CN204394465U - Physiological signal detecting band - Google Patents

Abstract

This utility model provides a kind of physiological signal to detect band, and it comprises a band body unit and an electrode unit; Electrode unit is arranged at one of band body unit on the surface, electrode unit comprises a basal layer, an interface layer and a conductive layer, wherein interface layer has a first surface and a second surface, and basal layer is arranged on the first surface of interface layer, and conductive layer is arranged on the second surface of interface layer; Wherein, electrode unit passes through basal layer, to be arranged on the surface of band body unit.Physiological signal that this utility model provides detecting band, by the composite wood electrode unit that is made up of multilayer material to improve the detecting effect of physiological signal measuring band device, and improves the physiological signal accuracy that physiological signal measuring band device senses simultaneously.

Description

Physiological signal detecting band

Technical field

This utility model relates to a kind of physiological signal detecting band, particularly relates to a kind of physiological signal detecting band of the physiologic information for measuring organism.

Background technology

Along with the progress of science and technology, tradition is in order to measure the medical device of the various physiological signal of human body, towards the design of miniaturization and wireless penetration, with make people's (especially sufferer) can at any time, the various physiological signals of measurement everywhere itself, and make appropriate correspondence, and the number of times passing in and out medical institutes continually can be reduced, holding concurrently can the effective monitoring state of an illness, avoids emergency situations to occur.In addition, can also be applicable to as player in time training, as the basis for estimation of its physiology present situation.

On the market, existing physiological signal measuring band device at present, utilize it can tie up in human chest around bundle, by means of the conductive fabric on inner surface or conductive fiber etc. and contact skin, to sense various physiological signal, and via the radio transmitting device connected, measured various physiological signals are wirelessly transmitted to physiological signal measurements device, to carry out interpretation, to analyze and display.

But be arranged on conductive fabric on physiological signal measuring band device inner surface or conductive fiber etc. at present, still have the detecting effect of physiological signal measuring equipment poor, the physiological signal sensed comparatively inaccuracy and the many problem of noise produces.Thus, known physiological signal measuring band device still has weak point, and needs to be improved on using.

Therefore, how a kind of detecting effect that can improve physiological signal measuring band device is provided, and improve the physiological signal accuracy that physiological signal measuring band device senses simultaneously, to overcome above-mentioned defect, become the important topic one of of this cause institute for solution already.

Utility model content

Technical problem to be solved in the utility model is, a kind of physiological signal is provided to detect band for the deficiencies in the prior art, improved the detecting effect of physiological signal measuring band device by the composite wood electrode unit be made up of multilayer material, and improve the physiological signal accuracy that physiological signal measuring band device senses simultaneously.

Technical problem to be solved in the utility model is achieved by the following technical solution:

This utility model provides a kind of physiological signal to detect band, and it comprises a band body unit and an electrode unit; Described electrode unit is arranged at one of described band body unit on the surface, described electrode unit comprises a basal layer, an interface layer and a conductive layer, wherein said interface layer has a first surface and a second surface, described basal layer is arranged on the described first surface of described interface layer, and described conductive layer is arranged on the described second surface of described interface layer; Wherein, described electrode unit passes through described basal layer, to be arranged on the described surface of described band body unit.

Better, described electrode unit has multiple Micro-v oid.

Better, described interface layer is an adhesive-bonded fabric, a water-absorbing sponge or a water suction colloid.

Better, described conductive layer is a rubber conducting layer or a conductive fabric.

Better, described interface layer is that one have can absorptive interface layer.

Better, described basal layer is an adhesion colloid layer.

Of the present utility model provide in addition a kind of physiological signal detect band, it comprises a band body unit, two electrode units, one first joint element and one second joint elements; Described band body unit has a first surface and a second surface, two described electrode units are arranged on the described first surface of described band body unit, two described electrode units correspond to each other setting, electrode unit described in each comprises a basal layer, an interface layer and a conductive layer, described interface layer has a first surface and a second surface, described basal layer is arranged on the described first surface of described interface layer, and described conductive layer is arranged on the described second surface of described interface layer; Described first joint element is electrically connected at electrode unit described in one of them; Described second joint element is electrically connected at electrode unit described in another one; Wherein, electrode unit described in each passes through described basal layer, to be arranged on the described first surface of described band body unit.

