CN106963364B - Wearable electrocardiograph monitoring device and its cardioelectric monitor system - Google Patents

Abstract

The present invention discloses a kind of wearable electrocardiograph monitoring device, comprising: first electrode component is equipped with the first electrode sheet of Pasting；Second electrode component, two first elastic webbings for being equipped with the second electrode sheet of Pasting and being connected respectively on the outside of the horizontal both ends of second electrode sheet；Two first elastic webbings are detachably connected far from the both ends of second electrode sheet；Wherein, first electrode component and second electrode component are respectively provided with several；It is mutually matched stickup between several first electrode sheet avris, between several second electrode sheet avris and between first electrode sheet avris and second electrode sheet avris and covers entire cardia to splice.The first electrode component and second electrode component of matching splicing is arranged in the present invention, the real-time monitoring of the wearable and electrocardiosignal of electrocardiograph monitoring device is realized, conducive to the daily monitoring and early warning of user；And the number of first electrode component and second electrode component can be adjusted according to user's physical size, save resource, wearing convenience.

Description

Wearable electrocardiograph monitoring device and its cardioelectric monitor system

Technical field

The present invention relates to medical auxiliary apparatus technical fields, it is more particularly related to a kind of wearable electrocardio Monitoring device and its cardioelectric monitor system.

Background technique

In medical field, due to faster rhythm of life and undesirable living habit or mode, lead to cardiovascular disease It is increasingly becoming one of the principal disease for threatening human health, further results in health agency and patient to being able to detect and for a long time supervise The Medical Instruments demand of thought-read vascular diseases increasingly increases.Cardiovascular disease is detected there are many kinds of mode, electrocardiogram monitoring has Non-invasive, radiationless property, long-time monitoring and other advantages low in cost and sustainable, be widely used in cardiovascular disease diagnosis, In rehabilitation and scientific research.

In the prior art, although most ECG monitors meet the requirement of medical treatment and research well on acquisition precision, But the disadvantages of big, inconvenient, power consumption is high due to its volume, cannot carry so that it can only be used in hospital, which has limited The scope of activities of patient is unable to the electrocardiosignal of real-time detection patient, is not particularly well suited for the daily monitoring and early warning of patient, It is easy to omit cardiac electrical key message, is no longer satisfied the needs of modern precisely medical treatment.

Summary of the invention

Shortcoming present in view of the above technology, the present invention provide a kind of wearable electrocardiograph monitoring device, setting The first electrode component and second electrode component for matching splicing, realize the reality of the wearable and electrocardiosignal of electrocardiograph monitoring device When monitor, conducive to the daily monitoring and early warning of user；And first electrode component and the second electricity can be adjusted according to user's physical size The number of pole component saves resource, wearing convenience；

The present invention also provides a kind of cardioelectric monitor system, equipped with the ECG monitor communicated to connect with electrocardiograph monitoring device, Complete electrocardiogram (ECG) data can be remotely exported, realizes the real-time monitoring of electrocardiosignal.

In order to realize these purposes and other advantages according to the present invention, the invention is realized by the following technical scheme:

The present invention provides a kind of wearable electrocardiograph monitoring device comprising:

First electrode component is equipped with the first electrode sheet of Pasting；And

Second electrode component is equipped with the second electrode sheet of Pasting and is connected respectively to the second electrode sheet level Two first elastic webbings on the outside of both ends；Two both ends of the first elastic webbing far from the second electrode sheet detachably connect It connects；

Wherein, the first electrode component and the second electrode component are respectively provided with several；Several described It is mutually matched stickup between one electrode slice avris and several described second electrode sheet avris and covers entire heart to splice Position.

Preferably, further include third electrode assembly, be equipped with the third electrode slice of Pasting, be connected respectively to described the Two second elastic webbings on the outside of the horizontal both ends of three electrode slices and it is connected to one vertical end of third electrode slice and an institute State the third elastic webbing between second elastic webbing；

Wherein, the avris of the third electrode slice respectively with the avris of the first electrode sheet, the second electrode sheet Avris matching sealing is pasted；

Two second elastic webbings are detachably connected far from the both ends of the third electrode slice；

Third elastic webbing one end is fixedly attached to the third electrode slice, the other end is detachably attached to described in one Second elastic webbing.

