CN108403109A - A kind of body health monitoring devices - Google Patents

Abstract

The invention discloses a kind of body health monitoring devices, including Electrocardial signal acquisition device, for being attached to human skin surface, to detect electrocardiosignal in real time, and the electrocardiosignal are transferred to the control module；The control module carries out data processing and analysis for receiving the electrocardiosignal, to obtain electrocardiogram (ECG) data, and sends corresponding control instruction to voice broadcast module according to the electrocardiogram (ECG) data, while by the ECG Data Transmission Based to the storage module；The storage module, for receiving the electrocardiogram (ECG) data, realizing data-storing and being communicated with computer；The voice broadcast module, the control instruction for receiving the control module, and according to preset diagnosis voice program, report corresponding diagnostic result.The present invention can diagnose analyzing in real time as a result, to allow user to understand the severity of the state of an illness in time in time, and then ensure the promptness of cardiovascular disease diagnosis, while being conducive to user and obtaining timely diagnosis and treatment.

Description

A kind of body health monitoring devices

Technical field

The present invention relates to technical field of medical equipment, more particularly, to a kind of body health monitoring devices.

Background technology

Currently, angiocardiopathy seriously threatens the life and health of the mankind, caused to society and family huge economical negative Load, and since angiocardiopathy has the characteristics that invisible, sudden, variation is fast, the death rate is high, usually make patient from and When given treatment to, outside especially vast institute patient be in monitoring " vacuum " state cannot be in time when lesion occurs in angiocarpy Understand the state of an illness and take treatment measure, so that angiocardiopathy cannot timely diagnosis and treatment when happening suddenly.

In the prior art, holter devices can be up to recording electrocardiosignal incessantly in 24 hours, and leads to It crosses computer and carries out data analysis in real time, overcoming conventional ECG detecting and defying capture has the deficiency of clinical meaning result, is One much progress of cardioelectric monitor technology.However, the electrocardio dynamic monitoring up to 24 hours or longer time no doubt can be to detection Recessive angiocardiopathy is brought convenience, but it belongs to retrospective analysis diagnosis, can not pay a home visit to the result analyzed in real time It is disconnected, therefore user is difficult to understand the severity of the state of an illness, causes the angiocardiopathy to acute attack helpless.

Invention content

The present invention provides a kind of body health monitoring devices, belongs to retrospective to solve existing holter devices Analyzing and diagnosing, the technical issues of diagnosis cannot being made to the result analyzed in real time, with diagnose in time it is analyzing in real time as a result, to It allows user to understand the severity of the state of an illness in time, and then ensures the promptness of cardiovascular disease diagnosis, while being conducive to user Obtain timely diagnosis and treatment.

In order to solve the above-mentioned technical problem, an embodiment of the present invention provides a kind of body health monitoring devices, including shell, Control circuit board and Electrocardial signal acquisition device, the control circuit board are disposed in the housing, the Electrocardial signal acquisition device It is connect with the control circuit board, the control circuit board is equipped with control module, storage module and voice broadcast module；

The Electrocardial signal acquisition device, for being attached to human skin surface, to detect electrocardiosignal in real time, and will be described Electrocardiosignal is transferred to the control module；

The control module, for receiving the electrocardiosignal, progress data processing and analysis, to obtain electrocardiogram (ECG) data, And corresponding control instruction is sent to voice broadcast module according to the electrocardiogram (ECG) data, while by the ECG Data Transmission Based to institute State storage module；

The storage module, for receiving the electrocardiogram (ECG) data, realizing data-storing and being communicated with computer；

The voice broadcast module, the control instruction for receiving the control module, and according to preset diagnosis voice Program reports corresponding diagnostic result.

Preferably, the body health monitoring devices further include operation button, and the operation button is set to described On the side wall of shell, and the operation button is connect with the control module, when the operation button is triggered, the control After module receives trigger signal, corresponding control instruction is sent to the voice broadcast module, so that the voice broadcast module Report corresponding diagnostic result.

Preferably, the storage module is divided into：First function division, for storing after data processing Electrocardiosignal, to realize 24 hours monitoring records, the second function division, for storing the electrocardiogram (ECG) data after data analysis.

Preferably, the storage module is Nonvolatile ferroelectric memory, the Nonvolatile ferroelectric memory Data terminal connect with the data terminal of the control module.

Preferably, the body health monitoring devices further include battery and power switch, and the battery is set to institute State in the cavity of shell, the power switch be set to the shell side wall on, the battery, the power switch respectively with institute State control circuit board connection.