Better, also comprise further: a signal transceiver, described signal transceiver has the secondary signal transmission ends that a first Signal transmissions end and corresponding to described first joint element corresponds to described second joint element, described first Signal transmissions end is electrically connected at described first joint element, and described secondary signal transmission ends is electrically connected at described second joint element.

Better, described electrode unit has multiple Micro-v oid.

Better, also comprise further: a separator, described separator is arranged between two described electrode units, and described separator covers the some of electrode unit described in the some of electrode unit described in one of them and another one.

The beneficial effects of the utility model can be, a kind of physiological signal detecting band provided by the utility model, by the composite wood electrode unit that is made up of multilayer material to improve the detecting effect of physiological signal measuring band device, and improve the physiological signal accuracy that physiological signal measuring band device senses simultaneously.Furthermore, the basal layer had by electrode unit, an interface layer and a conductive layer, to improve the accuracy of measured various physiological signals.

In order to further understand feature of the present utility model and technology contents, refer to following about detailed description of the present utility model and accompanying drawing, but accompanying drawing only provide reference and explanation use, is not used for being limited this utility model.

Accompanying drawing explanation

Fig. 1 is the perspective exploded view of this utility model embodiment one physiology signal detection band;

Fig. 2 A is the generalized section of a wherein form of the electrode unit of the physiological signal detecting band of this utility model embodiment one and embodiment two;

Fig. 2 B is the generalized section of an other form of the electrode unit of the physiological signal detecting band of this utility model embodiment one and embodiment two;

Fig. 3 A is the perspective exploded view of this utility model embodiment two physiological signal detecting band;

Fig. 3 B is the solid combination schematic diagram of this utility model embodiment two physiological signal detecting band;

Fig. 3 C is the front-view schematic diagram of this utility model embodiment two physiological signal detecting band;

Fig. 4 is the using state schematic diagram of this utility model embodiment two.

[description of reference numerals]

Physiological signal detecting band S, S '

Band body unit 1

Surface 11

First surface 12

Second surface 13

Connector 14

First connecting portion 141

Second connecting portion 142

Adjust structure 15

First end 16

The second end 17

Electrode unit 2,2 '

Basal layer 21

First surface 211

Second surface 212

Interface layer 22

First surface 221

Second surface 222

Conductive layer 23

Micro-v oid 231

First joint element 4

Second joint element 5

Signal transceiver 6

First Signal transmissions end 61

Secondary signal transmission ends 62

Separator 7

Press strip unit 8

Human body B

Fastener C

Preset distance D

Detailed description of the invention

Be below by means of specific instantiation illustrate this utility model provide physiological signal detect band embodiment, those of ordinary skill in the art the content described in this description can understand other advantages of the present utility model and effect easily.This utility model also can be implemented by means of other different specific embodiments or be applied, and the every details in this description also based on different viewpoints and application, can carry out various modification and change under not departing from spirit of the present utility model.Accompanying drawing of the present utility model is only simple declaration again, not describes according to actual size, that is unreacted goes out be correlated with the actual size of formation, hereby states.Following embodiment further describes correlation technique content of the present utility model, but and be not used to limit technology category of the present utility model.

Embodiment one

First, refer to shown in Fig. 1 to 2B, Fig. 1 is the perspective exploded view of this utility model embodiment one physiology signal detection band, Fig. 2 A is the generalized section of a wherein form of the electrode unit of the physiological signal detecting band of this utility model embodiment one and embodiment two, and Fig. 2 B is the generalized section of an other form of the electrode unit of the physiological signal detecting band of this utility model embodiment one and embodiment two.This utility model embodiment one provides a kind of physiological signal to detect band S, and it comprises band body unit 1 and an electrode unit 2.Physiological signal detecting band S can be used to the physiologic information measuring organism, as pulse etc.With this utility model embodiment one, band body unit 1 has a surface 11, and thus, electrode unit 2 can be arranged on the surface 11 of band body unit 1.For example, electrode unit 2 can directly fit on band body unit 1 by molding modes such as hot pressing, coating, weaving, spray printings, furthermore, the surrounding of electrode unit 2 also can be provided with a press strip unit 8 further, to be fixed on by electrode unit 2 on band body unit 1.