Preferably, the third electrode assembly is additionally provided with the 4th elastic webbing；

Described 4th elastic webbing one end is fixedly attached to the third elastic webbing close to the position of the third electrode slice It sets, the other end is detachably attached to same third elastic webbing or a second elastic webbing.

Preferably, the second electrode sheet is identical as the first electrode chip architecture, the first electrode sheet include according to The first supporting layer, sensor layer and the second supporting layer of secondary bonding；

Wherein, first supporting layer is successively arranged the first adhered layer and the first protection far from the side of the sensor layer Film layer；

Packed accommodating chamber is set between second supporting layer and the sensor layer；Difference is placed in the accommodating chamber It is electrically connected the first controller and battery of the sensor layer；The battery is electrically connected first controller, first control Device processed is equipped with the first wireless communication module；The ecg information of the sensor layer acquisition unimodule is sent to first controller It is processed into unimodule electrocardiogram (ECG) data, the unimodule electrocardiogram (ECG) data is issued through first wireless communication module.

Preferably, each avris of the first electrode sheet is equipped with the second adhered layer and the second protection from inside to outside respectively Film layer；Second protective film layer interval of each avris of the first electrode sheet is arranged.

Preferably, the third electrode slice is identical as the first electrode chip architecture.

Preferably, the sensor layer include in temperature sensor, electrocardiography transducer and myoelectric sensor extremely Few one kind.

A kind of cardioelectric monitor system with wearable electrocardiograph monitoring device, further includes:

ECG monitor is equipped with the second controller with the second wireless communication module；Second radio communication mold Block is communicated to connect with several described first wireless communication modules of several electrocardiograph monitoring devices respectively；Second channel radio Letter module receives several unimodule electrocardiogram (ECG) data to described second controllers and handles, and exports electrocardiogram (ECG) data.

Preferably, further includes: hand-held end is communicatively connected to the second controller, receives the electrocardio number According to.

It preferably, further include Cloud Server, the Cloud Server is communicatively connected to several cardiac monitorings respectively The second controller of instrument.

The present invention is include at least the following beneficial effects:

1) wearable electrocardiograph monitoring device provided by the invention, several first electrode sheets and several second electrodes Mutually splicing pastes user's cardia between piece, with the electrocardiosignal of real-time detection various components corresponding position, is conducive to use The daily monitoring and early warning at family；The number of first electrode sheet and second electrode sheet can be adjusted according to user's bust sizes；First Elastic webbing, which is used to that user's chest will to be fastened to several electrode assemblies of its level splicing, realizes wearable, and first elastic webbing Elastic characteristic, be conducive to the firm wearing of different size users；

2) second elastic webbing of third electrode assembly is used to that use will to be fastened to several electrode assemblies of its level splicing On the basis of the chest of family, third elastic webbing is used to several electrode assemblies spliced vertically with it being fastened to user's shoulder and chest Between portion, wearable stability is improved；

3) the 4th elastic webbing be used to for several electrode assemblies spliced vertically with it being fastened to user's shoulder and chest it Between, wearable stability is further increased on the basis of third elastic webbing；

4) structure of first electrode sheet, second electrode sheet and third electrode slice is identical, tears the first protective layer, Ji Ketong off It crosses the first adhered layer and pastes user's body；Sensor layer is for acquiring electrocardiosignal；Battery is sensor layer and the first control Device power supply processed；First controller receives electrocardiosignal and carries out data preliminary treatment, forms the electrocardio number of single component corresponding position According to through the sending of the first wireless communication module；

5) second controller of ECG monitor respectively from several electrode assemblies of different electrocardiograph monitoring devices first Controller communication connection, receives each unimodule electrocardiogram (ECG) data of different electrocardiograph monitoring devices and is handled, and exports decentraction The complete electrocardiogram (ECG) data of power utilization monitoring device, for checking；

6) hand-held end is communicatively connected to second controller, for receiving the complete of ECG monitor output whenever and wherever possible Electrocardiogram (ECG) data in case check；

7) Cloud Server is communicatively connected to the second controller of several ECG monitors respectively, for receiving several hearts The complete electrocardiogram (ECG) data for the different electrocardiograph monitoring devices that electric patient monitor exports respectively simultaneously stores, for subsequent data analysis and research.