Preferably, the battery is lithium ion battery.

Preferably, it is additionally provided with USB bridge circuit in the control circuit board, is opened up on the side wall of the shell There are USB interface, the USB bridgt circuits to be connect with the control module, the USB bridge circuit passes through the USB interface It is communicated with computer.

Preferably, the Electrocardial signal acquisition device includes preamplifier, left arm electrode patch, right arm electrode patch The in-phase input end of piece and left leg electrode patch, the preamplifier is pasted by conducting wire and the left arm electrode respectively Piece, right arm electrode patch connection, the reverse input end of the preamplifier pass through conducting wire and the left leg electrode paste Piece connects, and the output end of the preamplifier is connect with the signal acquisition terminal of the control module.

Preferably, the Electrocardial signal acquisition device further includes right leg drive amplifier and right leg electrode patch, institute The input terminal for stating right leg drive amplifier is connect by conducting wire with the right leg electrode patch, the right leg drive amplifier Output end is connect with the signal acquisition terminal of the control module.

Preferably, the left arm electrode patch, the right arm electrode patch, the left leg electrode patch, described Two Zener diodes of tandem docking are equipped on right leg electrode patch.

Compared with the prior art, the advantageous effect of the embodiment of the present invention is, real-time by the Electrocardial signal acquisition device The electrocardiosignal for detecting user carries out data processing and analysis by the control module, and to obtain electrocardiogram (ECG) data, the voice is broadcast It reports module after the control instruction for receiving the control module, according to preset diagnosis voice program, reports corresponding diagnosis knot Fruit to allow user to understand the severity of the state of an illness in time, and then ensures the promptness of cardiovascular disease diagnosis, while advantageous Timely diagnosis and treatment are obtained in user.

Description of the drawings

Fig. 1 is the structural schematic diagram of the body health monitoring devices in the embodiment of the present invention；

Fig. 2 is the electrocardiogram signal processing circuit figure in the embodiment of the present invention；

Fig. 3 is the control module circuit diagram in the embodiment of the present invention；

Fig. 4 is the USB bridge circuit diagram in the embodiment of the present invention；

Fig. 5 is the data report figure of the body health monitoring devices in the embodiment of the present invention；

Fig. 6 is the subregion schematic diagram of the storage module in the embodiment of the present invention；

Wherein, 1, control module；2, storage module；3, Electrocardial signal acquisition device；4, battery；5, USB bridge circuit；6、 Voice broadcast module.

Specific implementation mode

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation describes, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, those of ordinary skill in the art are obtained every other without creative efforts Embodiment shall fall within the protection scope of the present invention.

Referring to Fig. 1, the preferred embodiment of the present invention provides a kind of body health monitoring devices, including shell, control electricity Road plate and Electrocardial signal acquisition device 3, the control circuit board are disposed in the housing, the Electrocardial signal acquisition device 3 and institute Control circuit board connection is stated, the control circuit board is equipped with control module 1, storage module 2 and voice broadcast module；

The Electrocardial signal acquisition device 3, for being attached to human skin surface, to detect electrocardiosignal in real time, and by institute It states electrocardiosignal and is transferred to the control module 1；

The control module 1, for receiving the electrocardiosignal, progress data processing and analysis, to obtain electrocardiogram (ECG) data, And corresponding control instruction is sent to voice broadcast module according to the electrocardiogram (ECG) data, while by the ECG Data Transmission Based to institute State storage module 2；

The storage module 2, for receiving the electrocardiogram (ECG) data, realizing data-storing and being communicated with computer；

The voice broadcast module 6, the control instruction for receiving the control module 1, and according to preset diagnosis language Interval sequence reports corresponding diagnostic result.

In embodiments of the present invention, the electrocardiosignal for detecting user in real time by the Electrocardial signal acquisition device 3, by described Control module 1 carries out data processing and analysis, and to obtain electrocardiogram (ECG) data, the voice broadcast module 6 is receiving the control mould After the control instruction of block 1, according to preset diagnosis voice program, report corresponding diagnostic result, to allow user in time The severity of the state of an illness is solved, and then ensures the promptness of cardiovascular disease diagnosis, while being conducive to user and obtaining timely diagnosis and treatment.