Shown in Fig. 2 A, specifically, electrode unit 2 can comprise basal layer 21, interface layer 22 and a conductive layer 23, and thus, electrode unit 2 can be a composite wood formed with multilayer material.For example, the basal layer 21 in electrode unit 2, interface layer 22 and conductive layer 23 can be integrated manufactures.Or be by by basal layer 21, interface layer 22 and conductive layer 23 three with weaving mode with to combine, to form electrode unit 2.Interface layer 22 can have first surface 221 and a second surface 222, and in detail, first surface 221 and second surface 222 can be respectively lower surface and the upper surface of interface layer 22.Basal layer 21 can be arranged on the first surface 221 of interface layer 22, and conductive layer 23 can be arranged on the second surface 222 of interface layer 22.Thus, electrode unit 2 by basal layer 21, be arranged at band body unit 1 surface 11 on.

Then, for example, with this utility model embodiment one, basal layer 21 can be an adhesion colloid layer, and in addition, basal layer 21 also can have the function blocking water and cut off the water supply.Basal layer 21 can have first surface 211 and a second surface 212, and in detail, first surface 211 and second surface 212 can be respectively lower surface and the upper surface of basal layer 21.First surface 211 and the second surface 212 of basal layer 21 can have stickiness, or are that only first surface 211 has stickiness, be used for attaching be fixed on band body unit 1 on, right this utility model is not as limit.When basal layer 21, interface layer 22 and the integrated making of conductive layer 23, during to form an electrode unit 2, basal layer 21 also can not have stickiness, and electrode unit 2 can directly be fitted in by molding modes such as hot pressing, coating, weaving, spray printing or sewings on band body unit 1.

Then, interface layer 22 can be one, and have can absorptive interface layer 22, for example, interface layer 22 can be one have absorptive material, as water-absorbing sponge, water suction colloid, also can be an adhesive-bonded fabric, thus, when the moisture on interface layer 22 is through the moisture that can pass through on interface layer 22, to promote and conductivity during organism contact skin, right this utility model is not as limit.Interface layer 22 also can be made into by natural fiber, staple fibre or its mixture.Natural fiber can be any natural fiber, and such as but not limited to cotton, fiber crops, silk or hair, staple fibre can be any staple fibre, such as but not limited to rayon fibers, nylon fiber, polyester fiber or acryl fiber.The fabric be made into can be any braid pattern such as flat fabric, adhesive-bonded fabric, screen cloth or looped fabric.

Come, conductive layer 23 can be a rubber conducting layer, and to detect the physiologic information of organism, right this utility model is not as limit again.For example, conductive layer 23 also can be the cloth with electric conductivity, such as conductive fabric.Refer to shown in Fig. 2 B, electrode unit 2 ' can have multiple Micro-v oid 231, specifically, multiple Micro-v oid 231 can be arranged on conductive layer 23.With this utility model embodiment one, multiple Micro-v oid 231 can be arranged on conductive layer 23 in the mode run through, thus, multiple Micro-v oid 231 can allow the second surface 222 of interface layer 22 out exposed, make to have and can by multiple Micro-v oid 231, and fully moisture can be taken in conductive layer 23 by the moisture in absorptive interface layer 22.To promote electrode unit 2 ' and conductivity during organism contact skin.In addition, conductive layer 23 also can have wettability, and then can strengthen and detecting effect during organism contact skin, right this utility model is not as limit.Thus, the electrode unit 2,2 ' consisted of said structure can have the function of lock water, to avoid electrode unit 2, and the 2 ' impact causing the detecting effect of physiological signal poor when being in drying.

