CN108606788B - A kind of flexible paste chip electric signal measurement system - Google Patents

Abstract

This disclosure relates to which a kind of flexible paste chip electric signal measurement system, the flexible patch include: multiple flexible electrodes；Flexible electrode includes electrode body and the first flexible substrates；Electrode body construction circularizes, and the annular includes multiple arc sections, and the multiple arc section forms spaced protrusion and recess portion in the annular；The electrode body is arranged in first flexible substrates.By by flexible electrode configuration at it is spaced protrusion and recess portion arc section annular, the arc section can preferably bear to deform, so that good ductility also may be implemented in flexible electrode setting to the first flexible substrates, to enhance the integral extension of flexible patch.According to the flexible patch of the embodiment of the present disclosure, when there is deformation in human skin, the ductility of flexible patch and flexible electrode can guarantee the long-term good skin surface for being attached at human body, can guarantee the stability of electrical signal collection, realize the long-term real-time monitoring to electrocardiosignal.

Description

A kind of flexible paste chip electric signal measurement system

Technical field

This disclosure relates to cardiac monitoring field more particularly to a kind of flexible patch.

Background technique

After being studied from wave structure and island-bridge structure, the ductility of inorganic flexible electronic has obtained huge Big promotion while maintaining good semiconducting behavior originally, and obtains the mechanical performance of similar organic matter, because This, the application of inorganic flexible electronic also has received widespread attention.

Cardiovascular disease is as the current first major class disease for influencing human health, and the prevention and detection of early stage is to disease Treatment have great significance.Electrocardiogram can detect rhythm of the heart mistake as clinically most common cardiomotility detection mode Often, all kinds of common cardiovascular diseases of myocardial ischemia, myocardial infarction etc..The electrocardiograph volume clinically used is larger, disease People can not move when detecting, and dynamic ecg holter volume is also larger, and patient activity is still subject to certain restrictions, no It is able to achieve long-term detection in real time.

Summary of the invention

In view of this, the present disclosure proposes a kind of flexible patch, by by flexible electrode configuration at spaced The annular of protrusion and recess portion arc section, the arc section can preferably bear to deform, so that flexible electrode setting is soft to first Property substrate on good ductility also may be implemented, can be long-term good to enhance the integral extension of flexible patch It is attached at the skin surface of human body, realizes the long-term real-time monitoring to electrocardiosignal.

According to the one side of the disclosure, a kind of flexible patch is provided, the flexible patch includes: multiple flexible electrodes；

The flexible electrode includes electrode body and the first flexible substrates；

The electrode body construction circularizes, and the annular includes multiple arc sections, and the multiple arc section is in the ring Spaced protrusion and recess portion are formed in shape；

The electrode body is arranged in first flexible substrates.

In one possible implementation, the protrusion profile having the same, the recess portion profile having the same, The annular is centrosymmetric.

In one possible implementation, the flexible patch includes: 10 flexible electrodes.

In one possible implementation, the flexible patch further include: flexible patch ontology；

The flexible patch ontology includes multiple electrodes interface and a plurality of flexible wire,

The flexible wire is serpentine shape；

The flexible wire is for connecting the multiple electrode interface and the multiple flexible electrode.

In one possible implementation, the flexible patch ontology includes signal processing apparatus, the second flexible substrates And flexible encapsulant material；

The signal processing apparatus is used to receive the electric signal of the multiple flexible electrode acquisition, and to the electric signal into Row processing obtains 12 lead signal；

The signal processing apparatus is encapsulated in second flexible substrates by the flexible encapsulant material.

In one possible implementation, the flexible patch ontology includes acceleration transducer；

The acceleration information is transmitted at the signal by the acceleration transducer for obtaining acceleration information Manage device；

The signal processing apparatus according to the acceleration information by the electric signal due to human motion generate fortune Dynamic artefact is eliminated.

In one possible implementation, the signal processing apparatus includes wireless transport module；

The wireless transport module is for by treated, electric signal to be wirelessly transmitted to terminal device.

