CN205232060U - Physiology monitoring sensor belt , physiology monitoring mattress, monitoring system - Google Patents

Abstract

The utility model discloses a physiology monitoring sensor belt, physiology monitoring mattress, monitoring system. Wherein, physiology monitoring sensor belt includes: the first triboelectricity layer and the second triboelectricity layer of range upon range of setting, form frictional interface between first triboelectricity layer and the second triboelectricity layer, the insulating layer on first triboelectricity layer of cladding and second triboelectricity layer, the electrically conductive shielding layer of the first triboelectricity layer of cladding, second triboelectricity layer and insulating layer, and, as physiology monitoring sensor belt's output electrode's an extraction electrode and the 2nd extraction electrode. This physiology monitoring sensor belt has the self -power, sensitivity is high, the output signal of telecommunication is stable, use easy operation, size wantonly adjustable, the quality light, the user uses comfortable convenience, and structure and preparation simple process, low cost, is fit for the characteristics that the large -scale industry metaplasia was produced, still has simultaneously from the function dampproofing and self -shileding, has increased the stability of exporting the signal of telecommunication, has prolonged life.

Description

Physiology monitoring sensing zone, physiology monitoring mattress, monitoring system

Technical field

The utility model relates to technical field of medical equipment, more particularly, relates to a kind of physiology monitoring sensing zone, physiology monitoring mattress, monitoring system.

Background technology

The monitoring of the body indexs such as breathing, heartbeat is significant for the monitoring of health and the diagnosis and treatment of disease, for particularly important patient.But, the body index monitoring instrument problems that but ubiquity is more such as existing breathing, heartbeat.

Existing monitoring of respiration equipment is mostly expensive, and instrument is complicated, and needs professional to operate, and also necessarily requires monitored person to wear mouth and nose formula monitor during monitoring, causes uncomfortable sensation and psychological pressure easily to monitored person.

And existing heartbeat monitoring device mostly is electrocardiograph, and common electrocardiograph price is mostly very expensive, and operator also needs through professional training.In addition, must require that monitored person sticks multiple crosslinking electrode when monitoring, causing monitored person's upper body to be covered with line, bring larger psychological burden easily to monitored person, interference diagnostic result, and electrocardiosignal is also easily subject to the impact of outside electromagnetic interference.In addition, human body is in sleep procedure, and sleeping position can in continuous change, and being arranged on the transducers such as the crosslinking electrode on monitored person's health may come off in the process of sleeping position change, finally causes wholely monitoring unsuccessfully, cannot realize the object of monitoring.

In addition, the body index monitoring instruments such as existing breathing, heartbeat are mostly independent uses, only for the monitoring of specialties, such as current existing electrocardiograph does not take into account the function that monitoring is breathed, and current existing monitoring of respiration equipment does not take into account the function of monitoring heartbeat yet, real-time, the comprehensive health monitoring for monitored person is made to become difficulty thus.

In sum, the body index monitoring instrument ubiquity function singleness such as existing breathing, heartbeat; Be subject to external interference, functional reliability is poor; Structure, manufacture craft and use complicated operation; Problem with high costs.

Utility model content

Goal of the invention of the present utility model is the defect for prior art, proposes a kind of physiology monitoring sensing zone, physiology monitoring mattress, monitoring system, for solving monitoring instrument function singleness of the prior art; Be subject to external interference, functional reliability is poor; Structure, manufacture craft and use complicated operation; Problem with high costs.

The utility model provides a kind of physiology monitoring sensing zone, comprising:

First triboelectricity layer of stacked setting and the second triboelectricity layer; Frictional interface is formed between first triboelectricity layer and the second triboelectricity layer;

The insulating barrier of coated first triboelectricity layer and the second triboelectricity layer;

The conductive shielding layer of coated first triboelectricity layer, the second triboelectricity layer and insulating barrier; And,

As the first extraction electrode and second extraction electrode of the output electrode of physiology monitoring sensing zone;

Wherein, the first extraction electrode and the second extraction electrode are connected with the first triboelectricity layer and the second triboelectricity layer respectively; Or the first extraction electrode is connected with the first triboelectricity layer or the second triboelectricity layer, and the second extraction electrode is connected with conductive shielding layer.

The utility model additionally provides a kind of physiological monitoring system comprising above-mentioned physiology monitoring sensing zone, also comprises: terminal equipment, carries out statistical analysis, and show statistic analysis result for the electro-physiological signals exported physiology monitoring sensing zone.

The utility model additionally provides a kind of physiology monitoring mattress, comprising: above-mentioned physiology monitoring sensing zone, and mattress body; Physiology monitoring sensing zone is arranged on inside and/or the outside of mattress body.

The utility model additionally provides a kind of physiological monitoring system comprising above-mentioned physiology monitoring mattress, also comprises: terminal equipment, carries out statistical analysis, and show statistic analysis result for the electro-physiological signals exported physiology monitoring mattress.

The physiology monitoring sensing zone that the utility model provides, physiology monitoring mattress, monitoring system make based on the principle of friction generator, it not only can be used for monitoring human breathing, the frequency of heartbeat and/or waveform, also can monitor the time point standing up, occur from the actuating signal such as bed, snoring and/or respective action signal simultaneously.For sleep physiology monitoring, when people is in quiet sleep, the electro-physiological signals (as voltage signal) exported by physiology monitoring sensing zone can reflect frequency and/or the waveform of breathing, heartbeat in human body quiet sleep; During when occurring standing up in sleeping, from the action such as bed, snoring, physiology monitoring sensing zone can export the electro-physiological signals obviously differing from and be in quiet sleep, and above-mentioned be all analyze sleep quality and human health status provides accurately, reliable data are basic.

Relative to prior art, the advantage of the physiology monitoring sensing zone that the utility model provides, physiology monitoring mattress, monitoring system is:

(1) the physiology monitoring sensing zone provided due to the utility model, physiology monitoring mattress, monitoring system make based on the principle of friction generator, thus its have self-powered, highly sensitive, export the signal of telecommunication and stablize, and use feature simple to operate.

(2) the utility model provide physiology monitoring sensing zone, physiology monitoring mattress, monitoring system is by arranging insulating barrier and conductive shielding layer in self structure, achieve the function from moistureproof and self-shileding, this not only adds the stability that it exports the signal of telecommunication, also extend useful life simultaneously.

(3) the physiology monitoring sensing zone provided due to the utility model, physiology monitoring mattress, monitoring system adopt the flexible thin-film material being convenient to cut to make, thus the size of this physiology monitoring sensing zone arbitrarily adjustable, quality light, user uses comfort and convenient.

(4) the physiology monitoring sensing zone, physiology monitoring mattress, monitoring system structure and the manufacture craft that provide of the utility model simple, with low cost, be applicable to large-scale industrial production.

Accompanying drawing explanation

The cross section structure schematic diagram of the embodiment one of the physiology monitoring sensing zone that Fig. 1 provides for the utility model;

The cross section structure schematic diagram of the embodiment two of the physiology monitoring sensing zone that Fig. 2 provides for the utility model;

The cross section structure schematic diagram of the embodiment three of the physiology monitoring sensing zone that Fig. 3 provides for the utility model;

The cross section structure schematic diagram of the embodiment four of the physiology monitoring sensing zone that Fig. 4 provides for the utility model;

The cross section structure schematic diagram of the embodiment five of the physiology monitoring sensing zone that Fig. 5 provides for the utility model;

The cross section structure schematic diagram of the embodiment six of the physiology monitoring sensing zone that Fig. 6 provides for the utility model;

The cross section structure schematic diagram of the embodiment seven of the physiology monitoring sensing zone that Fig. 7 provides for the utility model;

The cross section structure schematic diagram of the embodiment eight of the physiology monitoring sensing zone that Fig. 8 provides for the utility model;

The cross section structure schematic diagram of the embodiment nine of the physiology monitoring sensing zone that Fig. 9 provides for the utility model;

The cross section structure schematic diagram of the embodiment ten of the physiology monitoring sensing zone that Figure 10 provides for the utility model;

The schematic diagram of the first high molecular polymer insulating barrier one side surface of the physiology monitoring sensing zone that Figure 11 provides for the utility model;

The flow chart of the embodiment one of the manufacture method of the physiology monitoring sensing zone that Figure 12 provides for the utility model;

The flow chart of the embodiment two of the manufacture method of the physiology monitoring sensing zone that Figure 13 provides for the utility model;

The flow chart of the embodiment three of the manufacture method of the physiology monitoring sensing zone that Figure 14 provides for the utility model.

Embodiment

For fully understanding the object of the utility model, feature and effect, by following concrete execution mode, the utility model is elaborated, but the utility model is not restricted to this.

The physiology monitoring sensing zone that the utility model provides makes based on the principle of friction generator, and it comprises the first triboelectricity layer, the second triboelectricity layer, insulating barrier, conductive shielding layer and as the first extraction electrode of the output electrode of physiology monitoring sensing zone and the second extraction electrode.Wherein, the first triboelectricity layer and the second triboelectricity are folded to be layer by layer set together, and forms frictional interface between the first triboelectricity layer and the second triboelectricity layer; The coated first triboelectricity layer of insulating barrier and the second triboelectricity layer; The coated first triboelectricity layer of conductive shielding layer, the second triboelectricity layer and insulating barrier; First extraction electrode and the second extraction electrode are connected with the first triboelectricity layer and the second triboelectricity layer respectively; Or the first extraction electrode is connected with the first triboelectricity layer or the second triboelectricity layer, and the second extraction electrode is connected with conductive shielding layer.

The physiology monitoring sensing zone that the utility model provides is without the need to dressing, can be laid immediately on mattress inside, upper surface, lower surface maybe can make in the effective coverage of physiology monitoring sensing zone normal monitoring distance mattress certain distance, for Human Physiology monitoring, reflect human health status in real time.

