CN106073756A - A kind of earphone-type electrocardiogram monitor system and control method thereof - Google Patents

Abstract

The present invention relates to a kind of earphone-type electrocardiogram monitor system and control method thereof, earphone-type electrocardiogram monitor system therein includes the electrocardiogram (ECG) data control module that earphone is connected and the data receiving terminal communicated to connect with described electrocardiogram (ECG) data control module with described earphone signal line；Described earphone is used for gathering analog electrocardiogram signal, and by the transmission of described analog electrocardiogram signal to described electrocardiogram (ECG) data control module；Described electrocardiogram (ECG) data control module is for receiving the analog electrocardiogram signal of described earphone transmission, and analog electrocardiogram signal is converted to numeral electrocardiosignal transmission to described data receiving terminal；Described data receiving terminal is for receiving the digital electrocardiosignal of described electrocardiogram (ECG) data control module transmission, and shows and/or export its digital electrocardiosignal received.It is easy to carry about with one, easy to use and can accurately, stable, continuous collecting electrocardiosignal.

Description

An earphone type ECG monitoring system and its control method

technical field

The invention relates to the technical field of medical devices, in particular to an earphone type ECG monitoring system and a control method thereof.

Background technique

With the continuous development of society, great breakthroughs have been made in the application of new technologies. It has become a development trend to monitor human body disease information with smart phones, and various application methods emerge in endlessly. The integration and modularization of microelectronic devices enable the miniaturization of detection equipment. It can collect and monitor human body information anytime and anywhere, so that people can live better and be healthier. The basis of intelligent medical care is intelligent inspection, and the basis of intelligent inspection is mobile intelligent inspection, so as to provide basic data for real-time diagnosis.

However, traditional smartphone monitoring systems have the following disadvantages:

1. At present, except for the earphone-type ECG lead attached to the standard plug-in parts of the mobile phone, the ECG collection mode of other leads is a separate system, which leads to low adhesion between the system and the mobile phone, and the user needs to Purchased separately, it is very inconvenient in daily work and life, forgetting, losing, etc. have become common phenomena, other acquisition methods are single-lead embedded, and there is no possibility of replacing 12-lead ECG;

2. Due to the large size and heavy weight during sleep and exercise, it is difficult to monitor;

3. It is difficult to meet the coverage of other basic sign information collection (such as body temperature, blood oxygen, etc.);

4. When the energy is exhausted, there is no other effective substitute.

Contents of the invention

The technical problem to be solved by the present invention is to provide an earphone type ECG monitoring system which is easy to carry, convenient to use and can accurately, stably and continuously collect ECG signals.

The technical solution of the present invention to solve the above-mentioned technical problems is as follows: an earphone-type ECG monitoring system, which includes an earphone, an ECG data control module connected to the earphone signal line, and a data communication connection with the ECG data control module. Receiving terminal; the earphone is used to collect the analog ECG signal, and transmit the analog ECG signal to the ECG data control module; the ECG data control module is used to receive the analog ECG signal transmitted by the earphone signal, and convert the analog ECG signal into a digital ECG signal and transmit it to the data receiving terminal; the data receiving terminal is used to receive the digital ECG signal transmitted by the ECG data control module, and display and/or output The digital ECG signal it receives.

The beneficial effects of the present invention are: adopting the earphone type ECG monitoring system can not only use the communication function of the earphone normally, but also collect the user's ECG signal in real time, which is convenient to carry and operate; The latter produces high adhesion, and the collected ECG signals are accurate, stable and continuous, which is convenient for users to effectively capture heart diseases.

On the basis of the above technical solutions, the present invention can also be improved as follows.

Further, it also includes a Bluetooth module for transmitting the digital ECG signal converted by the ECG data control module to the data receiving terminal.

The beneficial effect of adopting the above-mentioned further solution is: by setting the Bluetooth module, the audio transmission and ECG data transmission can be performed through the Bluetooth connection, so as to avoid the complicated operation of the wired connection and the disadvantage that the signal is susceptible to strong magnetic interference.

