CN111000552A - Intelligent electrocardiograph - Google Patents

Abstract

The embodiment of the invention relates to an intelligent electrocardiograph, which comprises: the system comprises a liquid crystal touch screen, an electrocardiosignal acquisition board, an artificial intelligent electrocardio analysis module, a thermosensitive printing module, a power management module, a lithium battery, a power adapter, a wireless communication module group, a mobile communication module group, a main control board, an Ethernet communication module and a thermosensitive printer. Wherein the wireless communication module group specifically includes: a WIFI module and a Bluetooth module; the mobile communication module group includes: 4G modules and 5G modules. The intelligent electrocardiograph is multifunctional equipment integrating electrocardiogram acquisition, electrocardiogram intelligent analysis, electrocardiogram image and report printing and remote communication, and provides a friendly touch visual human-computer interaction interface for operation. The intelligent electrocardiograph improves the operation friendliness, increases the artificial intelligence data analysis function, and integrates various wireless and remote communication means to prepare for further realizing cloud resource management.

Description

Intelligent electrocardiograph

Technical Field

The invention relates to an electrocardiogram detection technology, in particular to an intelligent electrocardiograph.

Background

Electrocardiographs are instruments used to record physiological electrical signals generated during heart activity. Traditional electrocardiograph adopts electromechanical design structure, and mechanical design is leading, and the operation mode is crude, and only possesses signal acquisition and printing function. The collected and printed electrocardio data is also analyzed mainly by manpower.

Disclosure of Invention

The invention aims to provide an intelligent electrocardiograph, which integrates the functions of electrocardiograph acquisition, electrocardiograph intelligent analysis, electrocardiograph image and report printing, remote communication and the like and is operated through a friendly touch man-machine interaction interface. The electrocardiograph provided by the embodiment of the invention improves the operation friendliness, increases the artificial intelligence data analysis function, and integrates various wireless and remote communication means to prepare for further realizing cloud resource management.

In order to achieve the above object, the present invention provides an intelligent electrocardiograph, which is characterized by comprising: the system comprises a liquid crystal touch screen, an electrocardiosignal acquisition board, an artificial intelligent electrocardio analysis module, a thermosensitive printing module, a power management module, a lithium battery, a power adapter, a wireless communication module group, a mobile communication module group, a main control board, an Ethernet communication module and a thermosensitive printer;

the liquid crystal touch screen is connected with the main control board; the liquid crystal touch screen is used for acquiring the human-computer interaction interface data sent by the main control board and displaying a human-computer interaction interface according to the human-computer interaction interface data; the liquid crystal touch screen is used for acquiring touch task information generated by a user through touch selection on a human-computer interaction interface, and sending the touch task information to the main control board for task information analysis and processing operation;

the electrocardiosignal acquisition board is connected with the main control board; the electrocardiosignal acquisition board is used for acquiring an acquisition board operation instruction sent by the main control board, acquiring electrocardiosignals according to the acquisition board operation instruction to generate electrocardio acquisition data, and sending the electrocardio acquisition data to the main control board for electrocardio data analysis and processing operation;

the artificial intelligent electrocardio analysis module is connected with the main control board; the artificial intelligent electrocardio analysis module is used for acquiring electrocardio analysis data sent by the main control board, carrying out electrocardio data analysis operation according to the electrocardio analysis data to generate an electrocardio analysis report, and sending the electrocardio analysis report to the main control board for carrying out electrocardio analysis report analysis and processing operation;

the thermal printing module is connected with the thermal printer and the main control board; the thermal printing module is used for acquiring the electrocardio-printing data sent by the main control board, performing data caching on the electrocardio-printing data locally to generate current cache data, extracting partial data from the current cache data to generate current printing data, setting the current cache data as all data which are not extracted, driving the thermal printer to perform electrocardio-data printing operation on the current printing data to generate a current printing state, performing state summarization on the current cache data to generate a current cache data state, and sending the current printing state and the current cache data state to the main control board for printing result analysis and processing operation;

the power supply management module is connected with the main control board, the lithium battery and an external alternating current power supply through the power supply adapter; when the electrocardiograph is in a battery power supply state, the power management module is used for performing a main control board power supply operation on the main control board by using the lithium battery, performing a liquid crystal touch screen power supply operation on the liquid crystal touch screen by using the lithium battery through the main control board, performing a thermal printing module power supply operation on the thermal printing module by using the lithium battery through the main control board, performing a wireless communication module group power supply operation on the wireless communication module group by using the lithium battery through the main control board, performing a mobile communication module group power supply operation on the mobile communication module group by using the lithium battery through the main control board, and performing an Ethernet communication module power supply operation on the Ethernet communication module by using the lithium battery through the main control board; when the electrocardiograph is in an alternating current power supply state, the power adapter performs power conversion on the external alternating current power supply to generate a conversion power supply output, the power management module is used for performing the main control board power supply operation on the main control board by using the conversion power supply output, is used for performing the liquid crystal touch screen power supply operation on the liquid crystal touch screen by using the conversion power supply output, is used for performing the thermal printing module power supply operation on the thermal printing module by using the conversion power supply output through the main control board, is used for performing the wireless communication module group power supply operation on the mobile communication module group by using the conversion power supply output through the main control board, the power conversion module is used for performing power supply operation on the Ethernet communication module through the main control board by using the power conversion output;

the lithium battery is connected with the power management module; when the electrocardiograph is in the battery power supply state, the lithium battery is used for the power management module to perform the main control board power supply operation on the main control board, for the power management module to perform the liquid crystal touch screen power supply operation on the liquid crystal touch screen through the main control board, for the power management module to perform the thermal printing module power supply operation on the thermal printing module, for the power management module to perform the wireless communication module group power supply operation on the wireless communication module group, for the power management module to perform the mobile communication module group power supply operation on the mobile communication module group, and for the power management module to perform the ethernet communication module power supply operation on the ethernet communication module;