Alternatively, physiology monitoring sensing zone also can comprise: the protective layer of coated with conductive screen outer surface.The setting of protective layer not only plays a protective role to internal structure, and avoiding external environmental factor affects its internal structure and normally work, and also ensure that the clean of its internal structure, also can be fixed on mattress by above-mentioned physiology monitoring sensing zone by demand simultaneously.Protective layer is demountable structure, is convenient to like this clean, ensure that the sanitation and hygiene of physiology monitoring sensing zone.

Above-mentioned insulating barrier can completely coated first triboelectricity layer and the second triboelectricity layer, forms a kind of full pack arrangement; Above-mentioned insulating barrier also can completely coated first triboelectricity layer, and the coated second triboelectricity layer of part, the subregion of the second triboelectricity layer is contacted with conductive shielding layer, forms a kind of half pack arrangement.The structure of physiology monitoring sensing zone is described in detail below by several specific embodiment.

The cross section structure schematic diagram of the embodiment one of the physiology monitoring sensing zone that Fig. 1 provides for the utility model, particularly, Fig. 1 shows the sectional view of each layer structure of physiology monitoring sensing zone inside.As shown in Figure 1, the first triboelectricity layer is specially the first high molecular polymer insulating barrier 11, second triboelectricity layer that a side surface is provided with the first electrode 10 and is specially the second high molecular polymer insulating barrier 12; One side surface is provided with the first high molecular polymer insulating barrier 11 of the first electrode 10 and the second high molecular polymer insulating barrier 12 is stacked is set together, and the first high molecular polymer insulating barrier 11 does not arrange between a side surface of the first electrode 10 and the second high molecular polymer insulating barrier 12 and forms frictional interface; Completely coated first electrode 10, first high molecular polymer insulating barrier 11 and the second high molecular polymer insulating barrier 12 of insulating barrier 13; Conductive shielding layer 14 is coated on the outer surface of insulating barrier 13 completely, i.e. completely coated first electrode 10, first high molecular polymer insulating barrier 11, second high molecular polymer insulating barrier 12 and the insulating barrier 13 of conductive shielding layer 14; Protective layer 15 is coated on the outer surface of conductive shielding layer 14 completely, i.e. completely coated first electrode 10, first high molecular polymer insulating barrier 11, the second high molecular polymer insulating barrier 12 of protective layer 15, insulating barrier 13 and conductive shielding layer 14; First electrode 10 connects the first extraction electrode 16, and conductive shielding layer 14 connects the output electrode that the second extraction electrode 17, first extraction electrode 16 and the second extraction electrode 17 are physiology monitoring sensing zone.Physiology monitoring sensing zone shown in Fig. 1 is a kind of full pack arrangement.

Insulating barrier 13 is specially the insulating tape of one-side band glue or double-sided belt glue, as PETG adhesive tape, i.e. PET adhesive tape, insulating tape by the first electrode 10, first high molecular polymer insulating barrier 11 and the complete coated formation closed structure of the second high molecular polymer insulating barrier 12, i.e. full pack arrangement.First electrode 10, first high molecular polymer insulating barrier 11 and the second high molecular polymer insulating barrier 12 wrap up by insulating barrier 13, on the one hand, serve waterproof and moistureproof effect, eliminate the operation of carrying out damp-proof treatment at outermost surface; On the other hand, solve the encapsulation problem of the friction generator structure be made up of the first electrode 10, first high molecular polymer insulating barrier 11 and the second high molecular polymer insulating barrier 12, avoid the impact of outside environmental elements on the first high molecular polymer insulating barrier 11 and the second high molecular polymer insulating barrier 12 triboelectricity.

Conductive shielding layer 14 is specially one-side band glue or the conductive tape not with glue, and conductive shielding layer 14 is coated on the outer surface of insulating barrier 13 completely.If insulating barrier 13 is the insulating tape of one-side band glue, then conductive shielding layer 14 is the conductive tape of one-side band glue, particularly, band glue surface mount first electrode 10, the first high molecular polymer insulating barrier 11 of insulating barrier 13 and the second high molecular polymer insulating barrier 12, the band glue surface mount of conductive shielding layer 14 is at the outer surface of insulating barrier 13; If insulating barrier 13 is the insulating tape of double-sided belt glue, then conductive shielding layer 14 is the conductive tape not with glue, particularly, the first electrode 10, first high molecular polymer insulating barrier 11 and the second high molecular polymer insulating barrier 12 is pasted on first band glue surface, side (i.e. the inner surface of insulating barrier 13) of insulating barrier 13, and conductive shielding layer 14 is pasted onto the second band glue surface, side (i.e. the outer surface of insulating barrier 13) of insulating barrier 13.

Protective layer 15 can be tissue layer or plastic layer or plastic film, as being plastic layer, is then frivolous plastics.Protective layer 15 not only plays a protective role to internal structure (i.e. the first electrode 10, first high molecular polymer insulating barrier 11, second high molecular polymer insulating barrier 12, insulating barrier 13 and conductive shielding layer 14); avoid external environmental factor to affect its internal structure and normally work; also ensure that the clean of its internal structure, also by demand, above-mentioned physiology monitoring sensing zone can be fixed on mattress simultaneously.Preferred protective layer 15 is demountable structure, is convenient to like this clean, and ensure that the sanitation and hygiene of above-mentioned physiology monitoring sensing zone.Certainly, above-mentioned physiology monitoring sensing zone also can not arrange protective layer 15.

In the present embodiment, the first electrode 10 is specially the conductive tape of one-side band glue, by the band glue surface mount of the first electrode 10 on the first high molecular polymer insulating barrier 11.In addition, also can by apply or the technique such as sputtering directly by electrode material, as indium tin oxide, Graphene, nano silver wire film, metal or alloy, be arranged on the first high molecular polymer insulating barrier 11 and form the first electrode 10, do not limit herein.

First electrode 10 connects the first extraction electrode 16 by the mode of riveted joint, and the utility model is not restricted rivet kind, can need customization rivet kind according to client.Particularly, one end of the first extraction electrode 16 is directly riveted on the conductive tape as the first electrode 10.Conductive shielding layer 14 also connects the second extraction electrode 17 by the mode of riveted joint, is not restricted equally to rivet kind.Particularly, one end of the second extraction electrode 17 is directly riveted on the conductive tape as conductive shielding layer 14.

In the present embodiment, the second extraction electrode 17 is grounding electrode, i.e. conductive shielding layer 14 ground connection.When above-mentioned physiology monitoring sensing zone is under pressure, as people's faint breath in sleep procedure, heartbeat action applied pressure, or standing up appears in people in sleep, from bed, snoring waits action applied pressure, different action applied pressure all can make the friction produced between the first high molecular polymer insulating barrier 11 and the second high molecular polymer insulating barrier 12 in various degree, the first electrode 10 is made to induce corresponding electric charge, again because conductive shielding layer 14 ground connection is zero potential, finally make the electrical potential difference existed between the first electrode 10 and conductive shielding layer 14 in various degree, therefore, the electro-physiological signals of varying strength is exported between first extraction electrode 16 and the second extraction electrode 17.This by the mode of the second extraction electrode 17 ground connection (i.e. conductive shielding layer 14 ground connection), conductive shielding layer 14 is not only made to use as an output electrode of above-mentioned physiology monitoring sensing zone, it is also made to use as screen, and by better for the shield effectiveness after its ground connection.

The physiology monitoring sensing zone that the present embodiment provides makes based on the principle of friction generator, lay or be embedded in the mattress region (mattress such as spring, coconut palm palm fibre) that this physiology monitoring sensing zone can be made normally to monitor, mattress region as corresponding in human chest.This physiology monitoring sensing zone not only can be used for monitoring human breathing, the frequency of heartbeat and/or waveform, also can monitor the time point standing up, occur from the actuating signal such as bed, snoring and/or respective action signal simultaneously.For sleep physiology monitoring, when people is in quiet sleep, the electro-physiological signals (as voltage signal) exported by physiology monitoring sensing zone can reflect frequency and/or the waveform of breathing, heartbeat in human body quiet sleep; During when occurring standing up in sleeping, from the action such as bed, snoring, physiology monitoring sensing zone can export the electro-physiological signals obviously differing from and be in quiet sleep, and above-mentioned be all analyze sleep quality and human health status provides accurately, reliable data are basic.

The physiology monitoring sensing zone provided due to the utility model is the principle based on friction generator, the flexible thin-film material being convenient to cut is adopted to make, therefore it has self-powered, highly sensitive, the output signal of telecommunication is stablized, use simple to operate, size is adjustable arbitrarily, quality is light, user uses comfort and convenient, and structure and manufacture craft simple, with low cost, be applicable to the feature of large-scale industrial production, this physiology monitoring sensing zone by arranging insulating barrier and conductive shielding layer in self structure simultaneously, achieve the function from moistureproof and self-shileding, this not only adds the stability that it exports the signal of telecommunication, also extend useful life simultaneously.

The cross section structure schematic diagram of the embodiment two of the physiology monitoring sensing zone that Fig. 2 provides for the utility model, particularly, Fig. 2 shows the sectional view of each layer structure of physiology monitoring sensing zone inside.As shown in Figure 2, the structure of the present embodiment physiology monitoring sensing zone and the difference of Fig. 1 are, the friction generator structure of the incomplete coated the inside of insulating barrier 18, namely the friction generator structure of completely not coated first electrode 10, first high molecular polymer insulating barrier 11 and the second high molecular polymer insulating barrier 12 formation, is a kind of half pack arrangement.Particularly, completely coated first electrode 10 and the first high molecular polymer insulating barrier 11 of insulating barrier 18, and the coated second high molecular polymer insulating barrier 12 of part, make the subregion of the second high molecular polymer insulating barrier 12 contact with conductive shielding layer 14.

