CN203159839U - Three-dimensional conductive fabric structure - Google Patents

Abstract

A three-dimensional conductive fabric structure comprises an elastic conductive texture, a base layer texture and a supporting texture. The supporting texture is disposed between the elastic conductive texture and the base layer texture, and is used for connecting the two. The three-dimensional conductive fabric structure is woven by the elastic conductive texture, the base layer texture and the supporting texture integrally.

Description

Three-dimensional conductive fabric structure

Technical field

The utility model relates to a kind of three-dimensional conductive fabric structure, particularly relevant a kind of three-dimensional conductive fabric structure that has elasticity and conduction effect simultaneously.

Background technology

As shown in Figure 1, the detecing element 1 that becomes known for physiological detection is to comprise that a basic unit 10 and is located at the conductive layer 11 of basic unit, be with conductive layer applying human body skin during use, with the detecting signal that human body was sent, yet, the elasticity of the conductive layer 11 of this kind detecing element 1 not good and and human body skin between conductive effect very bad, therefore can't detect the signal that human body sends and dress uncomfortable, as shown in Figure 2, edge is, follow-up just with it improvement, between conductive layer 11 and basic unit 10, add elastic layer 12, improve the adaptation that contacts between conductive layer 11 and the human body skin and make with the material of preserving moisture simultaneously with elastic layer 12 and make it have moistening effect simultaneously, improve the conductive effect of conductive layer 11 with it, yet, because elastic layer 12 is separate two-layer with conductive layer 11, when absorbing outside moisture, elastic layer 12 desires need pass through conductive layer 11, so soaking effect can be influenced, when the layer 12 of preserving moisture discharges moisture content between conductive layer 11 and the human body skin time, also can be subjected to stopping of conductive layer 11 and influence its moisture content to discharge, in addition, because elastic layer 12 and conductive layer 11 are combined the two-layer of (as bonding) by external force, therefore long-term separation easily under the influence of elastic layer 12 high humility, it is former powerful that detecing element 1 is lost.

In view of this, this creator is think of, the design team's system of grinding with great concentration, and the phase can provide a kind of structure with elasticity, conduction and moisture-keeping efficacy, to reach the purpose that improves conduction quality and life of product, desires to grind the creation motivation of wound for the utility model.

The utility model content

Main purpose of the present utility model is to provide a kind of one to weave into and have the three-dimensional conductive fabric structure of elasticity and conduction effect.

Secondary objective of the present utility model is to provide a kind of three-dimensional conductive fabric structure with moisture-keeping efficacy.

For reaching above-mentioned purpose, three-dimensional conductive fabric structure of the present utility model, comprise an elastic conduction tissue, be to be formed by many first structure yarns, many first elastomeric yarns and many conductive yam weavings, wherein, article one, the first structure yarn and first elastomeric yarn are with a burst braiding, and weave at interval with a conductive yam; One grassroots organization is to be formed by many second structure yarns and the second elastomeric yarn weaving, and second structure yarn and second elastomeric yarn are with a burst braiding; An and supporting tissue, be to be constituted by many first support yarns and many second support yarns, and be connected between this elastic conduction tissue and this grassroots organization, wherein, each bar first supports yarn and all weaves with thigh with first a structure yarn and first elastomeric yarn, extend to this grassroots organization and second a structure yarn and second elastomeric yarn again with a burst braiding, each bar second support yarn rank and a conductive yam extend to this grassroots organization and this first support yarn braiding place second a structure yarn and second elastomeric yarn burst braiding together separately again with a burst braiding.

Three-dimensional conductive fabric structure from the above, wherein, the described first structure yarn and the described second structure yarn be for polyester yarn, porous fiber yarn, sodium alginate silvalin, carboxymethyl cellulose fiber yarn and rayon fibers yarn one of them.

Three-dimensional conductive fabric structure from the above, wherein, described conductive yam be for metallic yarn, CNT (carbon nano-tube) silvalin and carbon fiber yarn one of them.

Three-dimensional conductive fabric structure from the above, described first elastomeric yarn and described second elastomeric yarn are to be the elastic polyurethane yarn.

Three-dimensional conductive fabric structure from the above, wherein, described first support yarn and described second support yarn be for polyester yarn and nylon yarn one of them.