the power adapter is connected with the external alternating current power supply and the power management module; when the electrocardiograph is in the alternating current power supply state, the power adapter performs power conversion on the external alternating current power supply to generate the converted power supply output; the converted power output is used for the power management module to perform the main control board power supply operation on the main control board, for the power management module to perform the liquid crystal touch screen power supply operation on the liquid crystal touch screen through the main control board, for the power management module to perform the thermal printing module power supply operation on the thermal printing module through the main control board, for the power management module to perform the wireless communication module group power supply operation on the wireless communication module group, for the power management module to perform the mobile communication module group power supply operation on the mobile communication module group, and for the power management module to perform the ethernet communication module power supply operation on the ethernet communication module through the main control board;

the wireless communication module group comprises a wireless local area network WIFI module and a Bluetooth module, and the WIFI module and the Bluetooth module are respectively connected with the main control board; the WIFI module is used for acquiring a wireless local area network instruction sent by the main control board, performing wireless local area network operation with an external wireless local area network according to the wireless local area network instruction to generate a wireless local area network operation result, and sending the wireless local area network operation result to the main control board to perform wireless local area network operation result analysis and processing operation; the Bluetooth module is used for acquiring a Bluetooth operation instruction sent by the main control board, carrying out Bluetooth communication with external Bluetooth equipment according to the Bluetooth operation instruction to generate a Bluetooth operation result, and sending the Bluetooth operation result to the main control board to carry out Bluetooth operation result analysis and processing operation;

the mobile communication module group comprises a fourth generation mobile communication 4G module and a fifth generation mobile communication 5G module, and the 4G module and the 5G module are respectively connected with the main control board; the 4G module is used for acquiring a 4G mobile communication operation instruction sent by the main control board, performing mobile communication operation with an external 4G mobile communication network according to the 4G mobile communication operation instruction to generate a 4G mobile communication operation result, and sending the 4G mobile communication operation result to the main control board for performing 4G mobile communication operation result analysis and processing operation; the 5G module is used for acquiring a 5G mobile communication operation instruction sent by the main control board, performing mobile communication operation with an external 5G mobile communication network according to the 5G mobile communication operation instruction to generate a 5G mobile communication operation result, and sending the 5G mobile communication operation result to the main control board to perform 5G mobile communication operation result analysis and processing operation;

the main control board is connected with the liquid crystal touch screen, the electrocardiosignal acquisition board, the artificial intelligent electrocardiosignal analysis module, the thermal printing module, the power management module, the WIFI module of the wireless communication module group, the Bluetooth module of the wireless communication module group, the 4G module of the mobile communication module group, the 5G module of the mobile communication module group and the Ethernet communication module;

the Ethernet communication module is connected with the main control board; the Ethernet communication module at least comprises an Ethernet port, and the working mode of the Ethernet port is a self-adaptive mode; the Ethernet communication module is used for acquiring an Ethernet data exchange instruction sent by the main control board, carrying out Ethernet data exchange operation with an external Ethernet according to the Ethernet data exchange instruction to generate an Ethernet data exchange result, and sending the Ethernet data exchange result to the main control board to carry out Ethernet data exchange result analysis and processing operation;

the thermal printer is connected with the thermal printing module; the thermal printer is used for acquiring the current printing data sent by the thermal printing module, performing the electrocardiogram data printing operation on the electrocardiogram data of the current printing data based on printer configuration data of the current printing data to generate the current printing state, and sending the current printing state to the thermal printing module.

Further, the liquid crystal touch screen comprises a liquid crystal screen and a touch screen, and the liquid crystal screen and the touch screen are respectively connected with the main control board; the liquid crystal display is used for acquiring the human-computer interaction interface data sent by the main control panel and displaying the human-computer interaction interface according to the human-computer interaction interface data; the touch screen is used for acquiring the touch task information generated by a user through touch selection on a human-computer interaction interface, and sending the touch task information to the main control board for task information analysis and processing operation.

Further, in the above-mentioned case,

the power supply mode of the electrocardiosignal acquisition board comprises a first independent power supply mode and a first integrated power supply mode, and when the power supply mode of the electrocardiosignal acquisition board is the first independent power supply mode, the electrocardiosignal acquisition board uses a first independent power supply module to supply power to the electrocardiosignal acquisition board; when the power supply mode of the electrocardiosignal acquisition board is the first integrated power supply mode and the electrocardiograph is in the battery power supply state, the power supply management module uses the lithium battery to carry out the power supply operation of the electrocardiosignal acquisition board through the main control board; when the power supply mode of the electrocardiosignal acquisition board is the first integrated power supply mode and the electrocardiograph is in the alternating current power supply state, the power supply management module outputs the converted power supply to carry out power supply operation on the electrocardiosignal acquisition board through the main control board.

The power supply mode of the artificial intelligent electrocardio analysis module comprises a second independent power supply mode and a second integrated power supply mode, and when the power supply mode of the artificial intelligent electrocardio analysis module is the second independent power supply mode, the artificial intelligent electrocardio analysis module uses a second independent power supply module to supply power to the artificial intelligent electrocardio analysis module; when the power supply mode of the artificial intelligent electrocardio analysis module is the second integrated power supply mode and the electrocardiograph is in the battery power supply state, the power supply management module uses the lithium battery to perform power supply operation on the artificial intelligent electrocardio analysis module through the main control board; when the power supply mode of the artificial intelligence electrocardio analysis module is the second integrated power supply mode and the electrocardiograph is in the alternating current power supply state, the power supply management module uses the switching power supply output to carry out power supply operation on the artificial intelligence electrocardio analysis module through the main control board.