Further, the data receiving terminal also includes an analysis and judgment module for comparing the received digital ECG signal with the standard ECG signal.

The beneficial effect of adopting the above further solution is: through the analysis and judgment module, the received digital ECG signal can be compared with the standard ECG signal to analyze and judge whether the ECG signal is normal, so that the user can understand the state of his own ECG signal.

Further, it also includes a data analysis terminal for receiving the digital electrocardiographic signal sent by the data receiving terminal and comparing the digital electrocardiographic signal with the standard electrocardiographic signal.

The beneficial effect of adopting the above-mentioned further solution is: through the data analysis terminal, the digital electrocardiographic signal sent by the data receiving terminal can be received, and the received digital electrocardiographic signal is compared with the standard electrocardiographic signal to analyze and judge whether the electrocardiographic signal is normal , so that the user can understand the status of his ECG signal.

The present invention also provides a control method of an earphone type ECG monitoring system, which comprises the following steps:

S1, using earphones to collect analog ECG signals, and transmitting the analog ECG signals to the ECG data control module;

S2, the ECG data control module receives and processes the analog ECG signal, converts the processed analog ECG signal into a digital ECG signal, and transmits the digital ECG signal to a data receiving terminal;

S3. The data receiving terminal receives the electrocardiogram signal, and displays it in an electrocardiogram mode and/or prints it out in an electrocardiogram mode.

Further, after the step S3, it also includes the step of comparing and analyzing the digital ECG signal received by the data receiving terminal with the standard ECG signal, specifically:

T1, comparing the received digital ECG signal with the standard ECG signal;

T2, judging whether the received digital ECG signal is normal, if normal, send and display a prompt message indicating that the digital ECG signal is normal to the data receiving terminal; if abnormal, send and display the digital ECG signal to the data receiving terminal Prompt message for abnormal signal.

The beneficial effect of adopting the above further solution is: the data receiving terminal compares the received digital ECG signal with the standard ECG signal, analyzes and judges whether the digital ECG signal is normal, so that the user can know whether his own ECG signal is normal, and Useful for monitoring your own health status.

Further, in the step T2, after judging that the received digital ECG signal is abnormal, it also includes sending the digital ECG signal to the doctor platform for diagnosis, and sending the diagnosis result and treatment advice to the data receiving terminal A step of.

The beneficial effect of adopting the above further solution is: by sending abnormal digital ECG signals to the doctor platform for diagnosis, it is convenient for users to understand their own health conditions and timely treat symptoms.

Further, after the step S3, it also includes sending the digital ECG signal received by the data receiving terminal to the data analysis terminal, and the data analysis terminal compares and analyzes the received digital ECG signal with the standard ECG signal steps, specifically:

Y1, comparing the received digital ECG signal with the standard ECG signal;

Y2, judging whether the received digital ECG signal is normal, if normal, then send and display a prompt message that the digital ECG signal is normal to the data receiving terminal and/or the data analysis terminal; if abnormal, send to the data receiving terminal and/or the data analysis terminal The data receiving terminal and/or the data analyzing terminal sends and displays a prompt message indicating that the digital ECG signal is abnormal.

Further, in the Y2 step, after judging that the received digital ECG signal is abnormal, it also includes sending the digital ECG signal to the doctor platform for diagnosis, and sending the diagnosis result and treatment advice to the data receiving terminal And/or the step of sending to the data analysis terminal.

Description of drawings

FIG. 1 is a schematic structural diagram of an earphone type ECG monitoring system provided by Embodiment 1 of the present invention;

2 and 3 are structural schematic diagrams of the earphone type ECG monitoring system provided by Embodiment 2 of the present invention;

FIG. 4 is a flow chart of the control method of the earphone type ECG monitoring system provided by Embodiment 3 of the present invention.

