarn has unsatisfactory conductivity and spinnability, hard texture, and poor stability and durability.

SUMMERY OF THE UTILITY MODEL

For solving the technical problem, the utility model provides an intelligence is dressed with vortex spinning conductive yarn adopts conductive carbon fiber silk for conductive wire, at carbon fiber silk surface coating graphite alkene layer, at graphite alkene layer surface coating nanometer silver cladding material, has solved current conductive yarn and has had electric conductive property and can spinnability unsatisfactory, feel hard partially, stability and the poor problem of durability.

In order to achieve the above purpose, the technical scheme of the utility model is as follows: an intelligent eddy-spun conductive yarn for wearing comprises a yarn body; the yarn body comprises a core yarn, an insulating wrapping layer and a silk fiber layer; the core yarn is a carbon fiber tow; the carbon fiber tows comprise 500-3000 conductive carbon fiber yarns; the conductive carbon fiber wire comprises a substrate carbon wire, a graphene coating and a nano silver coating; the substrate carbon filament is a carbon fiber filament; coating a graphene coating on the surface of the substrate carbon filament; plating the nano silver plating layer on the surface of the graphene coating; the insulating wrapping layer is made of aramid fibers, and the aramid fibers are wrapped outside the core yarns in a spiral manner; the silk fiber layer is mulberry silk, the mulberry silk spiral wrap is in outside the insulating wrap layer.

As a preferred scheme of the utility model, the substrate carbon filament is 0.02-0.05 tex.

As a preferred embodiment of the present invention, the thickness of the graphene coating is 15-25 μm.

As a preferable scheme of the present invention, the carbon fiber tow comprises 800-.

As a preferred scheme of the utility model, the mulberry silk is 44.4 dtex.

Through the technical scheme, the utility model discloses technical scheme's beneficial effect is: the utility model discloses a superfine substrate carbon silk, superpose graphite alkene coating and nanometer silver cladding material on its surface, make the conductive wire, fine and soft, have good electric conductive property, graphite alkene coating surface has the slot, and the slot of graphite alkene coating is filled to nanometer silver cladding material, further improves the conductivity, and the holistic intensity of carbon fiber silk bundle is high simultaneously, and the pliability is good, and spinnability is good; the aramid fiber is coated outside the carbon fiber tows, so that a good insulation effect can be realized, the anti-creep performance of the aramid fiber is good, interlayer slippage among the core yarn, the insulation wrapping layer and the silk fiber layer is avoided, the stability of the yarn body is improved, and meanwhile, the aramid fiber has excellent flame retardant property and the safety of the yarn body is improved; the silk fiber layer adopts mulberry silk, has soft and bright luster, soft and smooth hand feeling, good moisture absorption and air permeability, and can greatly improve the textile performance of the yarn body.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic cross-sectional structure diagram of the present invention.

Fig. 2 is a schematic cross-sectional structure view of the conductive carbon fiber of the present invention.

The corresponding part names indicated by the numbers and letters in the drawings:

1. core yarn 2, insulating wrapping layer 3, silk fibre layer

4. 5 parts of substrate carbon wires, 6 parts of graphene coating and 6 parts of nano silver coating.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Examples

With reference to fig. 1 and 2, the utility model discloses an intelligent wearable vortex spun conductive yarn, which comprises a yarn body; the yarn body comprises a core yarn 1, an insulating wrapping layer 2 and a silk fiber layer 3; the core yarn 1 is a carbon fiber tow; the carbon fiber tows comprise 500-3000 conductive carbon fiber yarns; preferably, the carbon fiber tow comprises 800 — 1200 conductive carbon fiber filaments. The conductive carbon fiber wire comprises a substrate carbon wire 4, a graphene coating 5 and a nano silver coating 6; the substrate carbon filament 4 is a carbon fiber filament; the substrate carbon filament 4 is 0.02 to 0.05 tex. Coating a graphene coating 5 on the surface of the substrate carbon filament 4; preferably, the thickness of the graphene coating 5 is 15-25 μm. Plating a nano silver plating layer 6 on the surface of the graphene coating layer 5; the insulating wrapping layer 2 is aramid fiber, and the aramid fiber is wrapped outside the core yarn 1 in a spiral manner; the silk fiber layer 3 is mulberry silk, and the mulberry silk is spirally wrapped outside the insulating wrapping layer 2. Preferably, the mulberry silk is 44.4 dtex.

In order to ensure the excellent conductivity of the utility model and reduce the resistivity, the thickness of the graphene coating 5 is 15-25 μm. The thickness of the nano silver plating layer 6 is 8-20 μm.

Through the above-mentioned specific embodiment, the beneficial effects of the utility model are that: the utility model discloses a superfine substrate carbon silk 4, superpose graphite alkene coating 5 and nanometer silver cladding material 6 on its surface, make the conducting wire, fine and soft, have good electric conductive property, graphite alkene coating 5 surface has the slot, and the slot of graphite alkene coating 5 is filled to nanometer silver cladding material 6, further improves the conductivity, and the holistic intensity of carbon fiber silk bundle is high simultaneously, and the pliability is good; the aramid fiber is coated outside the carbon fiber tows, so that a good insulation effect can be realized, the anti-creep performance of the aramid fiber is good, interlayer slippage among the core yarn 1, the insulation wrapping layer 2 and the silk fiber layer 3 is avoided, the stability of the yarn body is improved, and meanwhile, the aramid fiber has excellent flame retardant property and improves the safety of the yarn body; the silk fiber layer 3 adopts mulberry silk, has soft and bright luster, soft and smooth hand feeling and good moisture absorption and air permeability, and can greatly improve the textile performance of the yarn body.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (5)

1. The intelligent vortex spun conductive yarn for wearing is characterized by comprising a yarn body; the yarn body comprises a core yarn, an insulating wrapping layer and a silk fiber layer; the core yarn is a carbon fiber tow; the carbon fiber tows comprise 500-3000 conductive carbon fiber yarns; the conductive carbon fiber wire comprises a substrate carbon wire, a graphene coating and a nano silver coating; the substrate carbon filament is a carbon fiber filament; coating a graphene coating on the surface of the substrate carbon filament; plating the nano silver plating layer on the surface of the graphene coating; the insulating wrapping layer is made of aramid fibers, and the aramid fibers are wrapped outside the core yarns in a spiral manner; the silk fiber layer is mulberry silk, the mulberry silk spiral wrap is in outside the insulating wrap layer.

2. The vortex spun conductive yarn for smart wear according to claim 1, wherein the substrate carbon filament is 0.02-0.05 tex.

3. The smart wearable vortex spun conductive yarn of claim 1, wherein the graphene coating has a thickness of 15-25 μ ι η.

4. The intelligent-wearing vortex-spun conductive yarn as claimed in claim 3, wherein the carbon fiber tow comprises 800 and 1200 of the conductive carbon fiber filaments.

5. The intelligent eddy current spun conductive yarn for wearing according to claim 3, wherein the mulberry silk is 44.4 dtex.

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