The power supply mode of the thermal printer comprises a third independent power supply mode and a third integrated power supply mode, and when the power supply mode of the thermal printer is the third independent power supply mode, the thermal printer uses a third independent power supply module to supply power to the thermal printer; when the power supply mode of the thermal printer is the third integrated power supply mode and the electrocardiograph is in the battery power supply state, the power supply management module uses the lithium battery to supply power to the thermal printer through the main control panel; when the power supply mode of the thermal printer is the third integrated power supply mode and the electrocardiograph is in the alternating current power supply state, the power supply management module uses the converted power supply output to perform the thermal printer power supply operation on the thermal printer through the main control panel.

Further, the electrocardiosignal acquisition board is specifically connected with the main control board in a UART (asynchronous receiver transmitter) connection mode; the artificial intelligent electrocardio analysis module is connected with the main control board in a USB (universal serial bus) connection mode; the thermal printing module is connected with the main control board in a Serial Peripheral Interface (SPI) connection mode.

Further, the electrocardiosignal acquisition board is specifically configured to acquire the acquisition board operation instruction sent by the main control board; acquiring electrocardiosignals of the detected user by using a sensor port according to the acquisition board operation instruction to generate electrocardiosignals; carrying out data sampling operation on the electrocardiosignals according to a preset sampling frequency to generate electrocardio acquisition data; and sending the electrocardio data to the main control board for analyzing and processing the electrocardio data.

Further, the artificial intelligence electrocardio analysis module is specifically configured to obtain the electrocardio analysis data sent by the main control board; calling an artificial intelligent electrocardiogram analysis program loaded in the artificial intelligent electrocardiogram analysis module to preprocess the electrocardiogram analysis data to generate first process data; calling the artificial intelligent electrocardio analysis program to carry out QRS complex detection on the first process data to generate a QRS complex analysis conclusion; calling the artificial intelligent electrocardio analysis program to carry out heart beat classification and heart beat classification correction on the first process data to generate a heart beat classification analysis conclusion; calling the artificial intelligent electrocardio analysis program to detect the ST segment and the T wave of the first process data to generate an ST segment and T wave analysis conclusion; calling the artificial intelligent electrocardio analysis program to perform P wave and T wave detection on the first process data to generate a P wave and T wave analysis conclusion; calling the artificial intelligent electrocardio analysis program to package data according to the first process data, the QRS wave group analysis conclusion, the heart beat classification analysis conclusion, the ST segment and T wave analysis conclusion and the P wave and T wave analysis conclusion and a preset data structure template to generate the electrocardio analysis report; and sending the electrocardio analysis report to the main control board for analyzing and processing the electrocardio analysis report.

Further, the thermal printing module is specifically configured to obtain the electrocardiographic printing data sent by the main control board; performing data caching on the electrocardiogram data locally to generate current cache data; calling a thermal printing module driving program loaded on the thermal printing module to extract partial data from the current cache data to generate the current printing data, setting the current cache data as all data which are not extracted, extracting printer configuration data of the current printing data to generate printing configuration, extracting electrocardiogram data of the current printing data to generate printing data, and extracting template parameters of the current printing data to generate a printing template; calling the thermal printer to perform the electrocardiogram data printing operation on the printing data based on the printing template to generate the current printing state; summarizing the state of the current cache data to generate the state of the current cache data; and sending the current printing state and the current cache data state to the main control board to analyze and process the printing result.

Further, in the above-mentioned case,

after the mainboard is powered on, the main control board starts mainboard operating system software to generate first human-computer interaction interface data and sends the first human-computer interaction interface data to the liquid crystal touch screen;

after the touch task information sent by the liquid crystal touch screen is obtained, the main control board carries out task information analysis and processing operation according to the touch task information and generates second human-computer interaction interface data, and the second human-computer interaction interface data are sent to the liquid crystal touch screen;

after the electrocardio acquisition data sent by the electrocardio signal acquisition board is acquired, the main control board carries out electrocardio data analysis and processing operation according to the electrocardio acquisition data to generate third man-machine interaction interface data, and the third man-machine interaction interface data are sent to the liquid crystal touch screen;

after the electrocardio analysis report sent by the artificial intelligent electrocardio analysis module is obtained, the main control board carries out electrocardio analysis report analysis and processing operation according to the electrocardio analysis report, generates fourth human-computer interaction interface data and sends the fourth human-computer interaction interface data to the liquid crystal touch screen;

after the current printing state and the current cache data state sent by the thermal printing module are obtained, the main control board carries out printing result analysis and processing operation according to the current printing state and the current cache data state to generate fifth man-machine interaction interface data, and the fifth man-machine interaction interface data are sent to the liquid crystal touch screen;

when the electrocardiograph is in the battery power supply state, the main control board acquires the electric quantity information of the lithium battery through the power supply management module to generate sixth human-computer interaction interface data, and the sixth human-computer interaction interface data are sent to the liquid crystal touch screen; when the electrocardiograph is in the battery power supply state, the main control board acquires charging information of the lithium battery through the power management module to generate seventh human-computer interaction interface data, and the seventh human-computer interaction interface data are sent to the liquid crystal touch screen;

after the wireless local area network operation result sent by the WIFI module is obtained, the main control board performs wireless local area network operation result analysis and processing operation according to the wireless local area network operation result to generate eighth human-computer interaction interface data, and the eighth human-computer interaction interface data are sent to the liquid crystal touch screen;

after the Bluetooth operation result sent by the Bluetooth module is obtained, the main control board performs Bluetooth operation result analysis and processing operation according to the Bluetooth operation result to generate ninth human-computer interaction interface data, and sends the ninth human-computer interaction interface data to the liquid crystal touch screen;

after the 4G mobile communication operation result sent by the 4G module is obtained, the main control board performs 4G mobile communication operation result analysis and processing operation according to the 4G mobile communication operation result to generate tenth human-computer interaction interface data, and the tenth human-computer interaction interface data is sent to the liquid crystal touch screen;

after the 5G mobile communication operation result sent by the 5G module is obtained, the main control board performs 5G mobile communication operation result analysis and processing operation according to the 5G mobile communication operation result to generate eleventh human-computer interaction interface data, and sends the eleventh human-computer interaction interface data to the liquid crystal touch screen;

after the ethernet data exchange result sent by the ethernet communication module is obtained, the main control board performs the ethernet data exchange result analysis and processing operation according to the ethernet data exchange result to generate twelfth human-computer interaction interface data, and sends the twelfth human-computer interaction interface data to the liquid crystal touch screen.