Three-dimensional conductive fabric structure from the above, wherein, the described first structure yarn, described first elastomeric yarn and described conductive yam are to become this elastic conduction tissue by the knitting type weaving.

Three-dimensional conductive fabric structure from the above, wherein, the described second structure yarn and described second elastomeric yarn are to become this grassroots organization by the knitting type weaving.

Three-dimensional conductive fabric structure from the above, wherein, described conductive yam protrudes from the surface of whole elastic conduction tissue.

Aforesaid three-dimensional conductive fabric structure, be that one is woven into this three-dimensional conductive fabric structure and makes its effect that has elasticity and conduction in same plane body fabric simultaneously by this elastic conduction tissue, this grassroots organization and this supporting tissue, and make it have the effect of preserving moisture simultaneously by the structure yarn that blending has a moistening effect.

Description of drawings

In order further to understand feature of the present utility model, characteristics and technology contents, see also following about detailed description of the present utility model and accompanying drawing, only appended accompanying drawing only provide with reference to and explanation usefulness, non-in order to limit the utility model, wherein:

Fig. 1 is the side view for the detecing element that becomes known for physiological detection.

Fig. 2 is the side view for the detecing element that becomes known for physiological detection.

Fig. 3 is the schematic diagram for the three-dimensional conductive fabric structure of the utility model.

Fig. 4 is the local amplification stereogram for the three-dimensional conductive fabric structure of the utility model.

Fig. 5 is the local Zoom Side profile for the three-dimensional conductive fabric structure of the utility model.

The specific embodiment

Seeing also Fig. 3, is the stereogram for the three-dimensional conductive fabric structure of the utility model; As shown in the figure, in present embodiment, three-dimensional conductive fabric structure of the present utility model, comprise an elastic conduction tissue 20, a supporting tissue 30 and a grassroots organization 40, above-mentioned three in one is weaved into this three-dimensional conductive fabric structure, and this supporting tissue 30 is between this elastic conduction tissue 20 and this grassroots organization 40 and be connected both.

Seeing also Fig. 4, is the local amplification stereogram for the three-dimensional conductive fabric structure of the utility model; As shown in the figure, this elastic conduction tissue 20, be to be formed by many first structure yarns 200, many first elastomeric yarns 201 and many conductive yam 202 weavings, wherein, article one, the first structure yarn 200 and first elastomeric yarn 201 are with a burst braiding, and with a conductive yam 202 braiding at interval, in addition, the described first structure yarn 200, described first elastomeric yarn 201 and described conductive yam 202 are to become this elastic conduction tissue 20 by the knitting type weaving; This grassroots organization 40 is to be formed by many second structure yarns 400 and second elastomeric yarn, 401 weavings, and second structure yarn 400 and second elastomeric yarn 401 are with a burst braiding; This supporting tissue 30, be to be constituted by many first support yarns 300 and many second support yarns 301, and be connected between this elastic conduction tissue 20 and this grassroots organization 40, wherein, it is to weave with thigh with first a structure yarn 200 and first elastomeric yarn 201 that each bar first supports yarn 300, extend to this grassroots organization 40 and second a structure yarn 400 and second elastomeric yarn 401 again with a burst braiding, it is with a burst braiding with a conductive yam 202 that each bar second supports yarn 301, extending to this grassroots organization 40 again weaves with thigh with this first support yarn braiding place second a structure yarn 400 and second elastomeric yarn 401 separately, described first structures that support yarn 300 and the described second support yarn, 301 staggered formations make three-dimensional conductive fabric structure of the present utility model have more elasticity, when making wear, can allow wearer more comfortable, in addition, the described first support yarn 300 and described second supports yarn 301 formed small chambers and also has the effect of preserving moisture, and helps to improve conductive effect.