In the present embodiment, it should be noted that the control module 1 carries out data processing and analysis to electrocardiosignal, Recapitulative diagnosis is carried out according to the obtained electrocardiogram (ECG) data, and the electrocardiogram (ECG) data includes that heart rate, QRS wave be wide, phase, R between P-R Wave amplitude, QT/QTc, cardiac rhythm analysis judge, the EGC parameters information such as provide cardiac cycle histogram, and the control module 1 is to institute It states electrocardiogram (ECG) data and carries out time-domain analysis, during detecting RR and QRS wave is wide, calculates heart rate HR and RR interval averages ARt, passes through RR With the arithmetical operation of ARt and compared with, the case where judging whether there is rhythm abnormality, when judging heart rate exception, the voice broadcast Module 6, according to preset diagnosis voice program, sends out the rhythm of the heart after the rhythm abnormality control instruction for receiving the control module 1 Abnormal voice signal, to realize the diagnostic function of the measuring of human health equipment, and then allows user to understand disease in time The severity of feelings, and ensure the promptness of cardiovascular disease diagnosis, while being conducive to user and obtaining timely diagnosis and treatment.

Specifically, the control module 1 includes microprocessor MPU, as shown in Fig. 2, Fig. 2 is at the electrocardiosignal of the present invention Circuit diagram is managed, preset data processing and analysis program are equipped in the microprocessor, and the microprocessor MPU has 25MIPS instruction execution speeds and 64K Flash program space, to realize electrocardiographicdata data acquisition, feature extraction, analytic operation Etc. functions lay the foundation.

It should be understood that the diagnostic function, refers to that the microprocessor MPU carries out time domain point to the electrocardiogram (ECG) data Analysis, during detecting RR and QRS wave is wide, calculates heart rate HR and RR interval averages ARt, the arithmetical operation by RR and ARt and ratio Compared with whether diagnosis has the case where rhythm abnormality；

Generality diagnosis refers to that " diagnostic function program " inside the microprocessor MPU is diagnosed to be and presses every time Rhythm abnormality situation after the operation button, the generality diagnosis on the basis of diagnostic function only to rhythm abnormality quantity into Row generality is reported, without reporting specific rhythm abnormality item.

The voice broadcast refers to that the voice broadcast module 6 prestores the voice recorded, and voice content includes the heart Rate abnormal quantity and detection note abnormalities after suggestion, when the microprocessor MPU detects that user presses the operation button When, voice broadcast control instruction is sent to speech chip, to realize voice broadcast.

In this way, body health monitoring devices provided in this embodiment increase diagnostic function on automatically analyzing function, from And user is allowed to know that the severity of the state of an illness, the result of the generality diagnosis ensure that the promptness of data, validity in time, Consequently facilitating the result that doctor in case of emergency diagnoses according to the generality quickly makes patient diagnosis, it is medical treatment outside institute It is provided with convenient victory.

In addition, the control circuit board can be online by the USB interface and computer progress, thus by acquisition, storage Every detection data presentation of information supports the report printing function of A4 papers at mating computer software interface, in order to User checks and is conducive to improve user experience.

In embodiments of the present invention, further include operation button to make structure rationalization, the body health monitoring devices, The operation button is set on the side wall of the shell, and the operation button is connect with the control module 1, in the operation When button is triggered, after the control module 1 receives trigger signal, sends corresponding control to the voice broadcast module 6 and refer to It enables, so that the voice broadcast module 6 reports corresponding diagnostic result.In monitoring process, whenever user needs to detect body When situation, as long as pressing the operation button, the control module 1 can enter corresponding detection program, subsequently into monitoring State.

In embodiments of the present invention, the shell includes upper casing and bottom case, and the operation button is set to the table of the upper casing On face, lead line interface, charging interface and data transmission interface are set on the side wall of the bottom case, and all electric components are all In the control circuit board, the control circuit board is anchored in the cavity of the shell.

In embodiments of the present invention, further include battery 4 and electricity to make structure rationalization, the body health monitoring devices Source switch, the battery 4 are set in the cavity of the shell, and the power switch is set on the side wall of the shell, the electricity Pond 4, the power switch are connect with the control circuit board respectively.The battery 4 uses 3.7 volts of overall package, 2200mAh lithiums Ion battery, the control circuit board to average consumption less than 40ma are powered, and stream time is more than 24 hours.When The control circuit board is under off-mode, and battery 4 is switched to charging socket by the power switch, so that independence is to described Battery 4 charges.

In the present embodiment, it should be noted that the control circuit board include channel electrocardiosignal analogue amplifier, with The microprocessor MPU is the digital circuit of core, the USB bridge circuit 5 centered on chip, completes data jointly Acquisition, data processing, analysis record and computer realize the functions such as communication.Between the control circuit board and the bottom case, If there are one cell containing cavity, the battery 4 is placed in the battery containing intracavitary, to reduce the measuring of human health dress The volume set, and improve the globality of the body health monitoring devices.