Further, the main control board is specifically further configured to obtain a locally stored network address of the remote device to generate a first destination address, obtain locally stored electrocardiographic data to generate a first electrocardiographic data file, package the first destination address and the first electrocardiographic data file according to a predetermined network message format to generate the wireless local area network instruction, and send the wireless local area network instruction to the WIFI module; the WIFI module is connected with a first internet destination endpoint through the external wireless local area network according to the first destination address of the wireless local area network instruction, the first electrocardiogram data file of the wireless local area network instruction is sent to the first internet destination endpoint through the external wireless local area network, a data receiving state is obtained from the first internet destination endpoint through the external wireless local area network to generate a wireless local area network operation result, and the wireless local area network operation result is sent to the main control board; the main control board carries out analysis and processing operation on the wireless local area network operation result according to the wireless local area network operation result, generates eighth human-computer interaction interface data and sends the eighth human-computer interaction interface data to the liquid crystal touch screen; and after the liquid crystal touch screen acquires the eighth human-computer interaction interface data sent by the main control board, displaying a human-computer interaction interface according to the eighth human-computer interaction interface data.

Further, the main control board is specifically further configured to obtain a locally stored network address of the remote device to generate a second destination address, obtain locally stored electrocardiographic data to generate a second electrocardiographic data file, package the second destination address and the electrocardiographic data file according to a predetermined network message format to generate the 4G mobile communication operation instruction, and send the 4G mobile communication operation instruction to the 4G module; the 4G module is connected with an internet destination endpoint through the external 4G mobile communication network according to the second destination address of the 4G mobile communication operation instruction, sends the second electrocardiogram data file of the 4G mobile communication operation instruction to the second internet destination endpoint through the external 4G mobile communication network, obtains a data receiving state from the second internet destination endpoint through the external 4G mobile communication network to generate a 4G mobile communication operation result, and sends the 4G mobile communication operation result to the main control board; the main control board carries out analysis and processing operation on the mobile communication operation result according to the 4G mobile communication operation result, generates tenth human-computer interaction interface data and sends the tenth human-computer interaction interface data to the liquid crystal touch screen; and after the liquid crystal touch screen acquires the tenth human-computer interaction interface data sent by the main control board, displaying a human-computer interaction interface according to the tenth human-computer interaction interface data.

The invention provides an intelligent electrocardiograph, which comprises: the system comprises a liquid crystal touch screen, an electrocardiosignal acquisition board, an artificial intelligent electrocardio analysis module, a thermosensitive printing module, a power management module, a lithium battery, a power adapter, a wireless communication module group, a mobile communication module group, a main control board, an Ethernet communication module and a thermosensitive printer. Wherein the wireless communication module group specifically includes: WIFI module and bluetooth module. The mobile communication module group comprises a 4G module and a 5G communication module.

Drawings

Fig. 1 is a schematic diagram of an intelligent electrocardiograph according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, and it is apparent that the described embodiments are only a part of the embodiments of the present invention, not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, which is a schematic diagram of an intelligent electrocardiograph according to an embodiment of the present invention, the electrocardiograph according to the embodiment of the present invention includes:

the electrocardiosignal acquisition system comprises a liquid crystal touch screen 1, an electrocardiosignal acquisition board 2, an artificial intelligence electrocardio analysis module 3, a thermal printing module 4, a power management module 5, a lithium battery 6, a power adapter 7, a wireless communication module group 8, a wireless communication module group 9, a main control board 10, an Ethernet communication module 11 and a thermal printer 12.

Here, the liquid crystal touch screen 1 includes a liquid crystal screen 101 and a touch screen 102, and the liquid crystal screen 101 and the touch screen 102 are respectively connected to the main control board 10; the liquid crystal display 101 is used for acquiring the human-computer interaction interface data sent by the main control panel 10 and displaying a human-computer interaction interface according to the human-computer interaction interface data; the touch screen 102 is configured to obtain touch task information generated by a user through touch selection on the human-computer interaction interface, and send the touch task information to the main control board 10 for task information analysis and processing operations.

Here, the liquid crystal panel 101 is specifically connected to the main control board 10 through a Low Voltage Differential Signaling (LVDS) interface, and the touch panel 102 is specifically connected to the main control board 10 through an Inter-Integrated Circuit (I2C).

The electrocardiosignal acquisition board 2 is connected with the main control board 10; the electrocardiosignal acquisition board 2 is used for acquiring an acquisition board operation instruction sent by the main control board 10, acquiring electrocardiosignals according to the acquisition board operation instruction to generate electrocardio acquisition data, and sending the electrocardio acquisition data to the main control board 10 to perform electrocardio data analysis and processing operation.

Specifically, the electrocardiosignal acquisition board 2 acquires an acquisition board operation instruction sent by the main control board 10; acquiring electrocardiosignals of a detected user by using a sensor port according to an acquisition board operation instruction to generate electrocardiosignals; carrying out data sampling operation on the electrocardiosignals according to a preset sampling frequency to generate electrocardio acquisition data; the electrocardiographic data is sent to the main control board 10 for further electrocardiographic data analysis and processing operation.

Here, the electrocardiographic signal acquisition board 2 is connected to the main control board 10 specifically by a UART (Universal asynchronous receiver transmitter) connection.