Insulating barrier 18 is specially the insulating tape of one-side band glue or double-sided belt glue, as PETG adhesive tape, i.e. PET adhesive tape, completely coated first electrode 10 and the first high molecular polymer insulating barrier 11 of insulating tape, and the coated second high molecular polymer insulating barrier 12 of part, the subregion of the second high molecular polymer insulating barrier 12 is contacted with conductive shielding layer 14.

Conductive shielding layer 14 is specially the conductive tape of one-side band glue, and conductive shielding layer 14 is coated on the outer surface of insulating barrier 18 completely, and contacts with the subregion of the second high molecular polymer insulating barrier 12.When the insulating tape that insulating barrier 18 is one-side band glue, band glue surface mount first electrode 10 of insulating barrier 18 and the first high molecular polymer insulating barrier 11, and bonding partially second high molecular polymer insulating barrier 12, the outer surface of the band glue surface mount insulating barrier 18 of conductive shielding layer 14 and the second high molecular polymer insulating barrier 12 are not formed hermetically-sealed construction by the subregion that insulating barrier 18 is coated; When the insulating tape that insulating barrier 18 is double-sided belt glue, particularly, the first electrode 10 and the first high molecular polymer insulating barrier 11 is pasted on first band glue surface, side (i.e. the inner surface of insulating barrier 18) of insulating barrier 18, and bonding partially second high molecular polymer insulating barrier 12, the band glue surface mount of conductive shielding layer 14 is not formed hermetically-sealed construction by the subregion that insulating barrier 18 is coated on the second band glue surface, side (i.e. the outer surface of insulating barrier 18) of insulating barrier 18 and the second high molecular polymer insulating barrier 12.

By the hermetically-sealed construction that the second high molecular polymer insulating barrier 12, insulating barrier 18 and conductive shielding layer 14 are formed, on the one hand, serve waterproof and moistureproof effect, eliminate the operation of carrying out damp-proof treatment at outermost surface; On the other hand, solve the encapsulation problem of the friction generator structure be made up of the first electrode 10, first high molecular polymer insulating barrier 11 and the second high molecular polymer insulating barrier 12, avoid the impact of outside environmental elements on the first high molecular polymer insulating barrier 11 and the second high molecular polymer insulating barrier 12 triboelectricity.

Except above difference, in the present embodiment, the concrete setting of other each Rotating fields all see the description of embodiment one, can not repeat them here.

The cross section structure schematic diagram of the embodiment three of the physiology monitoring sensing zone that Fig. 3 provides for the utility model, particularly, Fig. 3 shows the sectional view of each layer structure of physiology monitoring sensing zone inside.As shown in Figure 3, the structure of the present embodiment physiology monitoring sensing zone and the difference of Fig. 1 are, the second triboelectricity layer is specially the second electrode lay 22; One side surface is provided with the first high molecular polymer insulating barrier 11 of the first electrode 10 and the second electrode lay 22 is stacked is set together, and the first high molecular polymer insulating barrier 11 does not arrange between a side surface of the first electrode 10 and the second electrode lay 22 and forms frictional interface.Physiology monitoring sensing zone shown in Fig. 3 is also a kind of full pack arrangement.

In Fig. 3, the first extraction electrode 16 is connected with the first electrode 10, and the second extraction electrode 17 is connected with conductive shielding layer 14.The present embodiment is not limited only to this connected mode, also can be: the first extraction electrode and the first Electrode connection, and the second extraction electrode is connected with the second electrode lay; Or the first extraction electrode is connected with the second electrode lay, the second extraction electrode is connected with conductive shielding layer.When the second extraction electrode is connected with conductive shielding layer, the second extraction electrode ground connection.First extraction electrode and the second extraction electrode adopt the mode of riveted joint to be connected with corresponding Rotating fields.

When the physiology monitoring sensing zone in the present embodiment is under pressure, as people's faint breath in sleep procedure, heartbeat action applied pressure, or standing up appears in people in sleep, from bed, snoring waits action applied pressure, different action applied pressure all can make the friction produced between the first high molecular polymer insulating barrier and the second electrode lay in various degree, the first electrode and the second electrode lay is made to induce corresponding electric charge respectively, again because the first high molecular polymer insulating barrier is different from the second electrode lay material therefor, and then make the electrical potential difference that produces between the first electrode and the second electrode lay in various degree, and when conductive shielding layer ground connection is zero potential, make between the first electrode and conductive shielding layer, also electrical potential difference is in various degree there is between the second electrode lay and conductive shielding layer, therefore, the electro-physiological signals of varying strength is exported between the first extraction electrode adopting above-mentioned connected mode to be connected with each layer and the second extraction electrode.

The present embodiment is that the second high molecular polymer insulating barrier in embodiment one is replaced with the second electrode lay, and except above difference, in the present embodiment, the concrete setting of other each Rotating fields all see the description of embodiment one, can not repeat them here.

The cross section structure schematic diagram of the embodiment four of the physiology monitoring sensing zone that Fig. 4 provides for the utility model, particularly, Fig. 4 shows the sectional view of each layer structure of physiology monitoring sensing zone inside.As shown in Figure 4, the structure of the present embodiment physiology monitoring sensing zone and the difference of Fig. 2 are, the second triboelectricity layer is specially the second electrode lay 22; One side surface is provided with the first high molecular polymer insulating barrier 11 of the first electrode 10 and the second electrode lay 22 is stacked is set together, and the first high molecular polymer insulating barrier 11 does not arrange between a side surface of the first electrode 10 and the second electrode lay 22 and forms frictional interface; Completely coated first electrode 10 and the first high molecular polymer insulating barrier 11 of insulating barrier 18, and the coated the second electrode lay 22 of part, make the subregion of the second electrode lay 22 contact with conductive shielding layer 14.Physiology monitoring sensing zone shown in Fig. 4 is a kind of half pack arrangement.

In Fig. 4, the first extraction electrode 16 is connected with the first electrode 10, and the second extraction electrode 17 is connected with conductive shielding layer 14.Because the subregion of the second electrode lay 22 contacts with conductive shielding layer 14, therefore the second extraction electrode also can be connected with the second electrode lay.First extraction electrode and the second extraction electrode adopt the mode of riveted joint to be connected with corresponding Rotating fields.Wherein, first extraction electrode can directly be riveted on the conductive tape as the first electrode, and the second extraction electrode can be riveted on the conductive tape as conductive shielding layer or be riveted on the conductive tape as the second electrode lay or after conductive shielding layer and the second electrode lay are pasted and be riveted on the composite bed of both formation.

When the physiology monitoring sensing zone in the present embodiment is under pressure, as people's faint breath in sleep procedure, heartbeat action applied pressure, or standing up appears in people in sleep, from bed, snoring waits action applied pressure, different action applied pressure all can make the friction produced between the first high molecular polymer insulating barrier and the second electrode lay in various degree, the first electrode and the second electrode lay is made to induce corresponding electric charge respectively, again because the first high molecular polymer insulating barrier is different from the second electrode lay material therefor, and then make the electrical potential difference that produces between the first electrode and the second electrode lay in various degree, simultaneously, because the subregion of the second electrode lay contacts with conductive shielding layer, therefore the electrical potential difference also existed between the first electrode and conductive shielding layer in various degree, therefore, the electro-physiological signals of varying strength is exported between the first extraction electrode adopting above-mentioned connected mode to be connected with each layer and the second extraction electrode.

The present embodiment is that the second high molecular polymer insulating barrier in embodiment two is replaced with the second electrode lay, and except above difference, in the present embodiment, the concrete setting of other each Rotating fields all see the description of embodiment two, can not repeat them here.

The cross section structure schematic diagram of the embodiment five of the physiology monitoring sensing zone that Fig. 5 provides for the utility model, particularly, Fig. 5 shows the sectional view of each layer structure of physiology monitoring sensing zone inside.As shown in Figure 5, the structure of the present embodiment physiology monitoring sensing zone and the difference of Fig. 1 are, the second triboelectricity layer is specially the second high molecular polymer insulating barrier 33 that a side surface is provided with the second electrode 32; One side surface is provided with the first high molecular polymer insulating barrier 11 of the first electrode 10 and a side surface and is provided with that the second high molecular polymer insulating barrier 33 of the second electrode 32 is stacked to be set together, and the first high molecular polymer insulating barrier 11 does not arrange between a side surface that a side surface of the first electrode 10 and the second high molecular polymer insulating barrier 33 do not arrange the second electrode 32 and forms frictional interface.Physiology monitoring sensing zone shown in Fig. 5 is a kind of full pack arrangement.

In Fig. 5, the first extraction electrode 16 is connected with the first electrode 10, and the second extraction electrode 17 is connected with conductive shielding layer 14.The present embodiment is not limited only to this connected mode, also can be: the first extraction electrode and the first Electrode connection, the second extraction electrode and the second Electrode connection; Or the first extraction electrode and the second Electrode connection, the second extraction electrode is connected with conductive shielding layer.When the second extraction electrode is connected with conductive shielding layer, the second extraction electrode ground connection.First extraction electrode and the second extraction electrode adopt the mode of riveted joint to be connected with corresponding Rotating fields.

When the physiology monitoring sensing zone in the present embodiment is under pressure, as people's faint breath in sleep procedure, heartbeat action applied pressure, or standing up appears in people in sleep, from bed, snoring waits action applied pressure, different action applied pressure all can make the friction produced between the first high molecular polymer insulating barrier and the second high molecular polymer insulating barrier in various degree, the first electrode and the second electrode is made to induce corresponding electric charge respectively, again because the first high molecular polymer insulating barrier is different from the second high molecular polymer insulating barrier material therefor, and then make the electrical potential difference that produces between the first electrode and the second electrode in various degree, and when conductive shielding layer ground connection is zero potential, make between the first electrode and conductive shielding layer, also electrical potential difference is in various degree there is between second electrode and conductive shielding layer, therefore, the electro-physiological signals of varying strength is exported between the first extraction electrode adopting above-mentioned connected mode to be connected with each layer and the second extraction electrode.

