CN204192607U - Multilayer conductive physiological detection structure - Google Patents

Abstract

A multi-layer conductive physiological detection structure comprises at least one piece of conductive fabric which is a sheet body and an elastic conductive braid which is a strip-shaped band body and is combined by elastic yarns and conductive units, wherein the elastic conductive braid is connected with the conductive fabric.

Description

Multilayer conductive physiology detecting structure

Technical field

This utility model relates to a kind of structure for detecting physiological signal, in particular to a kind of for physiology detecting and can the conductive structure that connects of multilamellar, and by the multilayer conductive physiology detecting structure of high frequency, high frequency waves or ultrasonic fusing.

Background technology

In known technology, when physiology detector carries out physiology detecting to human body, must be detected by fixed point, or by repeatedly sewing up, physiology detector is contacted with human skin by bonding mode, and physiology detecting structure can cannot be carried with in comfortable mode and carry out physiology detecting in real time at any time, and physiology detector need repeatedly be processed in time manufacturing, no matter be stitching, bonding mode, cost not only sinks money also time-consuming taking a lot of work, and and fails to reach stable effect.

With in known structure, its element connected mode is complicated, and when physical activity, also produce detecting physiological signal to stop breaking, when human body have stretching or extend action time, even connect element short or the open circuit of physiology detection signal, fail the device of better more comfortable physiology detection signal or structure.

Utility model content

The purpose of this utility model is to provide a kind of multilayer conductive physiology detecting structure, for physiology detecting and can multilamellar connect conductive structure, and combine by a mode welding of high frequency, high frequency waves or ultrasonic fusing, save cost and improve the multinomial advantage such as conductivity.

According to this utility model one embodiment, it discloses a kind of multilayer conductive physiology detecting structure, comprise at least a slice conductive fabric and elastic conduction ribbon, and this elastic conduction ribbon is combined by having elastic yarn with conductive unit, this yarn this conductive unit coated, this elastic conduction ribbon is connected with this conductive fabric.

In this utility model one embodiment, wherein this conductive fabric is formed by both conductive unit and yarn blending woven.

In this utility model one embodiment, wherein also comprise three-dimensional mixed yarn conductive fabric, the mixed yarn conductive fabric of this three-dimensional is made into for conductive yarn, support yarn and spinning three mix yarn, and have the structure of specific thicknesses, and the mixed yarn conductive fabric of this three-dimensional is connected by this elastic conduction ribbon three with this conductive fabric.

In this utility model one embodiment, wherein the mixed yarn conductive fabric of this three-dimensional is the structure for a protrusion shape.

In this utility model one embodiment, wherein the mixed yarn conductive fabric connected mode of this conductive fabric, elastic conduction ribbon or this three-dimensional is the multilayer conductive physiology detecting structure for gluing, Rong Jie Huo Rong connect and formed.

In this utility model one embodiment, wherein also comprise at least two panels conductive fabric, this elastic conduction ribbon combines connection between described conductive fabric.

In this utility model one embodiment, wherein the mixed yarn conductive fabric of this three-dimensional also in be provided with a prodger.

In this utility model one embodiment, wherein in practice, this prodger is the structure of a protrusion shape.

In this utility model one embodiment, wherein this prodger is foam, colloidal silica or Cotton Gossypii.

In this utility model one embodiment, wherein this yarn is chemical fibre composition, natural fiber composition or by chemical fibre and natural fibre blendedly to form.

In this utility model one embodiment, wherein this conductive fabric is rustless steel adhesive-bonded fabric.

In this utility model one embodiment, wherein this elastic conduction ribbon is the structure for being formed according to ribbon weave.

In this utility model one embodiment, wherein the conductive yarn of this elastic conduction ribbon is coated or be arranged in this elastic conduction ribbon with non-linear manner.

In this utility model one embodiment, wherein this conductive unit is conductive fiber, conductive yarn or conductor wire.

In this utility model one embodiment, wherein this elastic conduction ribbon also comprises at least two elastic yarns, and this elastic yarn is provided at elastic woven tape both sides.

The multilayer conductive physiology detecting structure of this utility model embodiment is utilize ultrasound wave, high frequency or this conductive fabric of high frequency waves mode welding, elastic conduction ribbon or three-dimensional mixed yarn conductive fabric, and the portable multi-layered conductive structure for detecting physiological signal, to reach portable, save cost, multilamellar connects and the entry such as stability is high.

Accompanying drawing explanation

For of the present utility model describing can be become apparent with other objects, feature, advantage and embodiment, appended the description of the drawings is as follows, wherein:

Fig. 1 is the exploded view of multilayer conductive physiology detecting structure of the present utility model.