In the accompanying drawings, the list of parts represented by each label is as follows:

1-left earplug, 2-right earplug, 3-wire, 4-electrode sheet, 5-audio control module, 6-ECG data control module, 7-ear hook, 8-speaker, 9-data microphone shell, 10-first battery, 11-data control circuit board, 12-first USB interface, 13-first USB plug, 14-audio microphone shell shell, 15-second battery, 16-audio control circuit board, 17- The second USB interface, 18-second USB plug, 19-data button, 20-audio button, 21-data receiving terminal, 22-data analysis terminal.

detailed description

The principles and features of the present invention are described below in conjunction with the accompanying drawings, and the examples given are only used to explain the present invention, and are not intended to limit the scope of the present invention.

Embodiment one

As shown in Figure 1, the earphone type ECG monitoring system provided by this embodiment includes an earphone, an ECG data control module 6 connected to the earphone signal line and a data communication connection with the ECG data control module 6. Receiving terminal 21; the earphone is used to collect the analog ECG signal, and transmit the analog ECG signal to the ECG data control module 6; the ECG data control module 6 is used to receive the ECG data transmitted by the earphone Analog ECG signals, and convert the analog ECG signals into digital ECG signals and transmit them to the data receiving terminal 21; the data receiving terminal 21 is used to receive the digital ECG signals transmitted by the ECG data control module 6, And display and/or output the digital ECG signal it receives.

Wherein, the earphone includes a left earplug 1, a wire 3, a right earplug 2 connected to the left earplug 1 through the wire 3, an audio control module 5, and an electrocardiographic data control module 6; the left earplug 1 and the Electrode sheets 4 for collecting analog electrocardiographic signals are all arranged on the outer facade of the right earplug 2; the electrocardiographic data control module 6 is used to receive the analog electrocardiographic signals collected by the electrode sheets 4, and transfer the analog electrocardiographic signals The electrocardiographic signal is converted into a digital electrocardiographic signal and output; the audio control module 5 is used to control an external audio device to send audio signals to the left earplug and the right earplug; and the audio control module 5 communicates with the The left earplug 1 and the right earplug 2 are electrically connected.

The electrode sheet 4 wherein is a metal electrode sheet, and the user can stick the electrode sheet 4 on the left earplug 1 and the right earplug 2 on the user's skin when using the earphone type ECG monitor to monitor the ECG signal, For example, the ECG signal can be collected on the user's upper limbs, lower limbs, or at different test positions such as I, II, III lead type or chest V lead type, and the collected analog ECG signal can be transmitted to the The electrocardiographic data control module 6 uses the electrocardiographic data control module 6 to convert the analog electrocardiographic signal collected into a digital electrocardiographic signal, and then transmits to the data receiving terminal 21 by wired or wireless mode for storage, and can also be used in the data receiving terminal On 21, the digital ECG signal is displayed in the electrocardiogram mode, and the data receiving terminal 21 may include a multi-stage digital filter, through which the muscle electricity and power frequency interference are filtered, so that the display of the data receiving terminal 21 is smoother and more accurate At the same time, it also avoids setting a filter on the earphone, reduces the overall volume of the earphone, and makes the appearance of the earphone closer to that of an ordinary earphone, which is easy to use and carry. It can also be judged by the data receiving terminal 21 whether the received digital ECG signal is normal, so that the user can keep abreast of his own health status.

The earphone-type ECG monitoring system provided in this embodiment can not only use the communication function of the earplugs normally, but also collect the user’s ECG signals in real time, which is convenient to carry and operate; it integrates multiple functions into one earphone, and has a high interaction with the user. Adhesiveness, the collected ECG signals are accurate, stable and continuous, which is convenient for users to effectively capture heart diseases.