A kind of physiological signal detecting band S that this utility model embodiment one provides, by the composite wood electrode unit 2 be made up of multilayer material, 2 ' improves the detecting effect that S is with in physiological signal detecting, and the physiological signal accuracy that raising physiological signal detecting is simultaneously with S to sense.Furthermore, by electrode unit 2,2 ' basal layer 21, interface layer 22 and the conductive layer 23 had, to improve the accuracy of measured various physiological signals.Simultaneously can by the multiple Micro-v oid 231 on conductive layer 23 by moisture transmission contained in interface layer 22 on conductive layer 23, to promote electrode unit 2,2 ' with conductivity during organism contact skin.

Embodiment two

First, refer to shown in Fig. 3 A to 3C, Fig. 3 A is the perspective exploded view of this utility model embodiment two physiological signal detecting band, Fig. 3 B is the solid combination schematic diagram of this utility model embodiment two physiological signal detecting band, and Fig. 3 C is the front-view schematic diagram of this utility model embodiment two physiological signal detecting band.Relatively can learn by Fig. 3 A and Fig. 1, embodiment two is with the difference of embodiment one: the physiological signal that embodiment one provides detect be with S can further with a signal transceiver 6 with the use of.

A kind of physiological signal detecting band S ' that this utility model embodiment two provides, it comprises a band body unit 1, two electrode units 2,1 first joint element 4 and one second joint element 5.Band body unit 1 can have first surface 12 and a second surface 13, specifically, first surface 12 with body unit can be a surface contacted with organism, and two electrode units 2 are all arranged on the first surface 12 of band body unit 1, to detect the physiologic information of organism.In detail, two electrode units 2 correspond to each other setting, meanwhile, and interval one preset distance D between two electrode units 2.With this utility model embodiment two, preset distance D can be the distance between the first joint element 4 and the second joint element 5.

Then, see also shown in Fig. 2 A and 2B, specifically, each electrode unit 2 can comprise basal layer 21, interface layer 22 and a conductive layer 23, and thus, each electrode unit 2 can be a composite wood formed with multilayer material.The interface layer 22 of each electrode unit 2 can have first surface 221 and a second surface 222, and in detail, the first surface 221 of interface layer 22 and second surface 222 can be respectively lower surface and the upper surface of interface layer 22.The basal layer 21 of each electrode unit 2 can be arranged on the first surface 221 of interface layer 22, and the conductive layer 23 of each electrode unit 2 can be arranged on the second surface 222 of interface layer 22.Thus, each electrode unit 2 by basal layer 21, be arranged at band body unit 1 first surface 12 on.In addition, the electrode unit 2 that this utility model embodiment two provides is similar with the structure of previous embodiment one, repeats no more in this appearance.Furthermore, embodiment two also can use the electrode unit 2 ' that embodiment one provides.It is worth mentioning that, the surrounding of electrode unit 2, also as described in embodiment one, is provided with a press strip unit 8 further, and to be fixed on by electrode unit 2 on band body unit 1, right this utility model is not as limit.

Hold above-mentioned, the first joint element 4 can be electrically connected at one of them electrode unit 2, second joint element 5 can be electrically connected at another one electrode unit 2.In addition, the first joint element 4 and the second joint element 5 are each other at a distance of a preset distance D.With this utility model embodiment two, two fastener C can be set, these two fasteners respectively accordingly with the first joint element 4 and the corresponding setting of the second joint element 5, in detail, first joint element 4 and the mutual clasp of one of them fastener C, the second joint element 5 and the mutual clasp of another one fastener C.Thus, one of them electrode unit 2 is between one of them fastener C and the first joint element 4, and another one electrode unit 2 is between another one fastener C and the second joint element 5.Should be noted that, the first joint element 4 and the second joint element 5 for having the metal material (as riveting button) of electric conductivity, and with fastener C clasp after must have the characteristic electrically conducted.