Fig. 2 is the schematic diagram of multilayer conductive physiology detecting structure of the present utility model.

Fig. 3 A is the schematic diagram of the elastic conduction ribbon of multilayer conductive physiology detecting structure of the present utility model.

Fig. 3 B is the partial enlarged drawing of the elastic conduction ribbon of multilayer conductive physiology detecting structure of the present utility model.

Fig. 4 is the embodiment exploded view of multilayer conductive physiology detecting structure of the present utility model.

Fig. 5 A is the embodiment schematic diagram of multilayer conductive physiology detecting structure of the present utility model.

Fig. 5 B is the embodiment profile of multilayer conductive physiology detecting structure of the present utility model.

Fig. 6 is another enforcement illustration of multilayer conductive physiology detecting structure of the present utility model.

Detailed description of the invention

Referring to Fig. 1 and Fig. 2, is the exploded view for multilayer conductive physiology detecting structure of the present utility model and schematic diagram.As shown in Figures 1 and 2, multilayer conductive physiology detecting structure of the present utility model, it comprises at least a slice conductive fabric 100 and elastic conduction ribbon 200.Wherein, conductive fabric 100 is plates, and elastic conduction ribbon 200 is a strip belt body, is combined with conductive unit by having elastic yarn.By ultrasound wave, high frequency or high frequency waves welding mode, this conductive fabric 100 and this elastic conduction ribbon 200 are fused into one, also can an elastic conduction ribbon 200 be inserted between two panels conductive fabric 100, one is fused into again by ultrasound wave, high frequency or high frequency waves welding mode, wherein this conductive fabric 100 is formed by both conductive unit and yarn blending woven, and this conductive unit can be conductive yarn or conductor wire.

Further illustrate in this embodiment, also can comprise a three-dimensional mixed yarn conductive fabric 300, it is made into for conductive yarn, support yarn and spinning three mix yarn, and by supporting yarn and weaving manner to form the structure of specific thicknesses, and this three-dimensional is mixed yarn conductive fabric 300 and is connected by this elastic conduction ribbon 200 three with this conductive fabric 100.Secondly, elastic conduction ribbon 200 is placed between conductive fabric 100 and three-dimensional mixed yarn conductive fabric 300, more one-body molded by ultrasound wave, high frequency or high frequency waves welding mode.And the mixed yarn conductive fabric of this three-dimensional is in the structure being in fact a protrusion shape, can according to the shape being designed to protrude of weaving manner when processing technology.

Referring to Fig. 3 A and Fig. 3 B, is the schematic diagram for the elastic conduction ribbon of multilayer conductive physiology detecting structure of the present utility model and partial enlarged drawing.As shown in Fig. 3 A and Fig. 3 B, described conductive unit 201 is the one sides can being located at this elastic conduction ribbon 200 is non-directional configuration.Separately, this conductive unit 201 can be conductive yarn or conductor wire.On enforcement is used, this elastic conduction ribbon 200 can be the structure formed according to ribbon weave, or the conductive unit 201 of this elastic conduction ribbon 200 is coated on this elastic conduction ribbon 200 with non-linear manner.Separately as shown in Figure 6, the conductive unit 201 of this elastic conduction ribbon 200 is also arranged in this elastic conduction ribbon 200 with non-linear manner up and down.

In addition, shown in Fig. 3 A and Fig. 3 B, multilayer conductive physiology detecting structure of the present utility model more can comprise at least two elastic yarns 202, employing two elastic yarn in the present embodiment, in practice, this elastic yarn 202 can be located at the both sides of this elastic conduction ribbon 200, this conductive unit 201 applies to this elastic conduction ribbon 200 with both elastic yarns 202 and is not limited with this figure embodiment, this elastic conduction ribbon 200 of main explanation can comprise this conductive unit 201 and both elastic yarns 202, and its combination and weaving manner extend to some extent according to actual product design.And this elastic yarn 202 can increase hot strength, this conductive unit 201 in the configuration of this elastic conduction ribbon 200 can be Z-type be configured to be stretched for elastic conduction ribbon 200 time, this conductive unit 201 has the drawing effect of buffering, and then avoid being pulled off, promote its practicality, and be arranged so that elastic conduction ribbon 200 promotes its elastic recovery rate by elastic yarn 202.

Apply in elastic conduction ribbon in fact this conductive unit; physiological signal is transmitted by the elastic stretching of this elastic conduction ribbon and conductive unit; when human body stretch; this elastic conduction ribbon is possessed certain DE and is protected this conductive unit to transmit physiology detection signal; therefore conductive unit not only can blending in this elastic conduction ribbon; also can carry out different designs according to product actual demand, not be limited with this embodiment.