In embodiments of the present invention, in order to make structure rationalization, the storage module 2 be divided into：First function division is used In electrocardiosignal of the storage after data processing, to realize that 24 hours monitoring records, the second function division pass through for storing Electrocardiogram (ECG) data after data analysis.Preferably, the storage module 2 is Nonvolatile ferroelectric memory, the non-volatile iron The data terminal of electric memory is connect with the data terminal of the control module 1.

Referring to Fig. 6, Fig. 6 is the subregion schematic diagram of the storage module 2, it is in the present embodiment, non-volatile in 128Kb It delimited in ferroelectricity memory to realize 24 hours monitoring records and up to 10 Electrocardiography records and intellectual analysis can be carried out Each specific function area, to make hardware system minimum be designed to possibility.

Referring to Fig. 1, in embodiments of the present invention, it should be noted that the present invention must be through after completing monitoring record The data transmission of the storage module 2 to computer is further processed by UART, and data non-volatile is most important, because UART communication the control circuit board shutdown under carries out, at this point, the control circuit board by connected computer warp described in USB interface is powered, as shown in figure 3, Fig. 3 is control module circuit diagram of the present invention, the I/O mouth lines used as control line In respect of：

P1.6-UART firing lines realize the handshake of computer and microprocessor MPU communication；

P1.2-button detection, connects to key switch；

P0.2-supply voltage monitoring, CP1- and CP1+ are two input terminals of the microprocessor MPU internal comparator 1, It is connect respectively to obtained with the relevant dividing point of 4 terminal voltage of the battery and described micro- by divider by the battery 4 The stable reference voltage generated inside device MPU is managed, so as to when 4 undertension of battery, ratio inside the microprocessor MPU It is overturn compared with device, the low voice prompt of output battery capacity；

P1.7-highest addresses line A16, the high address for gating the storage module 2.

Referring to Fig. 4, Fig. 4 is USB bridge circuit diagram of the present invention, and in embodiments of the present invention, the control USB bridge circuit 5 is additionally provided on circuit board, the USB bridgt circuits 5 are connect with the control module 1, the side of the shell USB interface is offered on wall, the USB bridge circuit 5 is communicated by the USB interface with computer.The human body USB is turned the number that UART technologies are applied between the microprocessor MPU and computer by health monitoring device using special chip According to communication, a virtual com port is generated on computer machine, the USB interface can be used as general serial mouth, with Toilet is stated control circuit board and can be communicated under shutdown.

In the present embodiment, it when the control circuit board is connect by the USB interface to computer, has been mounted with The computer of CP210x drivers just generates a dedicated serial communication port com4, carries out UART communications.This product is to user Special CD is provided, for Framework Software platform on computers.The software platform is using the .net that can openly use Framework architectures.After carrying out UART communications, multiple files, Mei Gewen can be generated in the special display interface of computer Part indicates that the testing result of the operation button one-touch, the heart rate trendgram time coordinate in each testing result reflect At the time of each button, to provide foundation to retrospective analysis anomalous ecg.

Referring to Fig. 1, in embodiments of the present invention, the Electrocardial signal acquisition device 3 includes preamplifier, left arm electrode Patch, right arm electrode patch and left leg electrode patch, the in-phase input end of the preamplifier respectively by conducting wire with The left arm electrode patch, right arm electrode patch connection, the reverse input end of the preamplifier by conducting wire with The left leg electrode patch connection, the output end of the preamplifier are connect with the signal acquisition terminal of the control module 1.

Preferably, the Electrocardial signal acquisition device 3 further includes right leg drive amplifier and right leg electrode patch, it is described The input terminal of right leg drive amplifier is connect by conducting wire with the right leg electrode patch, the right leg drive amplifier it is defeated Outlet is connect with the signal acquisition terminal of the control module 1, and the right leg drive amplifier is eliminating the common mode of limb electrode Interference.