In one possible implementation, the signal processing apparatus further includes amplification module, filter module, signal point Analyse module, data memory module；

The filter module is connect with the amplification module and signal analysis module respectively by the flexible wire；

The signal analysis module is connect with wireless transport module and data memory module respectively by the flexible wire.

In one possible implementation, the flexible patch ontology includes two halfround bar slices；

Described two halfround bar slices are used to control the starting and closing of the flexible patch.

In one possible implementation, the flexible patch includes flexible electrode container structure；

The flexible electrode container structure is multiple recess on the encapsulating material of the flexible patch ontology.

By the way that by flexible electrode configuration, at the annular with spaced protrusion and recess portion arc section, the arc section can With the deformation of better receiving, so that good ductility also may be implemented in flexible electrode setting to the first flexible substrates, thus Enhance the integral extension of the flexible patch.According to the flexible patch of the embodiment of the present disclosure, there is deformation in human skin When, the ductility of flexible patch and flexible electrode can guarantee the long-term good skin surface for being attached at human body, energy The stability for enough guaranteeing electrical signal collection, realizes the long-term real-time monitoring to electrocardiosignal.

According to below with reference to the accompanying drawings to detailed description of illustrative embodiments, the other feature and aspect of the disclosure will become It is clear.

Detailed description of the invention

Comprising in the description and constituting the attached drawing of part of specification and specification together illustrates the disclosure Exemplary embodiment, feature and aspect, and for explaining the principles of this disclosure.

Fig. 1 shows the structural schematic diagram of the flexible electrode of the flexible patch according to one embodiment of the disclosure.

Fig. 2 shows the structural schematic diagrams according to the electrode body of the flexible electrode of one embodiment of the disclosure.

Fig. 3 shows the flexible wire schematic shapes according to one embodiment of the disclosure.

Fig. 4 shows the structural block diagram of the flexible patch according to one embodiment of the disclosure.

Fig. 5 shows the schematic diagram of internal structure of the flexible patch ontology according to one embodiment of the disclosure.

Fig. 6 shows the medical dual-side glue schematic diagram according to the flexible patch of one embodiment of the disclosure.

Fig. 7 shows the sticker schematic diagram of the flexible electrode according to one embodiment of the disclosure.

Fig. 8 shows the schematic diagram of the electrocardiogram 12 lead according to one embodiment of the disclosure.

Fig. 9 shows the schematic diagram of the electrocardiogram 12 lead according to one embodiment of the disclosure.

Figure 10 shows the schematic diagram being accommodated in flexible patch according to the flexible electrode of one embodiment of the disclosure

Specific embodiment

Various exemplary embodiments, feature and the aspect of the disclosure are described in detail below with reference to attached drawing.It is identical in attached drawing Appended drawing reference indicate element functionally identical or similar.Although the various aspects of embodiment are shown in the attached drawings, remove It non-specifically points out, it is not necessary to attached drawing drawn to scale.

Dedicated word " exemplary " means " being used as example, embodiment or illustrative " herein.Here as " exemplary " Illustrated any embodiment should not necessarily be construed as preferred or advantageous over other embodiments.

In addition, giving numerous details in specific embodiment below to better illustrate the disclosure. It will be appreciated by those skilled in the art that without certain details, the disclosure equally be can be implemented.In some instances, for Method, means, element and circuit well known to those skilled in the art are not described in detail, in order to highlight the purport of the disclosure.

Present disclose provides a kind of flexible patch, the flexible patch includes: multiple flexible electrodes.

Fig. 1 shows the structural schematic diagram of the flexible electrode of the flexible patch according to one embodiment of the disclosure.As shown in Figure 1, The flexible electrode may include electrode body 1 and the first flexible substrates 12；

The electrode body 1 construction circularizes, and the annular may include multiple arc sections, and the multiple arc section can be with Spaced protrusion and recess portion are formed in the annular；

The electrode body 1 is arranged in first flexible substrates 12.

The electrode body 1 can be flexible electronic device, can be by flexible encapsulant material by 1 envelope of electrode body In first flexible substrates 12.

The flexible patch can be the integrated of the function of electrocardiograph, can be applied in the monitoring of electrocardiosignal, lead to The electrocardiosignal of multiple flexible electrodes acquisition human body after crossing encapsulation, and electrocardiogram can be drawn according to the electrocardiosignal.