Hold above-mentioned, physiological signal that this utility model embodiment two provides detecting band S ' can also further with a signal transceiver 6 with the use of.Specifically, signal transceiver 6 has the first Signal transmissions end 61 that corresponds to the first joint element 4, and the secondary signal transmission ends 62 that corresponds to the second joint element 5.In detail, the first joint element 4 is provided with a pit-holes (not shown) away from an end structure of electrode unit 2, and the second joint element 5 can be provided with a pit-holes (not shown) away from an end structure of electrode unit 2.Pit-holes can be used to and the first Signal transmissions end 61 of signal transceiver 6 and secondary signal transmission ends 62 clasp mutually.Thus, by the first joint element 4 and the second joint element 5 respectively with the first Signal transmissions end 61 of signal transceiver 6 and the electric connection of secondary signal transmission ends 62, then can the physiological signal of organism be conducted on signal transceiver 6, and transfer to (not shown) in the middle of outside electronic installation by signal transceiver 6, to carry out interpretation, to analyze and display.Certainly, this utility model also can be centered around on the body part as head, arm etc., reaches the physiological signal of detecting as electrocardiogram, E.E.G, body temperature, pulse etc. thus.

In addition, in order to avoid signal transceiver 6 may be subject to the moisture content impact that organism sweats flowed out, the physiological signal detecting band S ' that this utility model embodiment two provides further can also be provided with a separator 7, separator 7 can be arranged between two electrode units 2, with isolated moisture, and separator 7 covers the some of one of them electrode unit 2 and the some of another one electrode unit 2, and cover the band body unit 1 between two electrode units 2.For example, separator 7 can be a kind of insulant, separator 7 by gluing together, seaming, ultrasound combines or the mode of hot pressing laminating is combined with being with the first surface 12 of body unit 1.In addition, separator 7 also can cover aforementioned two fastener C.Thus, separator 7 produces except sticky feeling except preventing organism skin from directly touching fastener C, importantly covers eye-catching fastener C, to reach effect attractive in appearance.It is worth mentioning that, separator 7 also has the effect of attachment fastener C simultaneously, and avoids organism directly to contact fastener C, and affect fastener C pass to the signal of signal transceiver 6.

Furthermore, with this utility model embodiment two, the two ends of band body unit 1 can also be provided with a connection piece 14 and an adjust structure 15.Specifically, connector 14 can comprise one first connecting portion 141,1 second connecting portion 142.Band body unit 1 can have a first end 16 and the second end 17, first connecting portion 141 can be arranged on the first end 16 of band body unit 1, and the second connecting portion 142 can be arranged on the second end 17 of band body unit 1.Between the first end 16 that adjust structure 15 can be arranged at band body unit 1 and the second end 17.Thus, the distance that adjust structure 15 can come between adjustment belt body unit 1 first end 16 and the second end 17 for the girth diameter of different organism, to meet suitable girth diameter size.In addition, for example, aforesaid first connecting portion 141 and the second connecting portion 142 also can be magnetic attraction element, riveting button element or other buckle elements, so the related art method that all genus this area ordinary persons use, should be all application category of the present utility model, no longer be limited at this.

Come, refer to shown in Fig. 4, Fig. 4 is the using state schematic diagram of this utility model embodiment two.The physiological signal detecting band S ' that this utility model embodiment two provides can be arranged on organism, specifically, with this utility model embodiment, this organism can be human body B, right this utility model is not as limit, such as any organism with heart beating, can use physiological signal provided by the utility model to detect band S '.Thus, the first surface 12 of band body unit 1 snugly can be surrounded on human body B, make to be with the second surface 13 of body unit 1 out exposed.And by being arranged at the mutual clasp of band body unit 1 first end 16 and the first connecting portion 141 on the second end 17 and the second connecting portion 142, with around on described human body.In addition, in order to avoid the discomfort caused when band body unit 1 Long contact time human body B, the band body unit 1 that this utility model embodiment two provides can have the function of moisture absorption, perspire.Hold above-mentioned, should be noted that, the physiological signal detecting band provided with this utility model embodiment two, also can be arranged on clothes by molding modes such as weaving or sewings, such as vest or athletic undergarment.Thus, by fitting tightly between clothes and human body B, and can be tied up by connector 14 and adjust structure 15 and be located on human body B.