Here, the power supply mode of the electrocardiographic signal acquisition board 2 includes a first independent power supply mode and a first integrated power supply mode, and when the power supply mode of the electrocardiographic signal acquisition board 2 is the first independent power supply mode, the electrocardiographic signal acquisition board 2 uses a first independent power supply module to supply power to itself; when the power supply mode of the electrocardiosignal acquisition board 2 is the first integrated power supply mode and the electrocardiograph is in a battery power supply state, the power management module 5 uses the lithium battery 6 to perform power supply operation on the electrocardiosignal acquisition board 2 through the main control board 10; when the power supply mode of the electrocardiograph signal acquisition board 2 is the first integrated power supply mode and the electrocardiograph is in the alternating current power supply state, the power supply management module 5 uses the power adapter 7 to convert the external alternating current power supply to generate a converted power supply output, and the power supply operation of the electrocardiograph signal acquisition board is carried out on the electrocardiograph signal acquisition board 2 through the main control board 10.

The artificial intelligence electrocardio analysis module 3 is connected with the main control board 10; the artificial intelligence electrocardio analysis module 3 is used for acquiring electrocardio analysis data sent by the main control board 10, carrying out electrocardio data analysis operation according to the electrocardio analysis data to generate an electrocardio analysis report, and sending the electrocardio analysis report to the main control board 10 for carrying out electrocardio analysis report analysis and processing operation.

Specifically, the artificial intelligence electrocardiogram analysis module 3 acquires electrocardiogram analysis data sent by the main control board 10; calling an artificial intelligent electrocardiogram analysis program loaded in the artificial intelligent electrocardiogram analysis module 3 to preprocess electrocardiogram analysis data to generate first process data; calling an artificial intelligent electrocardio analysis program to carry out QRS complex detection on the first process data to generate a QRS complex analysis conclusion; calling an artificial intelligent electrocardio analysis program to carry out heart beat classification and heart beat classification correction on the first process data to generate a heart beat classification analysis conclusion; calling an artificial intelligent electrocardio analysis program to detect the ST segment and the T wave of the first process data to generate an ST segment and T wave analysis conclusion; calling an artificial intelligent electrocardio analysis program to detect the P wave and the T wave of the first process data to generate a P wave and T wave analysis conclusion; calling an artificial intelligent electrocardio analysis program, and packaging data according to a preset data structure template to generate an electrocardio analysis report according to the first process data, the QRS complex analysis conclusion, the heart beat classification analysis conclusion, the ST segment and T wave analysis conclusion and the P wave and T wave analysis conclusion; and sending the electrocardio analysis report to the main control board 10 for analysis and processing of the electrocardio analysis report.

Here, the artificial intelligence electrocardiographic analysis module 3 is specifically connected to the main control board 10 by a Universal Serial Bus (USB) connection.

Here, the power supply mode of the artificial intelligence electrocardio analysis module 3 includes a second independent power supply mode and a second integrated power supply mode, and when the power supply mode of the artificial intelligence electrocardio analysis module 3 is the second independent power supply mode, the artificial intelligence electrocardio analysis module 3 uses the second independent power supply module to supply power to itself; when the power supply mode of the artificial intelligent electrocardio analysis module 3 is the second integrated power supply mode and the electrocardiograph is in a battery power supply state, the power management module 5 uses the lithium battery 6 to carry out power supply operation on the artificial intelligent electrocardio analysis module 3 through the main control board 10; when the power supply mode of the artificial intelligence electrocardio analysis module 3 is the second integrated power supply mode and the electrocardiograph is in the alternating current power supply state, the power supply management module 5 uses the power adapter 7 to convert the external alternating current power supply to generate a converted power supply output, and the artificial intelligence electrocardio analysis module 3 is powered by the main control board 10.

The thermal printing module 4 is connected with the thermal printer 12 and the main control board 10; the thermal printing module 4 is configured to obtain electrocardiographic printing data sent by the main control board 10, perform data caching on the electrocardiographic printing data locally to generate current cached data, extract part of the data from the current cached data to generate current printing data, set the current cached data as all data that is not extracted, drive the thermal printer 12 to perform electrocardiographic printing operation on the current printing data to generate a current printing state, and perform state summarization on the current cached data to generate a current cached data state; and sending the current printing state and the current cache data state to the main control board 10 for printing result analysis and processing operation.

Specifically, the thermal printing module 4 acquires electrocardiographic printing data sent by the main control board 10; performing data caching on the electrocardio-print data locally to generate current cache data; calling a thermal printing module driving program loaded on a thermal printing module to extract partial data from the current cache data to generate current printing data, setting the current cache data as all data which are not extracted, extracting printer configuration data of the current printing data to generate printing configuration, extracting electrocardiogram data of the current printing data to generate printing data, and extracting template parameters of the current printing data to generate a printing template; calling a thermal printer 12 to perform electrocardiogram data printing operation on the printing data based on the printing template; acquiring a current printing state from the thermal printer 12; summarizing the state of the current cache data to generate the state of the current cache data; and sending the current printing state and the current cache data state to the main control board 10 for printing result analysis and processing operation.

Here, the thermal printing module 4 is connected to the main control board 10 by a Serial Peripheral Interface (SPI) connection.