In order to guarantee the adhered area of flexible electrode and human skin, and the signal strength that guarantee flexible electrode obtains, The width of the flexible electrode can be greater than or equal to 8mm, and comfort level and and flexible paste in order to guarantee human skin The width of the size matching degree of piece, the flexible electrode can be less than 15mm.

Wherein, the number of the flexible electrode can according to need the number of the lead signals of acquisition to determine, the disclosure This is not construed as limiting.

The shape of first flexible substrates 12 can be identical as the shape of the electrode body 1, can also be different, this public affairs It opens and this is not construed as limiting.The material of first flexible substrates 12 can be resin, plastics etc., and the flexible encapsulant material can be rubber Glue, resin etc., the disclosure is not construed as limiting this.

As shown in Figure 1, a portion arc section can be used as the protrusion in annular, another in the multiple arc section Partial arc section can be used as the recess portion in annular, and the electrode body 1 to form the annular is arranged in the protrusion and recess portion interval. Wherein, the profile of the protrusion and recess portion can be different, can also be identical；Profile, recess portion and the recess portion of the protrusion and protrusion Profile can also be different or identical, the disclosure is not construed as limiting this, and the disclosure is also not construed as limiting the number of arc section, As long as the multiple arc section can form the annular electrode ontology with curvature.

By the way that by flexible electrode configuration, at the annular with spaced protrusion and recess portion arc section, the arc section can With the deformation of better receiving, so that good ductility also may be implemented in flexible electrode setting to the first flexible substrates, thus Enhance the integral extension of the flexible patch.According to the flexible patch of the embodiment of the present disclosure, there is deformation in human skin When, the ductility of flexible patch and flexible electrode can guarantee the long-term good skin surface for being attached at human body, energy The stability for enough guaranteeing electrical signal collection, realizes the long-term real-time monitoring to electrocardiosignal.

Fig. 2 shows the structural schematic diagrams according to the electrode body of one embodiment of the disclosure.In a kind of possible implementation In, by taking 8 arc sections as an example, the structure of the electrode body 1 can be as shown in Fig. 2, the protrusion profile having the same, institute Recess portion profile having the same is stated, the annular is centrosymmetric.

The electrode body 1 can be annular, and 8 arc sections that the annular includes can be divided into two groups, wherein one group In 4 arc sections can be used as protrusion, 4 in another set arc section can be used as recess portion, between the protrusion and recess portion Annular is formed every setting, and the annular is centrosymmetric structure.

It is also an option that the arc section of other numbers, the electrode body 1 for forming the annular in the above described manner is only this A disclosed example, the disclosure are not construed as limiting the number of arc section.

For the size of electrode body 1, in one example, can using as shown in Fig. 2, the outside of the protrusion as radius 2mm, arc length are the arc section of 2 π mm, and raised inside is radius 1mm, and arc length is the arc section of π mm；The outside of the recess portion is Radius 1mm, arc length are the arc section of pi/2 mm, and the inside of recess portion is radius 2mm, and arc length is the arc section of π mm.The annular Inner width A is 8mm, and the external width B of the annular is 10mm.

It is above only a kind of example of the size of the electrode body 1, the external width of the annular of the electrode body 1 B can be 8mm-15mm.

In one possible implementation, the flexible patch may include 10 flexible electrodes.

In the 12 lead monitoring for carrying out electrocardiosignal, the number that can choose flexible electrode is 10, by described 10 flexible electrodes acquire electrocardiosignal, obtain 12 lead signal.

Fig. 3 shows the flexible wire schematic shapes according to one embodiment of the disclosure.Fig. 4 is shown to be implemented according to the disclosure one The structural block diagram of the flexible patch of example.

In one possible implementation, the flexible patch can also include: flexible patch ontology 13；The flexibility Patch ontology 13 may include multiple electrodes interface and a plurality of flexible wire, and the flexible wire can be serpentine shape；

The flexible wire can be used for connecting the multiple electrode interface and the multiple flexible electrode.