Embodiment two

As shown in Figures 2 and 3, the earphone type ECG monitoring system provided by this embodiment includes an earphone, an ECG data control module 6 connected to the earphone signal line and a communication connection with the ECG data control module 6 The data receiving terminal 21; the earphone is used to collect the analog ECG signal, and transmits the analog ECG signal to the ECG data control module 6; the ECG data control module 6 is used to receive the earphone the transmitted analog ECG signal, and convert the analog ECG signal into a digital ECG signal and transmit it to the data receiving terminal 21; the data receiving terminal 21 is used to receive the digital ECG signal transmitted by the ECG data control module 6 signal, and display and/or output the digital ECG signal it receives.

Wherein, the data receiving terminal 21 may include a data storage module, by setting the data storage module, the digital ECG signals received by the data receiving terminal 21 can be stored and backed up to avoid data loss. Wherein, the earphone includes a left earplug 1, a wire 3, a right earplug 2 connected to the left earplug 1 through the wire 3, an audio control module 5, and an electrocardiographic data control module 6; the left earplug 1 and the Electrode sheets 4 for collecting analog electrocardiographic signals are all arranged on the outer facade of the right earplug 2; the electrocardiographic data control module 6 is used to receive the analog electrocardiographic signals collected by the electrode sheets 4, and transfer the analog electrocardiographic signals The electrocardiographic signal is converted into a digital electrocardiographic signal and output; the audio control module 5 is used to control an external audio device to send audio signals to the left earplug and the right earplug; and the audio control module 5 communicates with the The left earplug 1 and the right earplug 2 are electrically connected. Wherein the left earplug 1 and the right earplug 2 all comprise the ear hook 7 that is arranged near described electrode sheet 4 and the horn 8 that is far away from described electrode sheet 4 and are arranged, can be set on electrode sheet 4 and the button phase of silica gel button type electrode sheet The matching buttonhole, when the user monitors the ECG during sleep or exercise, the buttonhole of the electrode piece 4 on the earplug can be fastened to the button of the silicone button electrode piece, so as to prevent the electrode piece 4 on the earplug from detaching from the silicone button Electrode sheet, so that the electrode sheet 4 on the earplug is always connected with the button-type electrode sheet of silica gel, so that stable, accurate and uninterrupted real-time ECG monitoring can be performed in sleep or exercise state. The earhook 7 can also be detachably arranged between the electrode sheet 4 and the speaker 8. By setting the detachable earhook 7, the earhook 7 of different specifications can be replaced according to the user's needs, so as to be suitable for different types of earhooks. User.

Wherein, the ECG data control module 6 includes a data microphone shell housing 9, a first battery 10 and a data control circuit board 11 arranged inside the data microphone shell housing 9, and the data control circuit board 11 is connected to the The first battery 10 is connected; the data control circuit board 11 includes a data board body and an ECG chip installed on the data board body, the ECG chip is connected to the electrode sheet 4 signal lines, and the data board The body is provided with a first USB interface 12 connected to the ECG chip and the first battery 10, and a first USB interface 12 connected to the first USB interface 12 is formed on the data microphone shell housing 9. Open your mouth. Wherein the data board body can also be provided with a data storage module, and by setting the data storage module, the collected analog ECG signals can be stored and backed up to avoid data loss. By setting the second USB interface, an external power supply can be connected to charge the battery of the audio control module in time to ensure its continuous and normal operation. The first USB interface can also be used to connect the data cable to transmit the audio of the external audio device to the audio control module. module.