Further advantage, target and feature of the invention will be partially reflected by the following instructions, and part will also be by this The research and practice of invention and be understood by the person skilled in the art.

Detailed description of the invention

Fig. 1 is the schematic diagram of first electrode component of the present invention；

Fig. 2 is the schematic diagram of second electrode component of the present invention；

Fig. 3 is the schematic diagram of third electrode assembly of the present invention；

Fig. 4 is the splicing schematic diagram of electrocardiograph monitoring device of the present invention；

Fig. 5 is the sectional view in Fig. 1 along the direction A-A；

Fig. 6 is the communication scheme of cardioelectric monitor system of the present invention；

In figure:

100- electrocardiograph monitoring device；

10- first electrode component；11- first electrode sheet；The first supporting layer of 111-；112- sensor layer；113- second Support layer；The first adhered layer of 114A-；The second adhered layer of 114B-；114C- third adhered layer；The first protective film layer of 115A-；115B- Second protective film layer；116- accommodating chamber；The first controller of 117-；The first wireless communication module of 117A-；118- battery；

20- second electrode component；21- second electrode sheet；22- first elastic webbing；

30- third electrode assembly；31- third electrode slice；32- second elastic webbing；33- third elastic webbing；The 4th elasticity of 34- Band；

200- ECG monitor；210- second controller；The second wireless communication module of 211-；

300- hand-held end；

400- Cloud Server.

Specific embodiment

Present invention will be described in further detail below with reference to the accompanying drawings, to enable those skilled in the art referring to specification text Word can be implemented accordingly.

It should be appreciated that such as " having ", "comprising" and " comprising " term used herein do not allot one or more The presence or addition of a other elements or combinations thereof.

Embodiment 1

As shown in Figures 1 to 5, the embodiment of the present invention provides a kind of wearable electrocardiograph monitoring device 100 comprising first Electrode assembly 10 and second electrode component 20.First electrode component 10 is equipped with the first electrode sheet 11 of Pasting.Second electrode group Part 20 is equipped with the second electrode sheet 21 of Pasting and be connected respectively on the outside of the horizontal both ends of second electrode sheet 21 two first Elastic webbing 22；Two first elastic webbings 22 are detachably connected far from the both ends of second electrode sheet 21；Wherein, first electrode component 10 And second electrode component 20 is respectively provided with several；Between several 11 avris of first electrode sheet, several second electrode sheets Stickup is mutually matched between 21 avris and between 21 avris of 11 avris of first electrode sheet and second electrode sheet to cover to splice Entire cardia.

In above embodiment, electrode assembly is corresponding where acquisition in real time respectively for first electrode sheet 11 and second electrode sheet 21 To the unimodule electrocardiosignal of cardia；Then the electrocardiosignal of the entire cardia of user is just by several first electrode groups Part 10 and several second electrode components 20 are divided into several unimodule electrocardiosignals, improve the accurate of heart signal acquisition Degree.The number of first electrode sheet 11 and second electrode sheet 21 can be adjusted according to user's bust sizes, avoid the wasting of resources.First Elastic webbing 22 is wearable for that will be fastened to the realization of user's chest with several electrode assemblies of its level splicing, and the first elasticity With 22 elastic characteristic, be conducive to the firm wearing of different bust sizes users.Two first elastic webbings 22 are far from second electrode The both ends of piece 21 are detachably connected, and are dressed convenient for user.Fig. 4 gives two second electrode components 20 and pastes spelling along the vertical direction It connects and the splicing of the horizontal direction of each second electrode component 20 one first electrode component 10 of each Self-adhesive splicing is illustrated.

As the preferred of above embodiment, electrocardiograph monitoring device 100 further includes third electrode assembly 30, and being equipped with can glue The third electrode slice 31 of patch, two second elastic webbings 32 being connected respectively on the outside of the horizontal both ends of third electrode slice 31 and connection Third elastic webbing 33 between 31 1 vertical end of third electrode slice and a second elastic webbing 32；Wherein, third electrode slice 31 Avris matched respectively with the avris of the avris of first electrode sheet 11, second electrode sheet 21 sealing paste；Two second elastic webbings 32 both ends far from third electrode slice 31 are detachably connected；33 one end of third elastic webbing is fixedly attached to third electrode slice 31, another One end is detachably attached to a second elastic webbing 32.