As shown in figure 4, the flexible patch may include multiple flexible electrodes and flexible patch ontology 13, the flexible paste Piece ontology 13 can connect 10 flexible electrodes, one end of flexible wire by the flexible wire of serpentine shape as described in Figure 3 It can connect the electrode interface on flexible patch ontology 13, the other end can connect flexible electrode.Wherein, in 10 flexible electrodes 6 can be used as six electrode of chest leads: V₁~V₆, wherein 2 flexible electrodes can be used as two electrode of arm: L, R, in addition 2 Electrode can be used as two electrode of leg: F, N.

In one example, the flexible wire of the serpentine shape may include multiple curved sections, the multiple curved section Spaced protrusion and recess portion are formed in the serpentine shape.

Optionally, as shown in figure 3, can also include straightway, at least one end of the straightway in the serpentine shape It is connected with a curved section, wherein the line width of flexible wire can be 0.4mm-0.6mm, and the radius of peripheral circular arc can be with Radius for 0.8mm-1.2mm, internal circular arc can be 0.4mm-0.6mm, and the length of each straightway can be 1.6mm- 2.4mm, the width of the serpentine shape of entire flexible wire, such as the flexible wire two sides external arc midpoint of Fig. 3 serpentine shape The vertical range of tangent line can be 3.2mm-4.8mm.

Certain strain energy of distortion can be stored in advance in the flexible wire of the serpentine shape, during stretching strain energy of distortion It has one and discharges the process accumulated again, to substantially increase the deformability of flexible wire.In addition, the flexibility of serpentine shape Conducting wire also has good in-plane bending ability, can sufficiently adapt to all kinds of skin patterns of human body surface, and convenient for collecting, To realize the function and bending function of stable transmission telecommunications number.

Above-mentioned is the example of the serpentine shape of flexible wire, and the disclosure is not construed as limiting this.

As shown in figure 4, in one possible implementation, the flexible patch ontology 13 may include signal processing device Set the 14, second flexible substrates and flexible encapsulant material；

The signal processing apparatus 14 is used to receive the electric signal of the multiple flexible electrode acquisition, and to the electric signal It is handled to obtain 12 lead signal；

The signal processing apparatus 14 is encapsulated in second flexible substrates by the flexible encapsulant material.

The signal processing apparatus 14 can be set in the second flexible substrates, and be sealed by flexible encapsulant material Dress, enables the good body surface for being attached at measurement of flexible patch ontology.Wherein, the material of second flexible substrates It can be resin, plastics etc., the flexible encapsulant material can be rubber, resin etc., and the disclosure is not construed as limiting this.

The electrode interface can be set on the signal processing apparatus 14.Flexible electrode can be by the electric signal of acquisition It is transmitted to signal processing apparatus 14 by flexible wire and electrode interface, it, can be with after signal processing apparatus 14 receives electric signal The electric signal is handled, such as electric signal is amplified, is filtered, obtains 12 lead signal.

As shown in figure 4, in one possible implementation, the signal processing apparatus 14 may include wireless transmission mould Block；

The wireless transport module is for by treated, electric signal to be wirelessly transmitted to terminal device.

The wireless transport module can electric signal be transferred to terminal device by way of wireless transmission by treated, Terminal device can be mobile phone, computer etc., and the user of flexible patch can easily check electrocardiosignal monitoring result, and And it can long-term real-time perfoming electrocardiosignal monitoring.

As shown in figure 4, in one possible implementation, the signal processing apparatus 14 can also include amplification mould Block, filter module, signal analysis module, data memory module；

The filter module is connect with the amplification module and signal analysis module respectively by the flexible wire；

The signal analysis module is connect with wireless transport module and data memory module respectively by the flexible wire.

Wherein, the electric signal that amplification module can acquire flexible electrode amplify, and filter module can will be after amplification Electric signal be filtered, filter interference signal, such as power frequency interference signals.

The signal analysis module can extract the characteristic point of filtered electric signal, to obtain electrocardio letter Number.