A data button 19 for controlling the electrode pad 4 to collect analog ECG signals can also be arranged on the outer surface of the data microphone housing 9 . Through the data button 19, the earphone type ECG monitor can be controlled in good time to collect analog ECG signals according to actual needs. The analog ECG signal collected by the electrode piece 4 is transmitted to the ECG chip on the data control circuit board 11 through the wire 3, and the ECG chip converts the analog ECG signal into a digital ECG signal, and transmits the digital ECG signal through a wireless Or wired to the data receiving terminal 21, such as the digital ECG signal can be transmitted to the mobile phone, computer or pad, the digital ECG signal is stored, and the digital ECG signal can also be displayed on the data in the electrocardiogram mode. On the receiving terminal 21, it is convenient for users to understand their own ECG signals. The data receiving terminal 21 may also include a multi-stage digital filter, through which the muscle electricity and power frequency interference are filtered, so that the data receiving terminal 21 displays A smoother and more accurate electrocardiogram. At the same time, it also avoids setting a filter on the earphone, reduces the overall volume of the earphone, and makes the appearance of the earphone closer to that of an ordinary earphone, which is easy to use and carry. . In one of the implementations of this embodiment, the data receiving terminal 21 also includes an analysis and judgment module for comparing the received digital ECG signal with the standard ECG signal, and the data receiving terminal 21 receives the digital ECG signal Finally, the digital ECG signal can also be compared and analyzed to judge whether the user's ECG signal is normal, so that the user can know his own health status in time. In one of the implementations of this embodiment, the earphone type ECG monitoring system may also include a device for receiving the digital ECG signal sent by the data receiving terminal 21, and combining the received digital ECG signal with the standard ECG signal A data analysis terminal 22 for comparison and judgment, the data analysis terminal 22 is connected to the data receiving terminal 21 . Through the data analysis terminal 22, the digital electrocardiographic signal sent by the data receiving terminal 21 can be received, and the received digital electrocardiographic signal can be compared with the standard electrocardiographic signal to analyze and judge whether the electrocardiographic signal is normal, so that users can understand their own ECG signal status.

Wherein the audio control module 5 comprises an audio microphone shell housing 14, a second battery 15 and an audio control circuit board 16 arranged inside the audio microphone shell housing 14; the audio control circuit board 16 and the second battery 15, and the audio control circuit board 16 is connected to the speaker 8 through the wire 3. The audio control circuit board 16 wherein comprises audio board body and the integrated circuit that is installed on the audio board body, and described integrated circuit is connected with described external audio equipment communicatively; An integrated circuit and a second USB interface 17 connected to the second battery 15 , and a second opening communicated with the second USB interface 17 is formed on the audio microphone housing 14 . By setting the second USB interface, an external power supply can be connected to charge the battery of the audio control module 5 in time to ensure its continuous normal operation. The second USB interface can also be used to connect the data cable to transmit the audio of the external audio equipment to the audio control module. The first opening is provided with a first USB plug 13 for covering the first opening; the second opening is provided with a second USB plug 18 for covering the second opening. By setting the first USB plug 13 covering the first opening and the second USB plug 18 covering the second opening, when the first USB interface 12 or the second USB interface 17 is not used for charging or connecting with other devices, the second USB interface 12 can be used. A USB plug 13 covers the first opening to prevent dust and water from entering the first USB interface 12 , and a second USB plug 18 is used to cover the second opening to prevent dust and water from entering the second USB interface 17 . Audio buttons 20 can also be set on the outer surface of the audio microphone shell housing 14. By setting the audio buttons 20, such as audio switch buttons, volume reduction buttons and volume increase buttons, etc. can be set, so as to facilitate user control and use, and improve user experience. feel.

When performing audio transmission and ECG data transmission, it can be transmitted in a wired or wireless manner. In order to avoid strong magnetic interference during signal transmission, the earphone type ECG monitoring system provided in this embodiment can also include a Bluetooth module. The bluetooth module is arranged on the audio control circuit board 16 , and can also be arranged on the data control circuit board 11 . When audio transmission or ECG data transmission is required, turn on the Bluetooth of the receiving terminal, such as mobile phone, computer or pad, and pair with the Bluetooth module of the earphone ECG monitoring system for audio transmission or ECG data transmission , so as to avoid the defects of complicated operation of wired connection, not easy to carry, and vulnerable to strong magnetic interference.

The earphone-type ECG monitoring system provided in this embodiment can not only use the communication function of the earplugs normally, but also collect the user’s ECG signals in real time, which is convenient to carry and operate; it integrates multiple functions into an earphone, and can interact with the user. High adhesiveness, it can accurately, stably and continuously collect the user's ECG signal, which is convenient for the user to effectively capture heart disease.