In above embodiment, third electrode slice 31 is used to match respectively with first electrode sheet 11 and second electrode sheet 21 viscous Splice after patch to acquire the unimodule electrocardiosignal that place electrode assembly corresponds to cardia in real time.It is incited somebody to action in second elastic webbing 32 On the basis of horizontal direction is firm when being fastened to user's chest realization wearing with several electrode assemblies of its level splicing, third Several electrode assemblies that elastic webbing 33 is used to vertically splice it are fastened to user between the shoulder and chest of chest, The stability of vertical direction when improving user's wearing.Two both ends of the second elastic webbing 32 far from third electrode slice 31 are detachable Connection, 33 other end of third elastic webbing are detachably attached to a second elastic webbing 32, are easy for user's wearing.Fig. 4 is provided One third electrode assembly 30 and two second electrode components 20 successively paste splicing and each second electrode along the vertical direction The splicing that each Self-adhesive of the horizontal direction of component 20 and each third electrode assembly 30 splices a first electrode component 10 is shown Meaning.As further preferred, third electrode assembly 30 is additionally provided with the 4th elastic webbing 34；4th elastic webbing, 34 one end is fixedly attached to One third elastic webbing 33 is detachably attached to same third elastic webbing 33 or one close to the position of third electrode slice, the other end Second elastic webbing 32.On the basis of third elastic webbing 33, if the 4th elastic webbing 34 with it for will further splice vertically A dry electrode assembly is fastened to user between the shoulder and chest of chest, to improve the stability of wearing vertical direction.It can Different from the size of bust according to different user shoulder, 34 other end of the 4th elastic webbing is detachably attached to same third elastic webbing 33 or any one second elastic webbing 32, it is detachably connected the convenience for improving wearing.

As the preferred of above embodiment, second electrode sheet 21 is identical as 11 structure of first electrode sheet, as shown in figure 5, First electrode sheet 11 includes the first supporting layer 111, sensor layer 112 and the second supporting layer 113 successively bonded；Wherein, One supporting layer 111 is successively arranged the first adhered layer 114A and the first protective film layer 115A far from the side of sensor layer 112；Second Packed accommodating chamber 116 is set between supporting layer 113 and sensor layer 112；It is placed in accommodating chamber 116 and is electrically connected sensor The first controller 117 and battery 118 of layer；Battery 118 is electrically connected the first controller 117, and the first controller 117 is equipped with the first nothing Line communication module 117A；The ecg information that sensor layer 112 acquires unimodule is sent to the first controller 117 and is processed into unimodule Electrocardiogram (ECG) data, unimodule electrocardiogram (ECG) data are issued through the first wireless communication module 117A.

In above embodiment, the first protective film layer 115A avoids the first adhered layer for protecting the first adhered layer 114A 114A contact is extraneous and causes the failure of stickup property.Tearing the first protective film layer 115A, the first adhered layer 114A could be adhered to user Body.Sensor layer 112 is equipped with sensor to acquire the electrocardiosignal of user.Battery 118 is respectively the first controller 117 and passes The sensor of sensor layer 112 is powered.The single component electrocardiosignal of first controller, 117 receiving sensor layer 112 acquisition is laggard The preliminary data processing of row, obtains unimodule electrocardiogram (ECG) data, realizes and issues through the first wireless communication module 117A.It needs to illustrate It is that the first adhered layer 114A uses harmless medical glue, the first supporting layer 111, sensor layer 112 and second The successively bonding supportted between layer 113 uses conducting resinl, avoids between the first controller 117, battery 118 and sensor layer 112 It is conductive bad.As further preferred, each avris of first electrode sheet 11 is equipped with the second adhered layer 114B from inside to outside respectively With the second protective film layer 115B；Tear the second protective film layer 115B off, by the second adhered layer 114B and the second adhered layer 114B it Between stickup, realize between first electrode sheet 11, between second electrode sheet 21 and first electrode sheet 11 and second electrode sheet 21 Between be mutually matched stickup splicing.It needs to spell for the ease of tearing the second protective film layer 115B for needing stickup to splice off, leaving The the second protective film layer 115B connect, the second interval protective film layer 115B setting of each avris of first electrode sheet 11.As into One step is preferred, and third electrode slice 31 is identical as 11 structure of first electrode sheet, convenient for first electrode sheet 11, second electrode sheet 21 and Stickup is mutually matched between third electrode slice 31.As for the concrete shape of first electrode sheet, the present invention includes but is not limited to four Side shape, it is respectively showing for quadrangle that Fig. 1 to Fig. 4, which gives first electrode sheet 11, second electrode sheet 21 and third electrode slice 31, Example.