The electrocardiosignal that the signal analysis module obtains can be sent to wireless transport module, by being wirelessly transferred mould Block is sent to terminal device.The electrocardiosignal that the signal analysis module obtains can also be sent to data memory module, led to It crosses data memory module and saves the electrocardiosignal information, and regularly the electrocardiosignal in data memory module can be believed Breath is deleted.

Wherein, the amplification module, filter module, signal analysis module, data memory module, wireless transport module can be with It is hard chip, can be integrated in flexible substrates.The flexible wire can be using the soft of serpentine shape as shown in Figure 3 Property conducting wire.

It is connected between each module using the flexible wire of serpentine shape, the deformation of the flexible patch ontology 13 can be with It is carried by the flexible wire of the serpentine shape, and each module itself is not influenced by external world's deformation, so that electric signal is supervised It surveys more stable.

As shown in figure 4, in one possible implementation, the flexible patch ontology 13 can also include that acceleration passes Sensor；

The acceleration information is transmitted at the signal by the acceleration transducer for obtaining acceleration information Manage device；

The signal processing apparatus according to the acceleration information by the electric signal due to human motion generate fortune Dynamic artefact is eliminated.

The acceleration transducer can be able to be by flexible wire connection signal processing unit 14, the flexible wire The flexible wire of serpentine shape shown in Fig. 3.

When acquiring electric signal, acceleration information can be obtained by acceleration transducer, then believe the acceleration Breath is transmitted to the signal processing apparatus 14, signal processing apparatus 14 can according to acceleration information to the electric signal at Reason, for example, when the electrocardiosignal to human body is monitored electric signal can be acquired by flexible electrode, and pass through acceleration The acceleration information that sensor obtains human body is spent, acceleration information is then transmitted to the signal processing apparatus 14, the letter Number processing unit 14 can by the electric signal since the motion artifacts that human motion generates are eliminated, for example, since human body is jumped It is dynamic that electrocardiosignal is caused the noise of large amplitude occur, in combination with current acceleration information, calculate the motion state of human body, thus Noise is eliminated, interference of the acceleration to body electrical signals of human body is reduced, so that the body electrical signals of measurement are more accurate.

As shown in figure 4, in one possible implementation, the flexible patch ontology 13 can also include chargeable electricity Pond and circuit switch.The rechargeable battery can connect the signal processing apparatus by flexible wire respectively with circuit switch 14, for example, by the flexible wire of serpentine shape as shown in Figure 3 by rechargeable battery and circuit switch respectively with the signal Processing unit 14 connects.

The rechargeable battery can power for the flexible patch, and the circuit switch can control the flexible patch Starting and closing.

Signal processing apparatus is led with rechargeable battery, circuit switch, acceleration transducer also by the flexibility of serpentine shape Line connection, realizes the flexibility of entire flexible patch, improves the integral extension of flexible patch.

Fig. 5 shows the schematic diagram of internal structure of the flexible patch ontology according to one embodiment of the disclosure.As shown in figure 5, In a kind of possible implementation, the flexible patch ontology 13 may include two halfround bar slices 9；

Described two halfround bar slices 9 are used to control the starting and closing of the flexible patch.

Described two halfround bar slices 9 can be a kind of possible implementation of foregoing circuit switch.For example, as shown in fig. 6, The thin slice of the intermediate ellipse of medical dual-side glue 10 is conductive sheet 11, can be by medical dual-side glue 10 and this consideration of flexible patch It closes, conductive sheet 11 is in contact with halfround bar slice 9, so that two halfround bar slices 9 are linked up, and a halfround bar slice 9 connects processing circuit 6, another connection rechargeable battery 5, rechargeable battery 5 can connect processing circuit 6, forms an electrical signal collection and returns Road, flexible patch start start-up operation automatically.When the medical dual-side glue 10 is separated with flexible patch ontology, may be implemented soft The closing of property patch.

As shown in figure 5, flexible patch ontology 13 can also include charge sheet 8, electrode interface module 2,6 and of processing circuit Flexible wire 7.It can be with integrated charge interface, power interface on the rechargeable battery 5.

The charge sheet 8 can be two, charge sheet 8 can by power interface connect power supply, to rechargeable battery 5 into Row charging.