Seeing also Fig. 5, is the local Zoom Side profile for the three-dimensional conductive fabric structure of the utility model; As shown in the figure, this elastic conduction tissue 20, be by many first structure yarns 200, many first elastomeric yarns 201 and many conductive yam 202 weavings form, and one the first structure yarn 200 and first elastomeric yarn 201 are with a burst braiding, and with a conductive yam 202 braiding at interval, so after whole three-dimensional conductive fabric structure braiding is finished, the online pulling force of yarn disappears, elastomeric yarn 201 can tighten and conductive yam 202 outwards be pushed this moment first, make conductive yam 202 comparatively protrude from the surface of whole elastic conduction tissue 20, this effect can be guaranteed when fabric contacts with human body, conductive yam 202 can contact with human body earlier, and makes three-dimensional conductive fabric structure of the present utility model have better detecting effect.

This first structure yarn 200 and this second structure yarn 400 are to be polyester yarn (polyester yarn), porous fiber yarn (porous fiber yarn), sodium alginate silvalin (alginate fiber yarn), carboxymethyl cellulose fiber yarn (carboxymethyl cellulose fiber yarn) and rayon fibers yarn (rayon fiber yarn) one of them, wherein, the porous fiber yarn, the sodium alginate silvalin, carboxymethyl cellulose fiber yarn and rayon fibers yarn have the effect of preserving moisture, so when the first structure yarn 200 and the second structure yarn 400 are selected four kinds of materials of bundle for use, can make three-dimensional conductive fabric structure of the present utility model have elasticity simultaneously, the effect of preserving moisture and conducting electricity.

Described first elastomeric yarn 201 and described second elastomeric yarn 401 are to be elastic polyurethane yarn (spandex yarn), described conductive yam 202 be for metallic yarn (metal fiber yarn), CNT (carbon nano-tube) silvalin (carbon nanotube firber yarn) and carbon fiber yarn (carbon fiber yarn) one of them, described first support yarn 300 and described second support yarn 301 be for polyester yarn (polyester yarn) and nylon yarn (nylon yarn) one of them.

The above only is preferable possible embodiments of the present utility model, non-so namely limit to claim of the present utility model, the equivalent structure that every utilization the utility model specification and accompanying drawing content are done changes, and all reason is with being contained in the claim scope of the present utility model.

Claims (8)

1. a three-dimensional conductive fabric structure is characterized in that, comprising:

One elastic conduction tissue is formed by many first structure yarns, many first elastomeric yarns and many conductive yam weavings, and wherein, first a structure yarn and first elastomeric yarn weave with thigh, and weave at interval with a conductive yam;

One grassroots organization is formed by many second structure yarns and many second elastomeric yarn weavings, and second a structure yarn and second an elastomeric yarn burst braiding together; And

One supporting tissue, constituted by many first support yarns and many second support yarns, and be connected between this elastic conduction tissue and this grassroots organization, wherein, each bar first supports yarn and all weaves with thigh with first a structure yarn and first elastomeric yarn, extend to again this grassroots organization and with second a structure yarn and second elastomeric yarn with a burst braiding, each bar second support yarn all with a conductive yam with a burst braiding, extend to again this grassroots organization with this first support yarn braiding place separately second structure yarn and second elastomeric yarn with strand weaving.

2. three-dimensional conductive fabric structure according to claim 1, it is characterized in that, the wherein said first structure yarn and the described second structure yarn be polyester yarn, porous fiber yarn, sodium alginate silvalin, carboxymethyl cellulose fiber yarn and rayon fibers yarn one of them.

3. three-dimensional conductive fabric structure according to claim 1 is characterized in that, wherein said conductive yam be metallic yarn, CNT (carbon nano-tube) silvalin and carbon fiber yarn one of them.

4. three-dimensional conductive fabric structure according to claim 1 is characterized in that, wherein said first elastomeric yarn and described second elastomeric yarn are the elastic polyurethane yarn.

5. three-dimensional conductive fabric structure according to claim 1 is characterized in that, wherein said first support yarn and described second support yarn be polyester yarn and nylon yarn one of them.

6. three-dimensional conductive fabric structure according to claim 1 is characterized in that, the wherein said first structure yarn, described first elastomeric yarn and described conductive yam become this elastic conduction tissue by the knitting type weaving.

7. three-dimensional conductive fabric structure according to claim 1 is characterized in that, the wherein said second structure yarn and described second elastomeric yarn become this grassroots organization by the knitting type weaving.

8. three-dimensional conductive fabric structure according to claim 1 is characterized in that wherein said conductive yam protrudes from the surface of whole elastic conduction tissue.

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