Embodiment Three

As shown in Figure 4, the present embodiment provides a control method of an earphone type ECG monitoring system, which includes the following steps:

S1, using earphones to collect analog ECG signals, and transmitting the analog ECG signals to the ECG data control module;

S2, the ECG data control module receives and processes the analog ECG signal, converts the processed analog ECG signal into a digital ECG signal, and transmits the digital ECG signal to a data receiving terminal;

S3. The data receiving terminal receives the digital ECG signal, and displays it in an electrocardiogram mode and/or prints it out in an electrocardiogram mode.

The specific process of the above steps is as follows:

Stick the electrode pad on the left earplug and the electrode pad on the right earplug to the skin of the person being monitored respectively, turn on the data button, and use the electrode pad to start collecting the simulated ECG signal; the electrode pad passes the simulated ECG signal through the The wire is transmitted to the ECG chip, and the ECG chip processes the received analog ECG signal and converts it into a digital ECG signal; and transmits the digital ECG signal processed by the ECG chip to the data receiving terminal; The data receiving terminal receives and stores the digital electrocardiogram signal, displays it in an electrocardiogram mode, and/or prints it out in an electrocardiogram mode.

After the step S3, it also includes the step of comparing and analyzing the ECG signal received by the data receiving terminal with the standard ECG signal, specifically:

T1, comparing the received digital ECG signal with the standard ECG signal;

T2, judging whether the received digital ECG signal is normal, if normal, send and display a prompt message indicating that the digital ECG signal is normal to the data receiving terminal; if abnormal, send and display the digital ECG signal to the data receiving terminal Prompt message for abnormal signal.

The electrode pads on the earplugs transmit the collected analog ECG signals to the ECG data control module through wires, and use the ECG data control module to convert the collected analog ECG signals into digital ECG signals, and then transmit them to the The data receiving terminal uses the multi-stage digital filter in the data receiving terminal to filter the digital ECG signal and store the filtered digital ECG signal. The data receiving terminal can also compare the received digital ECG signal with the standard Compare the ECG signals, analyze and judge whether the ECG signal is normal, if it is judged normal, send and display the prompt information of the normal ECG signal to the data receiving terminal, if abnormal, send and display the abnormal ECG signal to the data receiving terminal reminder information so that users can understand their own health status.

In order to facilitate users to understand their own health status and timely diagnosis and treatment, in step T2, after judging that the received digital ECG signal is abnormal, it also includes sending the digital ECG signal to the doctor platform for diagnosis, and reporting the diagnosis result And the step of sending the treatment opinion to the data receiving terminal. By sending abnormal digital ECG signals to the doctor platform for diagnosis, it is convenient for users to understand their own health status and timely symptomatic treatment.

In one of the implementations of this embodiment, after the step S3, it also includes sending the digital ECG signal received by the data receiving terminal to the data analysis terminal, and the data analysis terminal sends the received digital ECG signal The steps of comparing and analyzing with the standard ECG signal are as follows:

Y1, comparing the received digital ECG signal with the standard ECG signal;

Y2, judging whether the received digital ECG signal is normal, if normal, then send and display a prompt message that the digital ECG signal is normal to the data receiving terminal and/or the data analysis terminal; if abnormal, send to the data receiving terminal and/or the data analysis terminal The data receiving terminal and/or the data analyzing terminal sends and displays a prompt message indicating that the digital ECG signal is abnormal. In the Y2 step, after judging that the received digital ECG signal is abnormal, it also includes sending the digital ECG signal to the doctor platform for diagnosis, and sending the diagnosis result and treatment advice to the data receiving terminal and/or Or the step of sending to the data analysis terminal.

The control method of the earphone-type ECG monitoring system provided in this embodiment uses the earphone-type ECG monitor to monitor the user's ECG signal, collects the user's ECG signal in time, and transmits the ECG signal to the data receiving terminal Store, display, analyze and judge, so that users can keep abreast of their own health status and provide timely and targeted treatment.