The power management module 5 is connected with the main control board 10, the lithium battery 6 and an external alternating current power supply through a power adapter 7; when the electrocardiograph is in a battery power supply state, the power management module 5 is used for performing a main control board power supply operation on the main control board 10 by using the lithium battery 6, performing a liquid crystal touch screen power supply operation on the liquid crystal touch screen 1 by using the lithium battery 6 through the main control board 10, performing a thermal printing module power supply operation on the thermal printing module 4 by using the lithium battery 6 through the main control board 10, performing a wireless communication module group power supply operation on the wireless communication module group 8 by using the lithium battery 6 through the main control board 10, performing a mobile communication module group power supply operation on the mobile communication module group 9 by using the lithium battery 6 through the main control board 10, and performing an ethernet communication module power supply operation on the ethernet communication module 11 by using the lithium battery 6 through the main control board 10; when the electrocardiograph is in an alternating current power supply state, the power adapter 7 performs power conversion on an external alternating current power supply to generate a converted power supply output, the power management module 5 is used for performing main control board power supply operation on the main control board 10 by using the converted power supply output, for performing a power supply operation on the liquid crystal touch screen 1 through the main control board 10 by using the converted power output, for performing a thermal printing module power supply operation on the thermal printing module 4 through the main control board 10 using the converted power output, for performing wireless communication module group power supply operation on the wireless communication module group 8 through the main control board 10 by using the converted power output, for performing a mobile communication module set power supply operation on the mobile communication module set 9 through the main control board 10 using the converted power output, for performing power supply operation of the ethernet communication module 11 through the main control board 10 by using the converted power output.

The lithium battery 6 is connected with the power management module 5; when the electrocardiograph is in a battery power supply state, the lithium battery 6 is used for the power management module 5 to perform the main control board power supply operation on the main control board 10, is used for the power management module 5 to perform the liquid crystal touch screen power supply operation on the liquid crystal touch screen 1 through the main control board 10, is used for the power management module 5 to perform the thermal printing module power supply operation on the thermal printing module 4, is used for the power management module 5 to perform the wireless communication module group power supply operation on the wireless communication module group 8, is used for the power management module 5 to perform the mobile communication module group power supply operation on the mobile communication module group 9, and is used for the power management module 5 to perform the ethernet communication module power supply operation on the ethernet communication module 11.

The power adapter 7 is connected with an external alternating current power supply and the power management module 5; when the electrocardiogram machine is in an alternating current power supply state, the power adapter 7 performs power conversion on an external alternating current power supply to generate converted power supply output; the switching power supply output is used for the power management module 5 to perform the main control board power supply operation on the main control board 10, is used for the power management module 5 to perform the liquid crystal touch screen power supply operation on the liquid crystal touch screen 1 through the main control board 10, is used for the power management module 5 to perform the thermal printing module power supply operation on the thermal printing module 4 through the main control board 10, is used for the power management module 5 to perform the wireless communication module group power supply operation on the wireless communication module group 8, is used for the power management module 5 to perform the mobile communication module group power supply operation on the mobile communication module group 9, and is used for the power management module 5 to perform the ethernet communication module power supply operation on the ethernet communication module 11 through the main control board 10.

The Wireless communication module group 8 includes a Wireless local area network (WIFI) module 81 and a bluetooth module 82, and the WIFI module 81 and the bluetooth module 82 are respectively connected to the main control board 10; the WIFI module 81 is configured to obtain a wireless local area network instruction sent by the main control board 10, perform a wireless local area network operation with an external wireless local area network according to the wireless local area network instruction to generate a wireless local area network operation result, and send the wireless local area network operation result to the main control board 10 to perform a wireless local area network operation result analysis and processing operation; the bluetooth module 82 is configured to obtain a bluetooth operation instruction sent by the main control board 10, perform bluetooth communication with an external bluetooth device according to the bluetooth operation instruction to generate a bluetooth operation result, and send the bluetooth operation result to the main control board 10 to perform bluetooth operation result analysis and processing operations.

Here, the WIFI module 81 and the bluetooth module 82 are specifically connected to the main control board 10 through an Inter-ICSound (I2S) built in the integrated circuit.

A mobile communication module group 9, including a fourth Generation mobile communication (4G) module 91 and a fifth Generation mobile communication (5G) module 92, wherein the 4G module 91 and the 5G module 92 are respectively connected to the host board 10; the 4G module 91 is configured to obtain a 4G mobile communication operation instruction sent by the main control board 10, perform mobile communication operation with an external 4G mobile communication network according to the 4G mobile communication operation instruction to generate a 4G mobile communication operation result, and send the 4G mobile communication operation result to the main control board 10 to perform 4G mobile communication operation result analysis and processing operation; the 5G module 92 is configured to obtain a 5G mobile communication operation instruction sent by the main control board 10, perform mobile communication operation with an external 5G mobile communication network according to the 5G mobile communication operation instruction to generate a 5G mobile communication operation result, and send the 5G mobile communication operation result to the main control board 10 to perform 5G mobile communication operation result analysis and processing operation.

The main control board 10 is connected with the liquid crystal touch screen 1, the electrocardiosignal acquisition board 2, the artificial intelligent electrocardio analysis module 3, the thermal printing module 4, the power management module 5, the WIFI module 81 of the wireless communication module group 8, the Bluetooth module 82 of the wireless communication module group 8, the 4G module 91 of the mobile communication module group 9, the 5G module 92 of the mobile communication module group 9 and the Ethernet communication module 11;

after the mainboard is powered on, the main control board 10 starts the mainboard operating system software to generate first human-computer interaction interface data, and sends the first human-computer interaction interface data to the liquid crystal touch screen 1;

after acquiring the touch task information sent by the liquid crystal touch screen 1, the main control board 10 performs task information analysis and processing operation according to the touch task information to generate second human-computer interaction interface data, and sends the second human-computer interaction interface data to the liquid crystal touch screen 1;

after acquiring the electrocardio-acquisition data sent by the electrocardio-signal acquisition board 2, the main control board 10 performs electrocardio-data analysis and processing operation according to the electrocardio-acquisition data to generate third man-machine interaction interface data, and sends the third man-machine interaction interface data to the liquid crystal touch screen 1;

after acquiring the electrocardiogram analysis report sent by the artificial intelligent electrocardiogram analysis module 3, the main control board 10 performs electrocardiogram analysis report analysis and processing operation according to the electrocardiogram analysis report to generate fourth human-computer interaction interface data, and sends the fourth human-computer interaction interface data to the liquid crystal touch screen 1;