As the preferred of above embodiment, sensor layer 112 includes temperature sensor, electrocardiography transducer and myoelectricity At least one of sensor.Temperature sensor is used for the temperature of real-time monitoring cardia, and electrocardiography transducer is for real-time The cardiac parameters such as monitor heart rate, blood pressure and blood oxygen saturation, myoelectric sensor are used for the fortune of real-time monitoring cardia muscle Dynamic signal.Sensor layer 112 has the sensor of multiple functions, can acquire the parameter of a variety of cardias, improves user day The often accuracy of monitoring and early warning.

It should be added that two first elastic webbings 22 are detachably connected far from the both ends of second electrode sheet 21, two A second elastic webbing 32 is detachably connected far from the both ends of third electrode slice 31,33 other end of third elastic webbing is detachably attached to One second elastic webbing 32,34 other end of the 4th elastic webbing are detachably attached to same third elastic webbing 33 or one second elasticity Band 32.Wherein, it is detachably connected, can be any mode such as knotting, stickup or hanging buckle.Stickup is given in Fig. 1-4 The example of mode.Accordingly, both ends of the first elastic webbing 22 far from second electrode sheet 21, second elastic webbing 32 are far from third electrode Both ends, 33 other end of third elastic webbing, 34 other end of the 4th elastic webbing and the second elastic webbing 32 and third elastic webbing of piece 31 33 corresponding positions are equipped with third adhered layer 114C for pasting.

Embodiment 2

On the basis of electrocardiograph monitoring device 100 that embodiment 1 provides, as shown in fig. 6, the present embodiment provides a kind of electrocardios Monitoring system, including electrocardiograph monitoring device 100 and ECG monitor 200.

ECG monitor 200 is equipped with the second controller 210 with the second wireless communication module 211；Second wireless communication Module 211 is communicated to connect with several the first wireless communication module 117A of several electrocardiograph monitoring devices 100 respectively；Second nothing Line communication module 211 receives several unimodule electrocardiogram (ECG) datas to second controller processing 210, exports electrocardiogram (ECG) data.The implementation In mode, second controller 210 is used to receive in the electrocardiograph monitoring device 100 of a user several unimodule electrocardiogram (ECG) datas simultaneously It is handled, treated obtains the complete electrocardiogram (ECG) data of user's cardia；At the same time, second controller 210 passes through Second wireless communication module 211 communicates simultaneously from the first wireless communication module 117A of difference of different electrocardiograph monitoring devices 100, To handle the electrocardiogram (ECG) data of different user simultaneously, the utilization rate of electrocardioscanner is improved.

As the preferred of above embodiment, as shown in fig. 6, cardioelectric monitor system further includes hand-held end 300, lead to Letter is connected to second controller 210, receives electrocardiogram (ECG) data.Hand-held end 300 is easy to carry, by hand-held end 300 with Second controller 210 communicates, then user can check whenever and wherever possible electrocardiogram (ECG) data by the hand-held end 300 of carrying, and When make prevention.Hand-held end 300 can be any one in mobile phone or tablet computer.

As the preferred of above embodiment, as shown in fig. 6, cardioelectric monitor system further includes Cloud Server 400, cloud service Device 400 is communicatively connected to the second controller 210 of several ECG monitors 200 respectively.Cloud Server 400 is several for receiving The complete electrocardiogram (ECG) data for the different electrocardiograph monitoring devices 100 that a ECG monitor 20 exports respectively is examined with storing for follow-up clinical Disconnected and accurate medical treatment provides necessary data source, also provides side to the research of pathogenesis for R&D institution or medical institutions It helps.