The above descriptions are only preferred embodiments of the present invention, and are not intended to limit the present invention. Any modifications, equivalent replacements, improvements, etc. made within the spirit and principles of the present invention shall be included in the protection of the present invention. within range.

Claims (9)

1. an earphone type ECG monitoring system, is characterized in that, comprises: earphone, the ECG data control module (6) that is connected with described earphone signal line and with described ECG data control module (6) communicatively connected Data receiving terminal (21); The earphone is used to collect analog ECG signals, and transmit the analog ECG signals to the ECG data control module (6); The ECG data control module (6) is used to receive the analog ECG signal transmitted by the earphone, and convert the analog ECG signal into a digital ECG signal and transmit it to the data receiving terminal (21); The data receiving terminal (21) is used for receiving the digital ECG signal transmitted by the ECG data control module (6), and displaying and/or outputting the received digital ECG signal. 2. The earphone type ECG monitoring system according to claim 1, characterized in that, it also includes a digital ECG signal for transmitting the converted digital ECG signal through the ECG data control module (6) to the data receiving terminal (21) Bluetooth module. 3. The earphone type ECG monitoring system according to claim 1 or 2, characterized in that, the data receiving terminal (21) also includes an analyzing device for comparing the received digital ECG signal with the standard ECG signal Judgment module. 4. The earphone type ECG monitoring system according to claim 1 or 2, is characterized in that, also comprises the digital ECG signal that is used for receiving described data receiving terminal (21) to send, and described digital ECG signal A data analysis terminal (22) for comparing with standard electrocardiographic signals. 5. a control method of an earphone type ECG monitoring system, is characterized in that, comprises the following steps: S1, using earphones to collect analog ECG signals, and transmitting the analog ECG signals to the ECG data control module; S2, the ECG data control module receives and processes the analog ECG signal, converts the processed analog ECG signal into a digital ECG signal, and transmits the digital ECG signal to a data receiving terminal; S3. The data receiving terminal receives the digital ECG signal, and displays it in an electrocardiogram mode and/or prints it out in an electrocardiogram mode. 6. The control method of the earphone type ECG monitoring system according to claim 5, is characterized in that, after said step S3, also comprises the digital ECG signal that described data receiving terminal receives and standard ECG signal The steps of comparison and analysis are as follows: T1, comparing the received digital ECG signal with the standard ECG signal; T2, judging whether the received digital ECG signal is normal, if normal, send and display a prompt message indicating that the digital ECG signal is normal to the data receiving terminal; if abnormal, send and display the digital ECG signal to the data receiving terminal Prompt message for abnormal signal. 7. The control method of the earphone type ECG monitoring system according to claim 6, characterized in that, in the step T2, after judging that the received digital ECG signal is abnormal, further comprising converting the digital ECG signal to Sending to the doctor platform for diagnosis, and sending the diagnosis result and treatment advice to the data receiving terminal. 8. The control method of the earphone type ECG monitoring system according to claim 5, characterized in that, after the step S3, it also includes sending the digital ECG signal received by the data receiving terminal to the data analysis terminal, The step of comparing and analyzing the received digital ECG signal with the standard ECG signal by the data analysis terminal is specifically: Y1, comparing the received digital ECG signal with the standard ECG signal; Y2, judging whether the received digital ECG signal is normal, if normal, then send and display a prompt message that the digital ECG signal is normal to the data receiving terminal and/or the data analysis terminal; if abnormal, send to the data receiving terminal and/or the data analysis terminal The data receiving terminal and/or the data analyzing terminal sends and displays a prompt message indicating that the digital ECG signal is abnormal. 9. The control method of the earphone type ECG monitoring system according to claim 8, characterized in that, in the Y2 step, after judging that the received digital ECG signal is abnormal, it also includes converting the digital ECG signal Sending to the doctor platform for diagnosis, and sending the diagnosis result and treatment advice to the data receiving terminal and/or to the data analysis terminal.