after the current printing state and the current cache data state sent by the thermal printing module 4 are obtained, the main control board 10 performs printing result analysis and processing operation according to the current printing state and the current cache data state to generate fifth human-computer interaction interface data, and sends the fifth human-computer interaction interface data to the liquid crystal touch screen 1;

when the electrocardiogram machine is in a battery power supply state, the main control board 10 acquires the electric quantity information of the lithium battery 6 through the power management module 5 to generate sixth human-computer interaction interface data, and the sixth human-computer interaction interface data are sent to the liquid crystal touch screen 1; when the electrocardiogram machine is in a battery power supply state, the main control board 10 acquires charging information of the lithium battery 6 through the power management module 5 to generate seventh human-computer interaction interface data, and sends the seventh human-computer interaction interface data to the liquid crystal touch screen 1;

after acquiring the wireless local area network operation result sent by the WIFI module 81, the main control board 10 performs wireless local area network operation result analysis and processing operation according to the wireless local area network operation result to generate eighth human-computer interaction interface data, and sends the eighth human-computer interaction interface data to the liquid crystal touch screen 1;

after the bluetooth operation result sent by the bluetooth module 82 is obtained, the main control board 10 performs bluetooth operation result analysis and processing operation according to the bluetooth operation result to generate ninth human-computer interaction interface data, and sends the ninth human-computer interaction interface data to the liquid crystal touch screen 1;

after the 4G mobile communication operation result sent by the 4G module 91 is obtained, the main control board 10 performs 4G mobile communication operation result analysis and processing operation according to the 4G mobile communication operation result to generate tenth human-computer interaction interface data, and sends the tenth human-computer interaction interface data to the liquid crystal touch screen 1;

after the 5G mobile communication operation result sent by the 5G module 92 is obtained, the main control board 10 performs 5G mobile communication operation result analysis and processing operation according to the 5G mobile communication operation result to generate eleventh human-computer interaction interface data, and sends the eleventh human-computer interaction interface data to the liquid crystal touch screen 1;

after the ethernet data exchange result sent by the ethernet communication module 11 is obtained, the main control board 10 performs analysis and processing operation on the ethernet data exchange result according to the ethernet data exchange result to generate twelfth human-computer interaction interface data, and sends the twelfth human-computer interaction interface data to the liquid crystal touch screen 1.

The Ethernet communication module 11 is connected with an external Ethernet and is connected with the main control board 10; the ethernet communication module 11 at least includes an ethernet port 111, and the working mode of the ethernet port 111 is an adaptive mode, where the port rate is 10M/100M/1000M bits Per Second (Bit Per Second, bps); the ethernet communication module 11 is configured to obtain an ethernet data exchange instruction sent by the main control board 10, perform ethernet data exchange operation with an external ethernet according to the ethernet data exchange instruction to generate an ethernet data exchange result, and send the ethernet data exchange result to the main control board 10 to perform ethernet data exchange result analysis and processing operation.

A thermal printer 12 connected to the thermal printing module 4; the thermal printer 12 is configured to acquire current print data sent by the thermal printing module 4, perform an electrocardiographic data printing operation on electrocardiographic data of the current print data based on printer configuration data of the current print data to generate a current print state, and send the current print state to the thermal printing module 4.

Here, the power supply method of the thermal printer 12 includes a third independent power supply method and a third integrated power supply method, and when the power supply method of the thermal printer 12 is the third independent power supply method, the thermal printer 12 supplies power to itself by using a third independent power supply module; when the power supply mode of the thermal printer 12 is the third integrated power supply mode and the electrocardiograph is in a battery power supply state, the power management module 5 uses the lithium battery 6 to perform the thermal printer power supply operation on the thermal printer 12 through the main control board 10; when the power supply mode of the thermal printer is the third integrated power supply mode and the electrocardiograph is in the ac power supply state, the power management module 5 uses the power adapter 7 to perform power conversion on the external ac power to generate a converted power output, and performs a thermal printer power supply operation on the thermal printer 12 through the main control board 10.

Here, the thermal printer 12 is connected to the thermal printing module 4 by an SPI interface.

The following further briefly describes the working content of each equipment module in conjunction with an actual workflow. For example, when the main control board needs to send local electrocardiographic data to the cloud background by using the wireless local area network, the working contents of each template of the electrocardiograph are approximately as follows:

the main control board 10 acquires a locally stored remote device network address to generate a first destination address, acquires locally stored electrocardiographic data to generate a first electrocardiographic data file, packages the first destination address and the first electrocardiographic data file according to a predetermined network message format to generate a wireless local area network instruction, and sends the wireless local area network instruction to the WIFI module 81;

the WIFI module 81 is connected with a first internet destination endpoint through an external wireless local area network according to a first destination address of the wireless local area network instruction, sends a first electrocardiogram data file of the wireless local area network instruction to the first internet destination endpoint through the external wireless local area network, obtains a data receiving state from the first internet destination endpoint through the external wireless local area network to generate a wireless local area network operation result, and sends the wireless local area network operation result to the main control board 10;

the main control board 10 performs the analysis and processing operation of the wireless local area network operation result according to the wireless local area network operation result to generate eighth human-computer interaction interface data, and sends the eighth human-computer interaction interface data to the liquid crystal touch screen 1:

and after the liquid crystal touch screen 1 acquires the eighth human-computer interaction interface data sent by the main control board, displaying a human-computer interaction interface according to the eighth human-computer interaction interface data.