In the present embodiment, illustratively, according to the connection type of the preamplifier input terminal, the acquisition of 2 channels Each road electrocardiosignal indicates right arm RA, left arm LA jointly to the current potential (inverting input of i.e. every group amplifier of left leg LL respectively All it is connected to left leg electrode), by clinical medical definition, the current potential of 6 lead electrocardiogram is expressed as：

Standard limb lead：

I=VL-VR

II=VF-VR

III=VF-VL

Augmented unipolar limb lead：

AVR=VR-1/2* (VL+VF)

AVL=VL-1/2* (VR+VF)

AVF=VF-1/2* (VR+VL)

The present invention simulates limb leads according to chest Ai Yinhuofen Triangle Principles, with chest leads, i.e. Ai Yinhuofen is equilateral Left comer simulation left arm, right corner simulation right arm, the inferior horn of triangle simulate left and right leg, form bipolar limb leads and unipolar limb adds Press lead system.In data acquisition and processing (DAP), as long as calculating by above-mentioned formula, each lead electrocardiogram waveform is obtained Data sequence.

In embodiments of the present invention, the left arm electrode patch, the right arm electrode patch, the left leg electrode patch, Two Zener diodes of tandem docking are equipped on the right leg electrode patch, the Zener diode, which is conducive to eliminate, works as institute When stating body health monitoring devices and defibrillator and being used in combination, damage of the defibrillation pulse to the body health monitoring devices.

To sum up, the present invention provides a kind of body health monitoring devices, including shell, control circuit board and electrocardiosignal Collector 3, the control circuit board are equipped with control module 1, storage module 2 and voice broadcast module 6；

The Electrocardial signal acquisition device 3, for being attached to human skin surface, to detect electrocardiosignal in real time, and by institute It states electrocardiosignal and is transferred to the control module 1；

The control module 1, for receiving the electrocardiosignal, progress data processing and analysis, to obtain electrocardiogram (ECG) data, And corresponding control instruction is sent to voice broadcast module 6 according to the electrocardiogram (ECG) data, while the ECG Data Transmission Based being arrived The storage module 2；

The storage module 2, for receiving the electrocardiogram (ECG) data, realizing data-storing and being communicated with computer；

The voice broadcast module 6, the control instruction for receiving the control module 1, and according to preset diagnosis language Interval sequence reports corresponding diagnostic result.

The operation principle of the body health monitoring devices is：

By the power switch startup power supply, the Electrocardial signal acquisition device 3 carries out ecg signal acquiring automatically, described Control module carries out an analytic operation for 1 every 20 second, and stores average heart rate by the storage module 2, and discriminating has PVC free hair It is raw, PVC events and accumulative PVC number are marked, and so on, the 24 hours data accumulated become with conventional electrocardio dynamic The main contents of monitoring report；

In carrying out above-mentioned monitoring process, the button operation of the invention guides program into one time 10 seconds electrocardiograms at any time The fine process recorded and analyze, as shown in figure 5, Fig. 5 is the data report figure of the body health monitoring devices of the present invention, to the heart Electrograph carries out time-domain analysis, and during detecting RR and QRS wave is wide, calculates heart rate HR and RR interval averages ARt, passes through RR and ARt Arithmetical operation and compare, diagnosis whether have the case where rhythm abnormality, this process as a result, making electrocardiogram waveform data, the heart Electrograph basic parameter (including heart rate, QRS wave are wide, phase, R-wave amplitude, QT/QTc etc. between P-R), rhythm of the heart parting, cardiac cycle histogram The result that the routine electrocardiograms machines such as figure can obtain in one-time detection is preserved；

Further, since successfully being delimited in the storage module 2 to realize 24 hours monitoring records and up to 10 can be carried out Each specific function area of secondary Electrocardiography record and intellectual analysis, so that hardware system minimum is designed to possibility.

When the control circuit board is connect by the USB interface to computer, it is mounted with CP210x drivers Computer just generates a dedicated serial communication port com4, carries out UART communications.This product provides user special CD, uses In Framework Software platform on computers.The software platform is using the .net Framework architectures that can openly use. After carrying out UART communications, multiple files, the inspection of each representation of file one-touch can be generated in the special display interface of computer It surveys as a result, at the time of the heart rate trendgram time coordinate in each testing result reflects each button, to retrospective analysis electrocardio It is abnormal that foundation is provided.

Compared with the prior art, existing holter devices belong to retrospective analysis diagnosis, can not be to real-time The result of analysis makes diagnosis, and the present invention has the advantages that：

(1) there is the present invention diagnostic function to be obtained after can synchronizing Electrocardiography and intelligent analysis in monitoring Reportable 6 Lead Synchronous ECG wavy curve and including heart rate, QRS wave is wide, phase, R-wave amplitude, QT/QTc, the rhythm of the heart between P-R The EGC parameters information such as analyze and determine, provide cardiac cycle histogram, can a key as needed provide it is tight by the voice prompt state of an illness The generality of anxious degree diagnoses.Data above information can also be communicated by data-interface and mating computer software, real The visual analyzing and diagnostic function of existing information above.