The electrode interface module 2 can connect multiple flexible wires 7, and electrode interface module 2 is for providing multiple electrodes Interface, for example, 2,6,2 electrode interfaces can be provided respectively as shown in figure 5, electrode interface module 2 is divided into three groups.

As shown in figure 5, in the inside of flexible patch ontology 13, it can also be by acceleration transducer and signal processing apparatus 14 It is integrated in processing circuit 6, the processing circuit 6 can be connect with 8, halfround bar slices 9 of charge sheet and rechargeable battery 5.

Fig. 7 shows the sticker schematic diagram of the flexible electrode according to one embodiment of the disclosure.People is being carried out using flexible patch When body-centered electric signal monitors, sticker, such as medical dual-side glue flexible can use, flexible electrode is attached and human skin table Face.The medical dual-side glue can beat some through-holes thereon, to generate some gas permeabilities and water penetration, can transport in human body Sweat is exhausted when dynamic perspiration without being deposited under medical dual-side glue in time, keep the viscosity of medical dual-side glue, use is more relaxed It is suitable.

The colloid of the medical dual-side glue itself is the medical glue for having bio-compatibility, and colloid itself can fit in people Body skin surface at least 24 hours, this provided guarantee for the long-time acquisition of electrocardiosignal.

Fig. 8 shows the schematic diagram of the electrocardiogram 12 lead according to one embodiment of the disclosure.Fig. 9 is shown according to the disclosure one The schematic diagram of the electrocardiogram 12 lead of embodiment.

When carrying out the monitoring of electrocardiogram 12 lead to human body, can be incited somebody to action first with medical dual-side glue as shown in FIG. 6 Flexible patch ontology 13 is attached to human skin surface, it is then possible in order by flexible electrode from the table of flexible patch ontology 13 Face is taken out, and flexible electrode is attached to 10 positions of human skin using medical dual-side glue, as shown in figure 8, this 10 positions can To include: the junction and 6 positions of front of four limbs and limbs, it can choose and first paste outermost flexibility on flexible patch Electrode, the disclosure are not construed as limiting to sequence is pasted, as long as guaranteeing that the flexible wire of flexible electrode will not tangle up.

It should be noted that the position of pasting of the flexible electrode of the electrocardiogram 12 lead is also possible to four limbs and chest 6 preceding positions, the disclosure are not construed as limiting this, as long as the electrode position mode of 12 lead electric signal can be measured i.e. It can.

Wherein, the connection type of flexible electrode can there are two types of, the first as shown in figure 8, chest leads 6 flexible electrodes Flexible wire is all connected, this can be adapted for different people；Second can be as shown in figure 9,6 electrodes of chest leads be connected Together, trouble when wearing can be greatly reduced, which can also be connected based on the flexible wire of the serpentine shape 6 electrodes so that the series system is readily applicable to the length between the chest leads of the people of different building shape.

After flexible patch is worn, flexible patch can use the current potential that flexible electrode acquires each point in real time, can be with 12 lead signals are obtained, the processing of the amplification module, filter module, signal analysis module in signal processing apparatus is then passed through, Effective clinical electrocardiogram (ECG) data is obtained, terminal device, such as the hand of flexible patch user the electrocardiogram (ECG) data can be sent to On machine, convenient for users to checking, data also are provided for diagnosis disease.Wherein, the flexible patch and terminal device can be with Pass through bluetooth connection.

Alternatively it is also possible to the electrocardiogram (ECG) data is stored in data memory module, and can be periodically to described Electrocardiogram (ECG) data is deleted.

Figure 10 shows the schematic diagram being accommodated in flexible patch according to the flexible electrode of one embodiment of the disclosure.The flexibility Patch, can be as shown in Figure 10 when unused, can place on the surface of the flexible encapsulant material 4 of the flexible patch ontology Flexible wire and flexible electrode.

As shown in Figure 10, in one possible implementation, the flexible patch may include flexible electrode storage knot Structure；

The flexible electrode container structure is multiple recess on the encapsulating material of the flexible patch ontology.