The present embodiment is that the second high molecular polymer insulating barrier in embodiment one is replaced with the second high molecular polymer insulating barrier that a side surface is provided with the second electrode, except above difference, in the present embodiment, the concrete setting of other each Rotating fields all see the description of embodiment one, can not repeat them here.

The cross section structure schematic diagram of the embodiment six of the physiology monitoring sensing zone that Fig. 6 provides for the utility model, particularly, Fig. 6 shows the sectional view of each layer structure of physiology monitoring sensing zone inside.As shown in Figure 6, the structure of the present embodiment physiology monitoring sensing zone and the difference of Fig. 2 are, the second triboelectricity layer is specially the second high molecular polymer insulating barrier 33 that a side surface is provided with the second electrode 32; One side surface is provided with the first high molecular polymer insulating barrier 11 of the first electrode 10 and a side surface and is provided with that the second high molecular polymer insulating barrier 33 of the second electrode 32 is stacked to be set together, and the first high molecular polymer insulating barrier 11 does not arrange between a side surface that a side surface of the first electrode 10 and the second high molecular polymer insulating barrier 33 do not arrange the second electrode 32 and forms frictional interface; Completely coated first electrode 10, first high molecular polymer insulating barrier 11 and the second high molecular polymer insulating barrier 33 of insulating barrier 18, and coated second electrode 32 of part, make the subregion of the second electrode 32 contact with conductive shielding layer 14.Physiology monitoring sensing zone shown in Fig. 6 is a kind of half pack arrangement.

In Fig. 6, the first extraction electrode 16 is connected with the first electrode 10, and the second extraction electrode 17 is connected with conductive shielding layer 14.Because the subregion of the second electrode 32 contacts with conductive shielding layer 14, therefore, the second extraction electrode also can with the second Electrode connection.First extraction electrode and the second extraction electrode adopt the mode of riveted joint to be connected with corresponding Rotating fields.Wherein, first extraction electrode can directly be riveted on the conductive tape as the first electrode, and the second extraction electrode can be riveted on the conductive tape as conductive shielding layer or be riveted on the second electrode of the second high molecular polymer insulating barrier or after the second electrode and conductive shielding layer are pasted and be riveted on the composite bed of both formation.

When the physiology monitoring sensing zone in the present embodiment is under pressure, as people's faint breath in sleep procedure, heartbeat action applied pressure, or standing up appears in people in sleep, from bed, snoring waits action applied pressure, different action applied pressure all can make the friction produced between the first high molecular polymer insulating barrier and the second high molecular polymer insulating barrier in various degree, the first electrode and the second electrode is made to induce corresponding electric charge respectively, again because the first high molecular polymer insulating barrier is different from the second high molecular polymer insulating barrier material therefor, and then make the electrical potential difference that produces between the first electrode and the second electrode in various degree, simultaneously, because the subregion of the second electrode contacts with conductive shielding layer, therefore the electrical potential difference also existed between the first electrode and conductive shielding layer in various degree, therefore, the electro-physiological signals of varying strength is exported between the first extraction electrode adopting above-mentioned connected mode to be connected with each layer and the second extraction electrode.

The present embodiment is that the second high molecular polymer insulating barrier in embodiment two is replaced with the second high molecular polymer insulating barrier that a side surface is provided with the second electrode, except above difference, in the present embodiment, the concrete setting of other each Rotating fields all see the description of embodiment two, can not repeat them here.

The cross section structure schematic diagram of the embodiment seven of the physiology monitoring sensing zone that Fig. 7 provides for the utility model, particularly, Fig. 7 shows the sectional view of each layer structure of physiology monitoring sensing zone inside.As shown in Figure 7, the structure of the present embodiment physiology monitoring sensing zone and the difference of Fig. 1 are, the second triboelectricity layer, except comprising the second high molecular polymer insulating barrier 12, also comprises: intervening electrode layer 40; One side surface is provided with the first high molecular polymer insulating barrier 11, the intervening electrode layer 40 of the first electrode 10 and the second high molecular polymer insulating barrier 12 is stacked is set together; First high molecular polymer insulating barrier 11 does not arrange between a side surface of the first electrode 10 and intervening electrode layer 40 and/or between the second high molecular polymer insulating barrier 12 and intervening electrode layer 40 and forms frictional interface.Physiology monitoring sensing zone shown in Fig. 7 is a kind of full pack arrangement.

In Fig. 7, the first extraction electrode 16 is connected with the first electrode 10, and the second extraction electrode 17 is connected with conductive shielding layer 14.The present embodiment is not limited only to this connected mode, and also can be: the first extraction electrode is connected with intervening electrode layer, the second extraction electrode be connected with conductive shielding layer; Or the first extraction electrode and the first Electrode connection, the second extraction electrode is connected with intervening electrode layer.When the second extraction electrode is connected with conductive shielding layer, the second extraction electrode ground connection.First extraction electrode and the second extraction electrode adopt the mode of riveted joint to be connected with corresponding Rotating fields.

When the physiology monitoring sensing zone in the present embodiment is under pressure, as people's faint breath in sleep procedure, heartbeat action applied pressure, or standing up appears in people in sleep, from bed, snoring waits action applied pressure, different action applied pressure all can make the friction produced between the first high molecular polymer insulating barrier and intervening electrode layer and/or between the second high molecular polymer insulating barrier and intervening electrode layer in various degree, the first electrode and intervening electrode layer is made to induce corresponding electric charge respectively, again due to the first high molecular polymer insulating barrier, second high molecular polymer insulating barrier, intervening electrode layer material therefor is different, and then make the electrical potential difference that produces between the first electrode and intervening electrode layer in various degree, and when conductive shielding layer ground connection is zero potential, make between the first electrode and conductive shielding layer, also electrical potential difference is in various degree there is between intervening electrode layer and conductive shielding layer, therefore, the electro-physiological signals of varying strength is exported between the first extraction electrode adopting above-mentioned connected mode to be connected with each layer and the second extraction electrode.

The present embodiment is the intervening electrode layer and the second high molecular polymer insulating barrier that the second high molecular polymer insulating barrier in embodiment one are replaced with stacked setting, except above difference, in the present embodiment, the concrete setting of other each Rotating fields all see the description of embodiment one, can not repeat them here.

The cross section structure schematic diagram of the embodiment eight of the physiology monitoring sensing zone that Fig. 8 provides for the utility model, particularly, Fig. 8 shows the sectional view of each layer structure of physiology monitoring sensing zone inside.As shown in Figure 8, the structure of the present embodiment physiology monitoring sensing zone and the difference of Fig. 2 are, the second triboelectricity layer, except comprising the second high molecular polymer insulating barrier 12, also comprises: intervening electrode layer 40; One side surface is provided with the first high molecular polymer insulating barrier 11, the intervening electrode layer 40 of the first electrode 10 and the second high molecular polymer insulating barrier 12 is stacked is set together; First high molecular polymer insulating barrier 11 does not arrange between a side surface of the first electrode 10 and intervening electrode layer 40 and/or between the second high molecular polymer insulating barrier 12 and intervening electrode layer 40 and forms frictional interface; Completely coated first electrode 10, first high molecular polymer insulating barrier 11 and the intervening electrode layer 40 of insulating barrier 18, and the coated second high molecular polymer insulating barrier 12 of part, the subregion of the second high molecular polymer insulating barrier 12 is contacted with conductive shielding layer 14.Physiology monitoring sensing zone shown in Fig. 8 is a kind of half pack arrangement.

In Fig. 8, the second high molecular polymer insulating barrier 12 contacts with conductive shielding layer 14, and the first extraction electrode 16 is connected with the first electrode 10, and the second extraction electrode 17 is connected with conductive shielding layer 14.The present embodiment is not limited only to this connected mode, and also can be: the first extraction electrode is connected with intervening electrode layer, the second extraction electrode be connected with conductive shielding layer; Or the first extraction electrode and the first Electrode connection, the second extraction electrode is connected with intervening electrode layer.When the second extraction electrode is connected with conductive shielding layer, the second extraction electrode ground connection.First extraction electrode and the second extraction electrode adopt the mode of riveted joint to be connected with corresponding Rotating fields.

When the physiology monitoring sensing zone in the present embodiment is under pressure, as people's faint breath in sleep procedure, heartbeat action applied pressure, or standing up appears in people in sleep, from bed, snoring waits action applied pressure, different action applied pressure all can make the friction produced between the first high molecular polymer insulating barrier and intervening electrode layer and/or between the second high molecular polymer insulating barrier and intervening electrode layer in various degree, the first electrode and intervening electrode layer is made to induce corresponding electric charge respectively, again due to the first high molecular polymer insulating barrier, second high molecular polymer insulating barrier, intervening electrode layer material therefor is different, and then make the electrical potential difference that produces between the first electrode and intervening electrode layer in various degree, and when conductive shielding layer ground connection is zero potential, make between the first electrode and conductive shielding layer, also electrical potential difference is in various degree there is between intervening electrode layer and conductive shielding layer, therefore, the electro-physiological signals of varying strength is exported between the first extraction electrode adopting above-mentioned connected mode to be connected with each layer and the second extraction electrode.

The present embodiment is the intervening electrode layer and the second high molecular polymer insulating barrier that the second high molecular polymer insulating barrier in embodiment two are replaced with stacked setting, except above difference, in the present embodiment, the concrete setting of other each Rotating fields all see the description of embodiment two, can not repeat them here.