(2) hardware system minimizes, and is successfully delimited in the storage module 2 to realize 24 hours monitoring records and can be into Each specific function area of row up to 10 times Electrocardiographies records and intellectual analysis, so that hardware system minimum is designed to It is possible.

(3) voice broadcast diagnostic result：Conventional dynamic electrocardioscanner major function is can be achieved with without playback system, During cardioelectric monitor, (button operation of the primary operation button can be passed through) on demand and make synchronous ECG detecting and pass through Voice broadcast makes recapitulative diagnosis.

(4) it is not interfered using defibrillator in monitoring：The present invention can carry out electrocardio to the patient for being equipped with pacemaker Figure monitoring, and have anti-defibrillation effector function, it is not interfered using defibrillator in monitoring.

The above is the preferred embodiment of the present invention, it is noted that for those skilled in the art For, various improvements and modifications may be made without departing from the principle of the present invention, these improvements and modifications are also considered as Protection scope of the present invention.

Claims (10)

1. a kind of body health monitoring devices, which is characterized in that including shell, control circuit board and Electrocardial signal acquisition device, The control circuit board is disposed in the housing, and the Electrocardial signal acquisition device is connect with the control circuit board, the control Circuit board is equipped with control module, storage module and voice broadcast module；

The Electrocardial signal acquisition device, for being attached to human skin surface, to detect electrocardiosignal in real time, and by the electrocardio Signal transmission is to the control module；

The control module carries out data processing and analysis, to obtain electrocardiogram (ECG) data, and root for receiving the electrocardiosignal Corresponding control instruction is sent to voice broadcast module according to the electrocardiogram (ECG) data, while the ECG Data Transmission Based being deposited described in Store module；

The storage module, for receiving the electrocardiogram (ECG) data, realizing data-storing and being communicated with computer；

The voice broadcast module, the control instruction for receiving the control module, and according to preset diagnosis voice program, Report corresponding diagnostic result.

2. body health monitoring devices as described in claim 1, which is characterized in that the body health monitoring devices further include Operation button, the operation button is set on the side wall of the shell, and the operation button is connect with the control module, When the operation button is triggered, after the control module receives trigger signal, sent to the voice broadcast module corresponding Control instruction, so that the voice broadcast module reports corresponding diagnostic result.

3. body health monitoring devices as described in claim 1, which is characterized in that the storage module is divided into：First work( Energy subregion, for storing the electrocardiosignal after data processing, to realize that 24 hours monitoring records, the second function division are used In electrocardiogram (ECG) data of the storage after data analysis.

4. the body health monitoring devices as described in claim 1 or 3, which is characterized in that the storage module is non-volatile The data terminal of ferroelectricity memory, the Nonvolatile ferroelectric memory is connect with the data terminal of the control module.

5. body health monitoring devices as described in claim 1, which is characterized in that the body health monitoring devices further include Battery and power switch, the battery are set in the cavity of the shell, and the power switch is set on the side wall of the shell, The battery, the power switch are connect with the control circuit board respectively.

6. body health monitoring devices as claimed in claim 5, which is characterized in that the battery is lithium ion battery.

7. body health monitoring devices as described in claim 1, which is characterized in that be additionally provided with USB in the control circuit board Bridge circuits, the USB bridgt circuits are connect with the control module, and USB interface, institute are offered on the side wall of the shell USB bridge circuit is stated to be communicated with computer by the USB interface.

8. body health monitoring devices as described in claim 1, which is characterized in that the Electrocardial signal acquisition device includes preposition Amplifier, left arm electrode patch, right arm electrode patch and left leg electrode patch, the in-phase input end point of the preamplifier It is not connect with the left arm electrode patch, the right arm electrode patch by conducting wire, the reversed input of the preamplifier End is connect by conducting wire with the left leg electrode patch, the signal of the output end of the preamplifier and the control module Collection terminal connects.

9. body health monitoring devices as claimed in claim 8, which is characterized in that the Electrocardial signal acquisition device further includes the right side The input terminal of leg driving amplifier and right leg electrode patch, the right leg drive amplifier passes through conducting wire and the right leg electrode Patch connects, and the output end of the right leg drive amplifier is connect with the signal acquisition terminal of the control module.

10. body health monitoring devices as claimed in claim 9, which is characterized in that the left arm electrode patch, the right arm Electrode patch, the left leg electrode patch, two Zener diodes that tandem docking is equipped on the right leg electrode patch.