When flexible patch quantity is more, can be arranged on the surface of the flexible encapsulant material 4 of flexible patch ontology described in Flexible electrode container structure, the flexible electrode container structure can be made on the surface of flexible encapsulant material 4 it is some Recess identical with electrode shape size, and magnet can be set on flexible electrode and adhere to the recess.Alternatively, can also be with The size that the recess is arranged is slightly smaller than flexible electrode, is firmly embedded into flexible electrode in recess.

Described flexible electrode itself has certain area, after folding completely may damage, thus flexible electrode is placed in soft Property patch surface can storage while, avoid the damage of flexible electrode.

In one example, the flexible patch ontology can also include conducting wire container structure, and as shown in Figure 10, flexibility is led Line can be placed around flexible patch ontology, and the conducting wire container structure, which can be, to be set on 4 perimeter of flexible encapsulant material Guide device, such as groove etc..Since flexible wire has good flexible, tensility energy, can preferably adapt to each Class shape, therefore the disclosure is not construed as limiting the conducting wire container structure.

Electrocardiosignal monitoring finishes, and the flexible electrode on body can be torn, sequentially lead flexible electrode and flexibility Line is placed individually into the flexible electrode container structure and conducting wire container structure, realizes to multiple flexible electrodes and flexible wire Storage.

The presently disclosed embodiments is described above, above description is exemplary, and non-exclusive, and It is not limited to disclosed each embodiment.Without departing from the scope and spirit of illustrated each embodiment, for this skill Many modifications and changes are obvious for the those of ordinary skill in art field.The selection of term used herein, purport In the principle, practical application or improvement to the technology in market for best explaining each embodiment, or make the art Other those of ordinary skill can understand each embodiment disclosed herein.

Claims (9)

1. a kind of flexible patch, which is characterized in that the flexible patch includes: multiple flexible electrodes and flexible patch ontology；

The flexible electrode includes electrode body and the first flexible substrates；

The electrode body construction circularizes, and the annular includes multiple arc sections, and the multiple arc section is in the annular Form spaced protrusion and recess portion；

The electrode body is arranged in first flexible substrates；

Wherein, the flexible patch ontology includes acceleration transducer and signal processing apparatus；

The acceleration information is transmitted to the signal processing device for obtaining acceleration information by the acceleration transducer It sets；

The signal processing apparatus according to the acceleration information by electric signal due to human motion generate motion artifacts disappear It removes；The electric signal is the electric signal of the multiple flexible electrode acquisition.

2. flexible patch according to claim 1, which is characterized in that the protrusion profile having the same, the recess portion Profile having the same, the annular are centrosymmetric.

3. flexible patch according to claim 1 characterized by comprising 10 flexible electrodes.

4. flexible patch according to claim 1, which is characterized in that the flexible patch ontology includes multiple electrodes interface With a plurality of flexible wire,

The flexible wire is serpentine shape；

The flexible wire is for connecting the multiple electrode interface and the multiple flexible electrode.

5. flexible patch according to claim 4, which is characterized in that the flexible patch ontology further includes the second flexible base Bottom and flexible encapsulant material；

The signal processing apparatus is encapsulated in second flexible substrates by the flexible encapsulant material；

The signal processing apparatus is used to receive the electric signal of the multiple flexible electrode acquisition, and to the electric signal at Reason obtains 12 lead signal.

6. flexible patch according to claim 5, which is characterized in that the signal processing apparatus includes wireless transmission mould Block；

The wireless transport module is for by treated, electric signal to be wirelessly transmitted to terminal device.

7. flexible patch according to claim 6, which is characterized in that the signal processing apparatus further include amplification module, Filter module, signal analysis module, data memory module；

The filter module is connect with the amplification module and signal analysis module respectively by the flexible wire；

The signal analysis module is connect with wireless transport module and data memory module respectively by the flexible wire.

8. flexible patch according to claim 1, which is characterized in that the flexible patch ontology includes two halfround bar slices；

Described two halfround bar slices are used to control the starting and closing of the flexible patch.

9. flexible patch according to claim 1, which is characterized in that the flexible patch includes flexible electrode storage knot Structure；

The flexible electrode container structure is multiple recess on the encapsulating material of the flexible patch ontology.