The cross section structure schematic diagram of the embodiment nine of the physiology monitoring sensing zone that Fig. 9 provides for the utility model, particularly, Fig. 9 shows the sectional view of each layer structure of physiology monitoring sensing zone inside.As shown in Figure 8, the structure of the present embodiment physiology monitoring sensing zone and the difference of Fig. 1 are, the second triboelectricity layer comprises the second high molecular polymer insulating barrier 42 that intervening electrode layer 40 and a side surface are provided with the second electrode 41; One side surface is provided with together with the second high molecular polymer insulating barrier 42 that the first high molecular polymer insulating barrier 11 of the first electrode 10, intervening electrode layer 40 and a side surface be provided with the second electrode 41 stacks gradually; First high molecular polymer insulating barrier 11 does not arrange between a side surface of the first electrode 10 and intervening electrode layer 40 and/or the second high molecular polymer insulating barrier 42 does not arrange between a side surface of the second electrode 41 and intervening electrode layer 40 and forms frictional interface.Physiology monitoring sensing zone shown in Fig. 9 is a kind of full pack arrangement.

In Fig. 9, the first extraction electrode 16 is connected with the first electrode 10, and the second extraction electrode 17 is connected with conductive shielding layer 14.The present embodiment is not limited only to this connected mode, also can be: the first extraction electrode and the first Electrode connection, the second extraction electrode and intervening electrode layer or the second Electrode connection; Or the first extraction electrode is connected with intervening electrode layer, the second extraction electrode and the second Electrode connection; Or the first extraction electrode and intervening electrode layer or the second Electrode connection, the second extraction electrode is connected with conductive shielding layer.When the second extraction electrode is connected with conductive shielding layer, the second extraction electrode ground connection.First extraction electrode and the second extraction electrode adopt the mode of riveted joint to be connected with corresponding Rotating fields.

When the physiology monitoring sensing zone in the present embodiment is under pressure, as people's faint breath in sleep procedure, heartbeat action applied pressure, or standing up appears in people in sleep, from bed, snoring waits action applied pressure, different action applied pressure all can make the friction produced between the first high molecular polymer insulating barrier and intervening electrode layer and/or between the second high molecular polymer insulating barrier and intervening electrode layer in various degree, make the first electrode, intervening electrode layer and the second electrode induce corresponding electric charge respectively, again due to the first high molecular polymer insulating barrier, second high molecular polymer insulating barrier, intervening electrode layer material therefor is different, and then make between the first electrode and intervening electrode layer, between second electrode and intervening electrode layer, electrical potential difference is in various degree produced between first electrode and the second electrode, and when conductive shielding layer ground connection is zero potential, make between the first electrode and conductive shielding layer, between intervening electrode layer and conductive shielding layer, also electrical potential difference is in various degree there is between second electrode and conductive shielding layer, therefore, the electro-physiological signals of varying strength is exported between the first extraction electrode adopting above-mentioned connected mode to be connected with each layer and the second extraction electrode.

The present embodiment the second high molecular polymer insulating barrier in embodiment one is replaced with the second high molecular polymer insulating barrier that the intervening electrode layer of stacked setting and a side surface are provided with the second electrode, except above difference, in the present embodiment, the concrete setting of other each Rotating fields all see the description of embodiment one, can not repeat them here.

The cross section structure schematic diagram of the embodiment ten of the physiology monitoring sensing zone that Figure 10 provides for the utility model, particularly, Figure 10 shows the sectional view of each layer structure of physiology monitoring sensing zone inside.As shown in Figure 10, the structure of the present embodiment physiology monitoring sensing zone and the difference of Fig. 2 are, the second triboelectricity layer comprises the second high molecular polymer insulating barrier 42 that intervening electrode layer 40 and a side surface are provided with the second electrode 41; One side surface is provided with together with the second high molecular polymer insulating barrier 42 that the first high molecular polymer insulating barrier 11 of the first electrode 10, intervening electrode layer 40 and a side surface be provided with the second electrode 41 stacks gradually; First high molecular polymer insulating barrier 11 does not arrange between a side surface of the first electrode 10 and intervening electrode layer 40 and/or the second high molecular polymer insulating barrier 42 does not arrange between a side surface of the second electrode 41 and intervening electrode layer 40 and forms frictional interface; Completely coated first electrode 10, the first high molecular polymer insulating barrier 11 of insulating barrier 18, intervening electrode layer 40 and the second high molecular polymer insulating barrier 42, and coated second electrode 41 of part, make the subregion of the second electrode 41 contact with conductive shielding layer 14.Physiology monitoring sensing zone shown in Figure 10 is a kind of half pack arrangement.

In Figure 10, the subregion that the second high molecular polymer insulating barrier 42 is provided with a side surface of the second electrode 41 contacts with conductive shielding layer 14, and the first extraction electrode 16 is connected with the first electrode 10, and the second extraction electrode 17 is connected with conductive shielding layer 14.The present embodiment is not limited only to this connected mode, also can be: the first extraction electrode and the first Electrode connection, and the second extraction electrode is connected with intervening electrode layer; Or, the first extraction electrode and the first Electrode connection, the second extraction electrode and the second Electrode connection; Or the first extraction electrode is connected with intervening electrode layer, the second extraction electrode is connected with the second electrode or screening conductive layer.First extraction electrode and the second extraction electrode adopt the mode of riveted joint to be connected with corresponding Rotating fields.

When the physiology monitoring sensing zone in the present embodiment is under pressure, as people's faint breath in sleep procedure, heartbeat action applied pressure, or standing up appears in people in sleep, from bed, snoring waits action applied pressure, different action applied pressure all can make the friction produced between the first high molecular polymer insulating barrier and intervening electrode layer and/or between the second high molecular polymer insulating barrier and intervening electrode layer in various degree, make the first electrode, intervening electrode layer and the second electrode induce corresponding electric charge respectively, again due to the first high molecular polymer insulating barrier, second high molecular polymer insulating barrier, intervening electrode layer material therefor is different, and then make between the first electrode and intervening electrode layer, between second electrode and intervening electrode, electrical potential difference is in various degree produced between first electrode and the second electrode, simultaneously, because the subregion of the second electrode contacts with conductive shielding layer, therefore between the first electrode and conductive shielding layer, also electrical potential difference is in various degree there is between intervening electrode layer and conductive shielding layer, therefore, the electro-physiological signals of varying strength is exported between the first extraction electrode adopting above-mentioned connected mode to be connected with each layer and the second extraction electrode.

The present embodiment the second high molecular polymer insulating barrier in embodiment two is replaced with the second high molecular polymer insulating barrier that the intervening electrode layer of stacked setting and a side surface are provided with the second electrode, except above difference, in the present embodiment, the concrete setting of other each Rotating fields all see the description of embodiment two, can not repeat them here.

In above each embodiment, the first electrode can be conductive tape, the band glue surface mount first high molecular polymer insulating barrier of conductive tape.First high molecular polymer insulating barrier can be the film that polymeric material is formed, as dot matrix polydimethylsiloxanefilm film, i.e. and PDMS film.Second high molecular polymer insulating barrier also can be the film that polymeric material is formed, preferably different from the material selected by the first high molecular polymer insulating barrier, as pet film, i.e. and PET film.The second high molecular polymer insulating barrier that one side surface is provided with the second electrode can be the surperficial pet film being provided with metallic aluminium, i.e. PET/Al film.Second electrode also can be conductive tape, and the band glue surface mount of conductive tape is in PET film.The second electrode lay or intervening electrode layer are conductive tape.Insulating barrier can be the insulating tape of one-side band glue or double-sided belt glue, as PET adhesive tape.Conductive shielding layer can be one-side band glue or the conductive tape not with glue.Protective layer can be tissue layer or plastic layer or plastic film, as being plastic layer, is then frivolous plastics.

In each embodiment above, form surperficial any one of two of frictional interface and can establish bulge-structure on the surface, the shape of the utility model to projection is not restricted.Such as, the first high molecular polymer insulating barrier is provided with bulge-structure towards a side surface of the second high molecular polymer insulating barrier or the second electrode lay or intervening electrode layer.The schematic diagram of the first high molecular polymer insulating barrier one side surface of the physiology monitoring sensing zone that Figure 11 provides for the utility model.As shown in figure 11, first high molecular polymer insulating barrier is the rectangular film that surface is laid with salient point array, wherein, the outermost salient point near the first long limit of rectangular film is equal with the distance between the second long limit with the outermost salient point on the second long limit near rectangular film with the distance between the first long limit; Outermost salient point near the first minor face of rectangular film is equal with the distance between the second minor face with the outermost salient point of the second minor face near rectangular film with the distance between the first minor face.This setup can improve the sensitivity of physiology monitoring sensing zone of the present utility model, and the output electro-physiological signals making it more stable, increase monitoring stability and the reliability of physiology monitoring sensing zone of the present utility model.

Alternatively, be 0.1mm-5mm near the distance between the outermost salient point and the first long limit on the first long limit of rectangular film or the distance between the outermost salient point and the second long limit on the second long limit of rectangular film, be preferably 1mm; Distance between the outermost salient point of the first minor face of close rectangular film and the first minor face or the distance between the outermost salient point and the second minor face of the second minor face of rectangular film are 0.1mm-5mm, are preferably 1mm.

Alternatively, salient point array bumps height is 0.01mm-5mm, is preferably 1.25mm; Bump pitch is 0.01mm-30mm, is preferably 10mm.

In a preferred embodiment, the first high molecular polymer insulating barrier is dot matrix PDMS film, and the second high molecular polymer insulating barrier is PET film.The thickness of dot matrix PDMS film is 50 μm to 1000 μm, is preferably 200 μm; The thickness of PET film is 30 μm to 500 μm, is preferably 50 μm.

The physiology monitoring sensing zone that the utility model provides makes based on the principle of friction generator, lay or be embedded in the mattress region (mattress such as spring, coconut palm palm fibre) that this physiology monitoring sensing zone can be made normally to monitor, mattress region as corresponding in human chest.This physiology monitoring sensing zone not only can be used for monitoring human breathing, the frequency of heartbeat and/or waveform, also can monitor the time point standing up, occur from the actuating signal such as bed, snoring and/or respective action signal simultaneously.For sleep physiology monitoring, when people is in quiet sleep, the electro-physiological signals (as voltage signal) exported by physiology monitoring sensing zone can reflect frequency and/or the waveform of breathing, heartbeat in human body quiet sleep; During when occurring standing up in sleeping, from the action such as bed, snoring, physiology monitoring sensing zone can export the electro-physiological signals obviously differing from and be in quiet sleep, and above-mentioned be all analyze sleep quality and human health status provides accurately, reliable data are basic.