Referring to Fig. 4 to Fig. 5 B, is the enforcement illustration for multilayer conductive physiology detecting structure of the present utility model.As shown in Fig. 4 to Fig. 5 B, the mixed yarn conductive fabric 300 of this three-dimensional more can in be provided with a prodger 400, and this prodger 400 can be the materials such as foam, colloidal silica or Cotton Gossypii, when carry out ultrasound wave, high frequency or high frequency waves welding time, the prodger 400 of the mixed yarn conductive fabric 300 of this three-dimensional has certain thickness and outstanding multilayer conductive physiology detecting structure integral surface of the present utility model, increase surface area to contact with human skin, and avoid the material after conductive fabric welding to produce sense of discomfort to human body.

In addition, this conductive fabric 100 can be rustless steel adhesive-bonded fabric in time using.In another embodiment, yarn of the present utility model on utilization face for chemical fibre composition, natural fiber form or by chemical fibre and natural fibre blendedly to form.Conductive unit and yarn are carried out weave according to actual demand and then the component ratio that adjusts between the two.

Although this utility model discloses as above with embodiment; so itself and be not used to limit this utility model; anyly have the knack of this operator; not departing from spirit and scope of the present utility model; when being used for a variety of modifications and variations, therefore protection domain of the present utility model is when being as the criterion of defining depending on accompanying right.

Claims (15)

1. a multilayer conductive physiology detecting structure, is characterized in that, it at least comprises:

At least a slice conductive fabric is plates; And

One elastic conduction ribbon is a strip belt body, is combined with conductive unit by having elastic yarn;

Wherein, this elastic conduction ribbon is connected with this conductive fabric.

2. multilayer conductive physiology detecting structure as claimed in claim 1, it is characterized in that, wherein this conductive fabric is formed by both conductive unit and yarn blending woven.

3. multilayer conductive physiology detecting structure as claimed in claim 1, it is characterized in that, wherein also comprise three-dimensional mixed yarn conductive fabric, the mixed yarn conductive fabric of this three-dimensional is conductive yarn, support yarn and spinning three mixes yarn and is made into, and have the structure of specific thicknesses, and the mixed yarn conductive fabric of this three-dimensional is connected by this elastic conduction ribbon three with this conductive fabric.

4. multilayer conductive physiology detecting structure as claimed in claim 3, is characterized in that, wherein the mixed yarn conductive fabric of this three-dimensional is the structure of a protrusion shape.

5. the multilayer conductive physiology detecting structure as described in claim 1 or 3, is characterized in that, wherein connected mode is gluing, Rong Jie Huo Rong connects the multilayer conductive physiology detecting structure formed.

6. multilayer conductive physiology detecting structure as claimed in claim 1, is characterized in that, wherein also comprise at least two panels conductive fabric, and this elastic conduction ribbon combines connection between described conductive fabric.

7. multilayer conductive physiology detecting structure as claimed in claim 3, is characterized in that, wherein this three-dimensional mix yarn conductive fabric also in be provided with a prodger.

8. multilayer conductive physiology detecting structure as claimed in claim 7, it is characterized in that, wherein this prodger is the structure of a protrusion shape.

9. multilayer conductive physiology detecting structure as claimed in claim 7, it is characterized in that, wherein this prodger is foam, colloidal silica or Cotton Gossypii.

10. the multilayer conductive physiology detecting structure as described in claim 1 or 3, is characterized in that, wherein this yarn be chemical fibre composition, natural fiber composition or by chemical fibre and natural fibre blendedly to form.

11. multilayer conductive physiology detecting structures as described in claim 1 or 3, it is characterized in that, wherein this conductive fabric is rustless steel adhesive-bonded fabric.

12. multilayer conductive physiology detecting structures as described in claim 1 or 3, is characterized in that, wherein this elastic conduction ribbon is the structure formed according to ribbon weave.

13. multilayer conductive physiology detecting structures as described in claim 1 or 3, is characterized in that, wherein the conductive unit of this elastic conduction ribbon is coated or be arranged in this elastic conduction ribbon with non-linear manner.

14. multilayer conductive physiology detecting structures as claimed in claim 1 or 2, it is characterized in that, wherein this conductive unit is conductive yarn or conductor wire.

15. multilayer conductive physiology detecting structures as claimed in claim 1, it is characterized in that, wherein this elastic conduction ribbon also comprises at least two elastic yarns, and this elastic yarn is located at this elastic conduction ribbon both sides.