A kind of physiological signal detecting band S ' that this utility model embodiment two provides, composite wood electrode unit 2 by being made up of multilayer material detects to improve physiological signal the detecting effect being with S ', and the physiological signal accuracy that raising physiological signal detecting is simultaneously with S ' to sense.Furthermore, can also, by the electric connection between electrode unit 2 and signal transceiver 6, the physiological signal of organism be transferred on outside electronic installation by signal transceiver 6, to carry out physiologic information interpretation, the analysis of organism and to show.

In sum, the beneficial effects of the utility model can be, a kind of physiological signal detecting band S that this utility model embodiment provides, S ', composite wood electrode unit 2,2 ' by being made up of multilayer material improve physiological signal detecting band S, S ' detecting effect, and improve physiological signal detecting band S, S simultaneously ' the physiological signal accuracy that senses.Furthermore, by electrode unit 2,2 ' basal layer 21, interface layer 22 and the conductive layer 23 had, to improve the accuracy of measured various physiological signals.Simultaneously can by the multiple Micro-v oid 231 on conductive layer 23 by moisture transmission contained in interface layer 22 on conductive layer 23, to promote electrode unit 2 ' and conductivity during organism contact skin.Furthermore, electrode unit 2 can also be passed through, electric connection between 2 ' and signal transceiver 6, transfers on outside electronic installation by the physiological signal of organism by signal transceiver 6, to carry out physiologic information interpretation on organism, analyze and show.

The foregoing is only better possible embodiments of the present utility model; non-ly therefore limit to claims of the present utility model; therefore the equivalence techniques change that all utilization this utility model description and accompanying drawing content are done, be all contained in claims of the present utility model.

Claims (10)

1. a physiological signal detecting band, it is characterized in that, it comprises:

One band body unit; And

One electrode unit, described electrode unit is arranged at one of described band body unit on the surface, described electrode unit comprises a basal layer, an interface layer and a conductive layer, wherein said interface layer has a first surface and a second surface, described basal layer is arranged on the described first surface of described interface layer, and described conductive layer is arranged on the described second surface of described interface layer;

Wherein, described electrode unit passes through described basal layer, to be arranged on the described surface of described band body unit.

2. physiological signal detecting band as claimed in claim 1, it is characterized in that, described electrode unit has multiple Micro-v oid.

3. physiological signal detecting band as claimed in claim 1, is characterized in that, described interface layer is an adhesive-bonded fabric, a water-absorbing sponge or a water suction colloid.

4. physiological signal detecting band as claimed in claim 1, it is characterized in that, described conductive layer is a rubber conducting layer or a conductive fabric.

5. physiological signal detecting band as claimed in claim 1, is characterized in that, described interface layer is that one have can absorptive interface layer.

6. physiological signal detecting band as claimed in claim 1, it is characterized in that, described basal layer is an adhesion colloid layer.

7. a physiological signal detecting band, it is characterized in that, it comprises:

One band body unit, described band body unit has a first surface and a second surface;

Two electrode units, two described electrode units are arranged on the described first surface of described band body unit, two described electrode units correspond to each other setting, electrode unit described in each comprises a basal layer, an interface layer and a conductive layer, described interface layer has a first surface and a second surface, described basal layer is arranged on the described first surface of described interface layer, and described conductive layer is arranged on the described second surface of described interface layer;

One first joint element, described first joint element is electrically connected at electrode unit described in one of them; And

One second joint element, described second joint element is electrically connected at electrode unit described in another one;

Wherein, electrode unit described in each passes through described basal layer, to be arranged on the described first surface of described band body unit.

8. physiological signal detecting band as claimed in claim 7, it is characterized in that, also comprise further: a signal transceiver, described signal transceiver has the secondary signal transmission ends that a first Signal transmissions end and corresponding to described first joint element corresponds to described second joint element, described first Signal transmissions end is electrically connected at described first joint element, and described secondary signal transmission ends is electrically connected at described second joint element.

9. physiological signal detecting band as claimed in claim 7, it is characterized in that, described electrode unit has multiple Micro-v oid.

10. physiological signal detecting band as claimed in claim 7, it is characterized in that, also comprise further: a separator, described separator is arranged between two described electrode units, and described separator covers the some of electrode unit described in the some of electrode unit described in one of them and another one.