The physiology monitoring sensing zone provided due to the utility model is the principle based on friction generator, the flexible thin-film material being convenient to cut is adopted to make, therefore it has self-powered, highly sensitive, the output signal of telecommunication is stablized, use simple to operate, size is adjustable arbitrarily, quality is light, user uses comfort and convenient, and structure and manufacture craft simple, with low cost, be applicable to the feature of large-scale industrial production, this physiology monitoring sensing zone by arranging insulating barrier and conductive shielding layer in self structure simultaneously, achieve the function from moistureproof and self-shileding respectively, this not only adds the stability that it exports the signal of telecommunication, also extend useful life simultaneously.

Further, the physiology monitoring sensing zone of each embodiment above-mentioned can also comprise: observation circuit (not shown).Observation circuit is connected with the output electrode of physiology monitoring sensing zone, for gather and process physiology monitoring sensing zone export electro-physiological signals, obtain the physiological data of monitored person, such as breathe and/or palmic rate.

The utility model additionally provides a kind of physiological monitoring system, comprises any one physiology monitoring sensing zone and terminal equipment in each embodiment above-mentioned.The signal that terminal equipment is used for physiology monitoring sensing zone exports carries out statistical analysis, and shows statistic analysis result.Human observer obtains the physiological data of monitored person by terminal equipment.Terminal equipment can be mobile phone and apparatus such as computer.Human observer checks the physiological data of monitored person by mobile phone or computer, on computer or mobile phone, also can store and analyze the physiological data of monitored person, and the physiology monitoring report generated in the corresponding time range of monitored person needs and Improving advice.

In addition; physiological monitoring system also can comprise alarm; when the health that physiological data symbolizes monitored person occurs abnormal; as when breathing, heartbeat time-out or electro-physiological signals occur abnormal; triggered alarm is reported to the police with acoustooptic form; thus contribute to human observer and obtain this information in time, monitored person is succoured in time.

The utility model additionally provides a kind of physiology monitoring mattress, and this medical monitoring mattress comprises: any one physiology monitoring sensing zone in each embodiment above-mentioned, and mattress body, and wherein, physiology monitoring sensing zone is arranged on inside and/or the outside of mattress body.

The utility model additionally provides a kind of physiological monitoring system, comprises above-mentioned physiology monitoring mattress and terminal equipment.The signal that terminal equipment is used for physiology monitoring mattress exports carries out statistical analysis, and shows statistic analysis result.

The flow chart of the embodiment one of the manufacture method of the physiology monitoring sensing zone that Figure 12 provides for the utility model.As shown in figure 12, the manufacture method of physiology monitoring sensing zone comprises the steps:

Step 101, makes the first triboelectricity layer and the second triboelectricity layer, the first triboelectricity layer and the second triboelectricity is folded layer by layer and is set together, wherein, form frictional interface between the first triboelectricity layer and the second triboelectricity layer.

Step 102, cuts insulating barrier, uses the coated first triboelectricity layer of insulating barrier and the second triboelectricity layer; And,

Step 103, cuts conductive shielding layer, uses the coated first triboelectricity layer of conductive shielding layer, the second triboelectricity layer and insulating barrier.

Wherein, before cutting insulating barrier, the first extraction electrode is connected with the first triboelectricity layer and the second triboelectricity layer respectively with the second extraction electrode, and exposes the first extraction electrode and the second extraction electrode when coated insulation layer; Or, before cutting insulating barrier, first extraction electrode is connected with the first triboelectricity layer or the second triboelectricity layer, and exposes the first extraction electrode when coated insulation layer, and before or after coated with conductive screen, the second extraction electrode is connected with conductive shielding layer.

Step 104, cuts protective layer, uses the outer surface of protective layer coated with conductive screen.

Further, above-mentioned steps 101 comprises: make the first high molecular polymer insulating barrier; The conductive tape cutting one-side band glue obtains the first electrode; First electrode and the first high molecular polymer insulating barrier are pasted together as the first triboelectricity layer.Cut conductive tape and obtain the second electrode lay as the second triboelectricity layer; Or, make the second high molecular polymer insulating barrier as the second triboelectricity layer; Or, adopt coating or sputtering technology that the second electrode is set at a side surface of the second high molecular polymer insulating barrier be made into and obtain a side surface and be provided with the second high molecular polymer insulating barrier of the second electrode as the second triboelectricity layer.

Further, make the second triboelectricity layer also to comprise: make intervening electrode layer.Intervening electrode layer and the second high molecular polymer insulating barrier or a side surface are provided with the second high molecular polymer insulating barrier of the second electrode is stacked to be set together as the second triboelectricity layer.

Above-mentioned steps 102 comprises: cut insulating barrier, make the length of insulating barrier be greater than 2 times of the thickness of the first triboelectricity layer and the second triboelectricity layer length sum larger with length in the first triboelectricity layer or the second triboelectricity layer and be less than 2 times of sums of 2 times of the thickness of the first triboelectricity layer and the second triboelectricity layer length larger with length in the first triboelectricity layer or the second triboelectricity layer, the width of insulating barrier is greater than 2 times of the thickness of the first triboelectricity layer and the second triboelectricity layer width sum larger with width in the first triboelectricity layer or the second triboelectricity layer and is less than 2 times of sums of 2 times of the thickness of the first triboelectricity layer and the second triboelectricity layer width larger with width in the first triboelectricity layer or the second triboelectricity layer, stacked the first triboelectricity layer of being set together and the second triboelectricity layer are placed on the centre of insulating barrier, after coated insulation layer, expose the subregion of the second triboelectricity layer.

Particularly, if the length of the first triboelectricity layer is L ₁, width is K ₁, thickness is H ₁, the length of the second triboelectricity layer is L ₂, width is K ₂, thickness is H ₂, and L ₁be greater than L ₂, K ₁be less than K ₂so, 2 (H ₁+ H ₂)+L ₁length <2 (the H of < insulating barrier ₁+ H ₂)+2L ₁, 2 (H ₁+ H ₂)+K ₂width <2 (the H of < insulating barrier ₁+ H ₂)+2K ₂; If the length of the first triboelectricity layer is L ₁, width is K ₁, thickness is H ₁, the length of the second triboelectricity layer is L ₂, width is K ₂, thickness is H ₂, and L ₁be less than L ₂, K ₁be greater than K ₂so, 2 (H ₁+ H ₂)+L ₂length <2 (the H of < insulating barrier ₁+ H ₂)+2L ₂, 2 (H ₁+ H ₂)+K ₁width <2 (the H of < insulating barrier ₁+ H ₂)+2K ₁.

Or, above-mentioned steps 102 comprises: cut insulating barrier, make the length of insulating barrier be more than or equal to the length sum that in the thickness of the first triboelectricity layer and the second triboelectricity layer and the first triboelectricity layer or the second triboelectricity layer, length is larger, the width of insulating barrier is more than or equal to 2 times of sums of 2 times of the thickness of the first triboelectricity layer and the second triboelectricity layer width larger with width in the first triboelectricity layer or the second triboelectricity layer; Or, cut insulating barrier, make the length of insulating barrier be more than or equal to 2 times of sums of 2 times of the thickness of the first triboelectricity layer and the second triboelectricity layer length larger with length in the first triboelectricity layer or the second triboelectricity layer, the width of insulating barrier is more than or equal to the width sum that in the thickness of the first triboelectricity layer and the second triboelectricity layer and the first triboelectricity layer or the second triboelectricity layer, width is larger; Stacked the first triboelectricity layer of being set together and the second triboelectricity layer are placed on the centre of insulating barrier, use the completely coated first triboelectricity layer of insulating barrier and the second triboelectricity layer.

Particularly, if the length of the first triboelectricity layer is L ₁, width is K ₁, thickness is H ₁, the length of the second triboelectricity layer is L ₂, width is K ₂, thickness is H ₂, and L ₁be greater than L ₂, K ₁be less than K ₂so, the length>=H of insulating barrier ₁+ H ₂+ L ₁, the width>=2 (H of insulating barrier ₁+ H ₂)+2K ₂; If the length of the first triboelectricity layer is L ₁, width is K ₁, thickness is H ₁, the length of the second triboelectricity layer is L ₂, width is K ₂, thickness is H ₂, and L ₁be less than L ₂, K ₁be greater than K ₂, so, the length>=2 (H of insulating barrier ₁+ H ₂)+2L ₂, the width>=H of insulating barrier ₁+ H ₂+ K ₁.

Further, the first extraction electrode is connected with the first triboelectricity layer and the second triboelectricity layer respectively with the second extraction electrode is specially: by the mode of riveting, the first extraction electrode and the second extraction electrode are connected with the first triboelectricity layer and the second triboelectricity layer respectively; Or, the first extraction electrode is connected with the first triboelectricity layer or the second triboelectricity layer and is specially: by the mode of riveting, the first extraction electrode is connected with the first triboelectricity layer or the second triboelectricity layer; Second extraction electrode is connected with conductive shielding layer and is specially: by the mode of riveted joint, the second extraction electrode is connected with conductive shielding layer.

Further, make the first high molecular polymer insulating barrier to comprise further:

Make the high molecular polymer film that surface is laid with salient point array;

Cut high molecular polymer film and obtain rectangular film, make the outermost salient point near the first long limit of rectangular film equal with the distance between the second long limit with the outermost salient point on the second long limit near rectangular film with the distance between the first long limit; Outermost salient point near the first minor face of rectangular film is equal with the distance between the second minor face with the outermost salient point of the second minor face near rectangular film with the distance between the first minor face.