Although the embodiments of the present invention have been disclosed as above, but its is not only in the description and the implementation listed With.It can be applied to various suitable the field of the invention completely.It for those skilled in the art can be easily Realize other modification.Therefore without departing from the general concept defined in the claims and the equivalent scope, the present invention is simultaneously unlimited In specific details and legend shown and described herein.

Claims (8)

1. a kind of wearable electrocardiograph monitoring device characterized by comprising

First electrode component is equipped with the first electrode sheet of Pasting；And

Second electrode component is equipped with the second electrode sheet of Pasting and is connected respectively to the horizontal both ends of the second electrode sheet Two first elastic webbings in outside；Two first elastic webbings are detachably connected far from the both ends of the second electrode sheet；

Wherein, the first electrode component and the second electrode component are respectively provided with several；Several described first electricity Between pole piece avris, between several described second electrode sheet avris and the first electrode sheet avris and the second electrode It is mutually matched stickup between piece avris and covers entire cardia to splice；

Further include third electrode assembly, is equipped with the third electrode slice of Pasting, is connected respectively to the third electrode slice level Two second elastic webbings on the outside of both ends and it is connected to one vertical end of third electrode slice and a second elastic webbing Between third elastic webbing；

Wherein, the avris of the third electrode slice avris with the avris of the first electrode sheet, the second electrode sheet respectively Matching sealing is pasted；

Two second elastic webbings are detachably connected far from the both ends of the third electrode slice；

Third elastic webbing one end is fixedly attached to the third electrode slice, the other end is detachably attached to one described second Elastic webbing；

The third electrode assembly is additionally provided with the 4th elastic webbing；

Described 4th elastic webbing one end is fixedly attached to position, another of the third elastic webbing close to the third electrode slice One end is detachably attached to same third elastic webbing or a second elastic webbing.

2. wearable electrocardiograph monitoring device as described in claim 1, which is characterized in that the second electrode sheet and described the One electrode chip architecture is identical, and the first electrode sheet includes the first supporting layer successively bonded, sensor layer and the second support Layer；

Wherein, first supporting layer is successively arranged the first adhered layer and the first protective film far from the side of the sensor layer Layer；

Packed accommodating chamber is set between second supporting layer and the sensor layer；It places in the accommodating chamber and is electrically connected respectively Connect the first controller and battery of the sensor layer；The battery is electrically connected first controller, first controller Equipped with the first wireless communication module；The ecg information of the sensor layer acquisition unimodule is sent to the first controller processing At unimodule electrocardiogram (ECG) data, the unimodule electrocardiogram (ECG) data is issued through first wireless communication module.

3. wearable electrocardiograph monitoring device as claimed in claim 2, which is characterized in that each side of the first electrode sheet Side is equipped with the second adhered layer and the second protective film layer from inside to outside respectively；Described the second of each avris of the first electrode sheet The setting of protective film layer interval.

4. wearable electrocardiograph monitoring device as claimed in claim 2, which is characterized in that the third electrode slice and described the One electrode chip architecture is identical.

5. wearable electrocardiograph monitoring device as claimed in claim 2, which is characterized in that the sensor layer includes that temperature passes At least one of sensor, electrocardiography transducer and myoelectric sensor.

6. a kind of cardioelectric monitor system with the wearable electrocardiograph monitoring device as described in claim 2-5 any one, It is characterized by further comprising:

ECG monitor is equipped with the second controller with the second wireless communication module；Second wireless communication module point It is not communicated to connect with several described first wireless communication modules of several electrocardiograph monitoring devices；Second radio communication mold Block receives several unimodule electrocardiogram (ECG) data to described second controllers and handles, and exports electrocardiogram (ECG) data.

7. wearable electrocardiograph monitoring device as claimed in claim 6, which is characterized in that further include:

Hand-held end is communicatively connected to the second controller, receives the electrocardiogram (ECG) data.

8. wearable electrocardiograph monitoring device as claimed in claim 6, which is characterized in that it further include Cloud Server, the cloud Server is communicatively connected to the second controller of several ECG monitors respectively.