Below with the first triboelectricity layer for dot matrix PDMS film, the second triboelectricity layer is PET/Al film is example, introduces two embodiments of the manufacture method of physiology monitoring sensing zone in detail.

The flow chart of the embodiment two of the manufacture method of the physiology monitoring sensing zone that Figure 13 provides for the utility model.As shown in figure 13, the manufacture method of physiology monitoring sensing zone comprises the steps:

Step 201, PDMS is shaping obtains dot matrix PDMS film, as the first high molecular polymer insulating barrier;

Step 202, cuts the conductive tape of one-side band glue, obtains the first electrode;

Step 203, the conductive tape and dot matrix PDMS film that cut rear one-side band glue are pasted together, obtain the first triboelectricity layer, namely the first electrode and the first high molecular polymer insulating barrier are pasted together, obtain the first triboelectricity layer, wherein, the band glue surface of conductive tape is pasted with the side surface that dot matrix PDMS film is not provided with dot matrix;

Step 204, rivets the first extraction electrode, and the first extraction electrode is connected with the conductive tape as the first electrode;

Step 205, cuts PET/Al film, obtains the second triboelectricity layer, wherein, first arranges Al electrode by coating or sputtering technology at a side surface of PET film, and then cuts;

Step 206, assembling friction generator structure, namely assembling is pasted with dot matrix PDMS film and the PET/Al film of conductive tape;

Step 207, cuts insulating barrier;

Step 208, insulating barrier laminating or parcel: to fit into example, the friction generator structure of assembling is placed on centre, select 2 same sizes, and length is more than or equal to 2 times of the thickness of the first electrode, dot matrix PDMS film and PET/Al film and is more than or equal to 2 times of the thickness of the first electrode, dot matrix PDMS film and PET/Al film with the length sum of dot matrix PDMS film, width and conforms to airtight up and down with the insulating barrier of the width sum of dot matrix PDMS film, and expose the first extraction electrode.For parcel, the friction generator structure of assembling is placed on centre, select 2 times that 1 leaf length is more than or equal to the length sum of the thickness of the first electrode, dot matrix PDMS film and PET/Al film and dot matrix PDMS film, width is more than or equal to the thickness of the first electrode, dot matrix PDMS film and PET/Al film to wrap up friction generator structure to airtight with the insulating barrier of 2 times of sums of the width of dot matrix PDMS film, and expose the first extraction electrode; Or, the friction generator structure of assembling is placed on centre, select 1 leaf length to be more than or equal to 2 times of the thickness of the first electrode, dot matrix PDMS film and the PET/Al film insulating barriers being more than or equal to the thickness of the first electrode, dot matrix PDMS film and PET/Al film and the width sum of dot matrix PDMS film with 2 times of sums of the length of dot matrix PDMS film, width and wrap up friction generator structure to airtight, and expose the first extraction electrode;

Step 209, cuts conductive shielding layer, rivets the second extraction electrode, and the second extraction electrode is connected with conductive shielding layer;

Step 210, conductive shielding layer laminating or parcel: conductive shielding layer laminating or parcel: to fit into example, the friction generator structure that above-mentioned steps S208 assembles is placed on centre, select 2 same sizes, and length is more than or equal to the length sum of 2 times of friction generator structures of assembling with step S208 of the thickness of the friction generator structure of step S208 assembling, the conductive shielding layer that width is more than or equal to the width sum of 2 times of friction generator structures of assembling with step S208 of the thickness of the friction generator structure of step S208 assembling conforms to airtight up and down, and expose the first extraction electrode.For parcel, the friction generator structure that step S208 assembles is placed on centre, the conductive shielding layer that the length sum of the friction generator structure that the thickness and the step S208 that select 1 leaf length to be more than or equal to the friction generator structure of step S208 assembling assemble, width are more than or equal to 2 times of sums of the width of 2 times of friction generator structures of assembling with step S208 of the thickness of the friction generator structure that step S208 assembles wraps up the friction generator that step S208 assembles and ties extremely airtight, and exposes the first extraction electrode; Or, the friction generator structure that step S208 assembles is placed on centre, select the conductive shielding layer of the width sum of 1 leaf length is more than or equal to 2 times of sums of length of 2 times of friction generator structures of assemble with step S208 of the thickness of the friction generator structure of step S208 assembling, width is more than or equal to the friction generator structure that step S208 assembles thickness and the friction generator structure that step S208 assembles to wrap up step S208 friction generator structure extremely airtight, and expose the first extraction electrode;

Step 211, cuts protective layer, finally encapsulates.

It should be noted that length, the width of the first electrode in the present embodiment, dot matrix PDMS film and PET/Al film are identical.

The flow chart of the embodiment three of the manufacture method of the physiology monitoring sensing zone that Figure 14 provides for the utility model.As shown in figure 14, the manufacture method of physiology monitoring sensing zone comprises the steps:

Step 301, PDMS is shaping obtains dot matrix PDMS film, as the first high molecular polymer insulating barrier;

Step 302, cuts the conductive tape of one-side band glue, obtains the first electrode;

Step 303, the conductive tape and dot matrix PDMS film that cut rear one-side band glue are pasted together, obtain the first triboelectricity layer, namely the first electrode and the first high molecular polymer insulating barrier are pasted together, obtain the first triboelectricity layer, wherein, the band glue surface of conductive tape is pasted with the side surface that dot matrix PDMS film is not provided with dot matrix;

Step 304, rivets the first extraction electrode, and the first extraction electrode is connected with the conductive tape as the first electrode;

Step 305, cuts PET/Al film, obtains the second triboelectricity layer, wherein, first arranges Al electrode by coating or sputtering technology at a side surface of PET film, and then cuts;

Step 306, assembling friction generator structure, namely assembling is pasted with dot matrix PDMS film and the PET/Al film of conductive tape;

Step 307, cuts insulating barrier;

Step 308, insulating barrier wraps up: the friction generator structure of assembling is placed on centre, 1 leaf length be greater than 2 times of the thickness of the first electrode, dot matrix PDMS film and PET/Al film with the length sum of dot matrix PDMS film and be less than 2 times of the thickness of the first electrode, dot matrix PDMS film and PET/Al film with 2 times of sums of the length of dot matrix PDMS film; Width be greater than 2 times of the thickness of the first electrode, dot matrix PDMS film and PET/Al film and the width sum of dot matrix PDMS film and the insulating barrier parcel friction generator structure being less than 2 times of sums of 2 times of the thickness of the first electrode, dot matrix PDMS film and PET/Al film and the width of dot matrix PDMS film to the subregion exposing the second triboelectricity layer, and expose the first extraction electrode;

Step 309, cuts conductive shielding layer, rivets the second extraction electrode, and the second extraction electrode is connected with conductive shielding layer;

Step 310, conductive shielding layer laminating or parcel: to fit into example, the friction generator structure that above-mentioned steps S308 assembles is placed on centre, select 2 same sizes, and the conductive shielding layer that length is more than or equal to the length sum of 2 times of friction generator structures of assembling with step S308 of the thickness of the friction generator structure of step S308 assembling, width is more than or equal to the width sum of 2 times of friction generator structures of assembling with step S308 of the thickness of the friction generator structure that step S308 assembles conforms to airtight up and down, and expose the first extraction electrode.For parcel, the friction generator structure that step S308 assembles is placed on centre, the conductive shielding layer that the length sum of the friction generator structure that the thickness and the step S308 that select 1 leaf length to be more than or equal to the friction generator structure of step S308 assembling assemble, width are more than or equal to 2 times of sums of the width of 2 times of friction generator structures of assembling with step S308 of the thickness of the friction generator structure that step S308 assembles wraps up the friction generator that step S308 assembles and ties extremely airtight, and exposes the first extraction electrode; Or, the friction generator structure that step S308 assembles is placed on centre, select the conductive shielding layer of the width sum of 1 leaf length is more than or equal to 2 times of sums of length of 2 times of friction generator structures of assemble with step S308 of the thickness of the friction generator structure of step S308 assembling, width is more than or equal to the friction generator structure that step S308 assembles thickness and the friction generator structure that step S308 assembles to wrap up step S308 friction generator structure extremely airtight, and expose the first extraction electrode;

Step 311, cuts protective layer, finally encapsulates.

It should be noted that length, the width of the first electrode in the present embodiment, dot matrix PDMS film and PET/Al film are identical.

Finally; what enumerate it is to be noted that above is only specific embodiment of the utility model; certain those skilled in the art can change and modification the utility model; if these amendments and modification belong within the scope of the utility model claim and equivalent technologies thereof, protection range of the present utility model all should be thought.

Claims (28)

1. a physiology monitoring sensing zone, is characterized in that, comprising:

First triboelectricity layer of stacked setting and the second triboelectricity layer; Frictional interface is formed between described first triboelectricity layer and described second triboelectricity layer;

The insulating barrier of coated described first triboelectricity layer and described second triboelectricity layer;

The conductive shielding layer of coated described first triboelectricity layer, described second triboelectricity layer and described insulating barrier; And,

As the first extraction electrode and second extraction electrode of the output electrode of described physiology monitoring sensing zone;

Wherein, described first extraction electrode and described second extraction electrode are connected with described first triboelectricity layer and described second triboelectricity layer respectively; Or described first extraction electrode is connected with described first triboelectricity layer or described second triboelectricity layer, and described second extraction electrode is connected with described conductive shielding layer.

2. physiology monitoring sensing zone according to claim 1, is characterized in that, also comprise: the protective layer of coated described conductive shielding layer outer surface.

3. physiology monitoring sensing zone according to claim 1, it is characterized in that, the complete coated described first triboelectricity layer of described insulating barrier, and the coated described second triboelectricity layer of part, make the subregion of described second triboelectricity layer contact with described conductive shielding layer.

4. physiology monitoring sensing zone according to claim 1, is characterized in that, the complete coated described first triboelectricity layer of described insulating barrier and described second triboelectricity layer.

5. physiology monitoring sensing zone according to claim 3, is characterized in that, described first triboelectricity layer is the first high molecular polymer insulating barrier that a side surface is provided with the first electrode, and described second triboelectricity layer is the second high molecular polymer insulating barrier; Described first high molecular polymer insulating barrier does not arrange between a side surface of described first electrode and described second high molecular polymer insulating barrier and forms described frictional interface;

Described first extraction electrode and described first Electrode connection, described second extraction electrode is connected with described conductive shielding layer.

6. physiology monitoring sensing zone according to claim 4, is characterized in that, described first triboelectricity layer is the first high molecular polymer insulating barrier that a side surface is provided with the first electrode, and described second triboelectricity layer is the second high molecular polymer insulating barrier; Described first high molecular polymer insulating barrier does not arrange between a side surface of described first electrode and described second high molecular polymer insulating barrier and forms described frictional interface;

Described first extraction electrode and described first Electrode connection, described second extraction electrode is connected with described conductive shielding layer.

7. physiology monitoring sensing zone according to claim 3, it is characterized in that, described first triboelectricity layer is the first high molecular polymer insulating barrier that a side surface is provided with the first electrode, and described second triboelectricity layer is the second high molecular polymer insulating barrier that the second electrode lay or a side surface are provided with the second electrode; Described first high molecular polymer insulating barrier does not arrange between a side surface that a side surface of described first electrode and described the second electrode lay or described second high molecular polymer insulating barrier do not arrange described second electrode and forms described frictional interface;

Described first extraction electrode and described first Electrode connection; The subregion that the subregion of described the second electrode lay or described second high molecular polymer insulating barrier are provided with a side surface of described second electrode contacts with described conductive shielding layer, and described second extraction electrode and described the second electrode lay or described second electrode or described conductive shielding layer are connected.

8. physiology monitoring sensing zone according to claim 4, it is characterized in that, described first triboelectricity layer is the first high molecular polymer insulating barrier that a side surface is provided with the first electrode, and described second triboelectricity layer is the second high molecular polymer insulating barrier that the second electrode lay or a side surface are provided with the second electrode; Described first high molecular polymer insulating barrier does not arrange between a side surface that a side surface of described first electrode and described the second electrode lay or described second high molecular polymer insulating barrier do not arrange described second electrode and forms described frictional interface;

Described first extraction electrode and described first Electrode connection, described second extraction electrode and described the second electrode lay or described second Electrode connection; Or described first extraction electrode and described first electrode or described the second electrode lay or described second Electrode connection, described second extraction electrode is connected with described conductive shielding layer.

9. physiology monitoring sensing zone according to claim 3, is characterized in that,

Described first triboelectricity layer is the first high molecular polymer insulating barrier that a side surface is provided with the first electrode, and described second triboelectricity layer comprises intervening electrode layer and the second high molecular polymer insulating barrier of stacked setting; Described first high molecular polymer insulating barrier does not arrange a side surface and the described intervening electrode layer of described first electrode and/or forms described frictional interface between described second high molecular polymer insulating barrier and described intervening electrode layer;

Described first extraction electrode is connected with described first electrode or described intervening electrode layer, and described second extraction electrode is connected with described conductive shielding layer; Or described first extraction electrode and described first Electrode connection, described second extraction electrode is connected with described intervening electrode layer.

10. physiology monitoring sensing zone according to claim 4, is characterized in that,

Described first triboelectricity layer is the first high molecular polymer insulating barrier that a side surface is provided with the first electrode, and described second triboelectricity layer comprises intervening electrode layer and the second high molecular polymer insulating barrier of stacked setting; Described first high molecular polymer insulating barrier does not arrange a side surface and the described intervening electrode layer of described first electrode and/or forms described frictional interface between described second high molecular polymer insulating barrier and described intervening electrode layer;

Described first extraction electrode is connected with described first electrode or described intervening electrode layer, and described second extraction electrode is connected with described conductive shielding layer; Or described first extraction electrode and described first Electrode connection, described second extraction electrode is connected with described intervening electrode layer.

11. physiology monitoring sensing zones according to claim 3, is characterized in that,

Described first triboelectricity layer is the first high molecular polymer insulating barrier that a side surface is provided with the first electrode, and described second triboelectricity layer comprises the second high molecular polymer insulating barrier that the intervening electrode layer of stacked setting and a side surface are provided with the second electrode; Described first high molecular polymer insulating barrier does not arrange a side surface of described first electrode and described intervening electrode layer and/or described second high molecular polymer insulating barrier and does not arrange between a side surface of described second electrode and described intervening electrode layer and form described frictional interface;

Described first extraction electrode and described first Electrode connection, described second extraction electrode is connected with described intervening electrode layer; Or, described first extraction electrode is connected with described first electrode or described intervening electrode layer, the subregion that described second high molecular polymer insulating barrier is provided with a side surface of described second electrode contacts with described conductive shielding layer, and described second extraction electrode is connected with described second electrode or described conductive shielding layer.

12. physiology monitoring sensing zones according to claim 4, is characterized in that,

Described first triboelectricity layer is the first high molecular polymer insulating barrier that a side surface is provided with the first electrode, and described second triboelectricity layer comprises the second high molecular polymer insulating barrier that the intervening electrode layer of stacked setting and a side surface are provided with the second electrode; Described first high molecular polymer insulating barrier does not arrange a side surface of described first electrode and described intervening electrode layer and/or described second high molecular polymer insulating barrier and does not arrange between a side surface of described second electrode and described intervening electrode layer and form described frictional interface;

Described first extraction electrode and described first Electrode connection, described second extraction electrode and described intervening electrode layer or described second Electrode connection; Or described first extraction electrode is connected with described intervening electrode layer, described second extraction electrode and described second Electrode connection; Or described first extraction electrode and described first electrode or described intervening electrode layer or described second Electrode connection, described second extraction electrode is connected with described conductive shielding layer.

13. physiology monitoring sensing zones according to any one of claim 5-12, it is characterized in that, described second extraction electrode be connected with described conductive shielding layer is grounding electrode.

14. physiology monitoring sensing zones according to claim 1, is characterized in that, at least one formation in two surfaces of described frictional interface is provided with bulge-structure on the surface.

15. physiology monitoring sensing zones according to claim 1, is characterized in that, described first extraction electrode is connected with described first triboelectricity layer and described second triboelectricity layer respectively with the mode of described second extraction electrode by riveted joint; Or described first extraction electrode is connected with described first triboelectricity layer or described second triboelectricity layer by the mode of riveted joint, described second extraction electrode is connected with described conductive shielding layer by the mode of riveted joint.

16. physiology monitoring sensing zones according to any one of claim 5-12, it is characterized in that, described first electrode is the conductive tape of one-side band glue, described first high molecular polymer insulating barrier is dot matrix polydimethylsiloxanefilm film, and described second high molecular polymer insulating barrier is pet film;

Described insulating barrier is one-side band glue or double-sided belt glue PETG adhesive tape, and described conductive shielding layer is one-side band glue or the conductive tape not with glue.

17. physiology monitoring sensing zones according to claim 7 or 8 or 11 or 12, it is characterized in that, described second electrode is the conductive tape of one-side band glue.

18. physiology monitoring sensing zones according to claim 7 or 8, it is characterized in that, described the second electrode lay is conductive tape.

19. physiology monitoring sensing zones according to claim 2, is characterized in that, described protective layer is tissue layer or plastic layer or plastic film.

20. physiology monitoring sensing zones according to claim 16, is characterized in that, the thickness of described dot matrix polydimethylsiloxanefilm film is 50 μm to 1000 μm, and the thickness of described pet film is 30 μm to 500 μm.

21. physiology monitoring sensing zones according to any one of claim 5-12, it is characterized in that, described first high molecular polymer insulating barrier is the rectangular film that surface is laid with salient point array; Wherein,

Outermost salient point near the first long limit of described rectangular film is equal with the distance between described second long limit with the outermost salient point on the second long limit near described rectangular film with the distance between described first long limit; Outermost salient point near the first minor face of described rectangular film is equal with the distance between described second minor face with the outermost salient point of the second minor face near described rectangular film with the distance between described first minor face.

22. physiology monitoring sensing zones according to claim 21, it is characterized in that, be 0.1mm-5mm near the distance between the outermost salient point and described first long limit on the first long limit of described rectangular film or the distance between the outermost salient point and described second long limit on the second long limit of described rectangular film;

Distance between the outermost salient point of the first minor face of close described rectangular film and described first minor face or the distance between the outermost salient point and described second minor face of the second minor face of described rectangular film are 0.1mm-5mm.

23. physiology monitoring sensing zones according to claim 21, it is characterized in that, the bump height in described salient point array is 0.01mm-5mm, bump pitch is 0.01mm-30mm.

24. physiology monitoring sensing zones according to claim 22, it is characterized in that, the bump height in described salient point array is 0.01mm-5mm, bump pitch is 0.01mm-30mm.

25. physiology monitoring sensing zones according to claim 1, is characterized in that, also comprise: observation circuit; Described observation circuit is connected with the output electrode of described physiology monitoring sensing zone, for gather and process described physiology monitoring sensing zone export electro-physiological signals.

26. 1 kinds of physiological monitoring systems comprising the physiology monitoring sensing zone described in any one of claim 1-25, it is characterized in that, also comprise: terminal equipment, carry out statistical analysis for the electro-physiological signals exported described physiology monitoring sensing zone, and show statistic analysis result.

27. 1 kinds of physiology monitoring mattresses, is characterized in that, comprising: the physiology monitoring sensing zone described in any one of the claims 1-25, and mattress body;

Described physiology monitoring sensing zone is arranged on inside and/or the outside of described mattress body.

28. 1 kinds of physiological monitoring systems comprising physiology monitoring mattress according to claim 27, is characterized in that, also comprise: terminal equipment, carry out statistical analysis, and show statistic analysis result for the electro-physiological signals exported described physiology monitoring mattress.