For another example, when the main control board needs to send local electrocardiographic data to the cloud background by using the mobile communication network of the telecom operator, the working content of each template of the electrocardiograph is approximately as follows:

the main control board 10 acquires a locally stored network address of the remote device to generate a second destination address, acquires locally stored electrocardiographic data to generate a second electrocardiographic data file, packages the second destination address and the electrocardiographic data file according to a predetermined network message format to generate a mobile communication operation instruction, and sends the 4G mobile communication operation instruction to the 4G module 91;

the 4G module 91 connects the internet destination endpoint through the external 4G mobile communication network according to the second destination address of the 4G mobile communication operation instruction, sends the second electrocardiographic data file of the 4G mobile communication operation instruction to the second internet destination endpoint through the external 4G mobile communication network, acquires a data receiving state from the second internet destination endpoint through the external 4G mobile communication network to generate a 4G mobile communication operation result, and sends the 4G mobile communication operation result to the main control board 10;

the main control board 10 performs 4G mobile communication operation result analysis and processing operation according to the 4G mobile communication operation result, generates tenth human-computer interaction interface data, and sends the tenth human-computer interaction interface data to the liquid crystal touch screen 1;

after the liquid crystal touch screen 1 acquires the tenth human-computer interaction interface data sent by the main control board 10, the human-computer interaction interface is displayed according to the tenth human-computer interaction interface data.

The invention provides an intelligent electrocardiograph, which comprises: the system comprises a liquid crystal touch screen, an electrocardiosignal acquisition board, an artificial intelligent electrocardio analysis module, a thermosensitive printing module, a power management module, a lithium battery, a power adapter, a wireless communication module group, a mobile communication module group, a main control board, an Ethernet communication module and a thermosensitive printer. Wherein the wireless communication module group specifically includes: WIFI module and bluetooth module. The mobile communication module group comprises a 4G module and a 5G communication module. The intelligent electrocardiograph is multifunctional equipment integrating electrocardiogram acquisition, electrocardiogram intelligent analysis, electrocardiogram image and report printing and remote communication, and provides a friendly touch visual human-computer interaction interface for operation. The intelligent electrocardiograph improves the operation friendliness, increases the artificial intelligence data analysis function, and integrates various wireless and remote communication means to prepare for further realizing cloud resource management.

Those of skill would further appreciate that the various illustrative components and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative components and steps have been described above generally in terms of their functionality in order to clearly illustrate this interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied in hardware, a software module executed by a processor, or a combination of the two. A software module may reside in Random Access Memory (RAM), memory, Read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. An intelligent electrocardiograph, characterized in that, electrocardiograph include: the system comprises a liquid crystal touch screen, an electrocardiosignal acquisition board, an artificial intelligent electrocardio analysis module, a thermosensitive printing module, a power management module, a lithium battery, a power adapter, a wireless communication module group, a mobile communication module group, a main control board, an Ethernet communication module and a thermosensitive printer;

the liquid crystal touch screen is connected with the main control board; the liquid crystal touch screen is used for acquiring the human-computer interaction interface data sent by the main control board and displaying a human-computer interaction interface according to the human-computer interaction interface data; the liquid crystal touch screen is used for acquiring touch task information generated by a user through touch selection on a human-computer interaction interface, and sending the touch task information to the main control board for task information analysis and processing operation;

the electrocardiosignal acquisition board is connected with the main control board; the electrocardiosignal acquisition board is used for acquiring an acquisition board operation instruction sent by the main control board, acquiring electrocardiosignals according to the acquisition board operation instruction to generate electrocardio acquisition data, and sending the electrocardio acquisition data to the main control board for electrocardio data analysis and processing operation;

the artificial intelligent electrocardio analysis module is connected with the main control board; the artificial intelligent electrocardio analysis module is used for acquiring electrocardio analysis data sent by the main control board, carrying out electrocardio data analysis operation according to the electrocardio analysis data to generate an electrocardio analysis report, and sending the electrocardio analysis report to the main control board for carrying out electrocardio analysis report analysis and processing operation;

the thermal printing module is connected with the thermal printer and the main control board; the thermal printing module is used for acquiring the electrocardio-printing data sent by the main control board, performing data caching on the electrocardio-printing data locally to generate current cache data, extracting partial data from the current cache data to generate current printing data, setting the current cache data as all data which are not extracted, driving the thermal printer to perform electrocardio-data printing operation on the current printing data to generate a current printing state, performing state summarization on the current cache data to generate a current cache data state, and sending the current printing state and the current cache data state to the main control board for printing result analysis and processing operation;

the power supply management module is connected with the main control board, the lithium battery and an external alternating current power supply through the power supply adapter; when the electrocardiograph is in a battery power supply state, the power management module is used for performing a main control board power supply operation on the main control board by using the lithium battery, performing a liquid crystal touch screen power supply operation on the liquid crystal touch screen by using the lithium battery through the main control board, performing a thermal printing module power supply operation on the thermal printing module by using the lithium battery through the main control board, performing a wireless communication module group power supply operation on the wireless communication module group by using the lithium battery through the main control board, performing a mobile communication module group power supply operation on the mobile communication module group by using the lithium battery through the main control board, and performing an Ethernet communication module power supply operation on the Ethernet communication module by using the lithium battery through the main control board; when the electrocardiograph is in an alternating current power supply state, the power adapter performs power conversion on the external alternating current power supply to generate a conversion power supply output, the power management module is used for performing the main control board power supply operation on the main control board by using the conversion power supply output, is used for performing the liquid crystal touch screen power supply operation on the liquid crystal touch screen by using the conversion power supply output, is used for performing the thermal printing module power supply operation on the thermal printing module by using the conversion power supply output through the main control board, is used for performing the wireless communication module group power supply operation on the mobile communication module group by using the conversion power supply output through the main control board, the power conversion module is used for performing power supply operation on the Ethernet communication module through the main control board by using the power conversion output;

the lithium battery is connected with the power management module; when the electrocardiograph is in the battery power supply state, the lithium battery is used for the power management module to perform the main control board power supply operation on the main control board, for the power management module to perform the liquid crystal touch screen power supply operation on the liquid crystal touch screen through the main control board, for the power management module to perform the thermal printing module power supply operation on the thermal printing module, for the power management module to perform the wireless communication module group power supply operation on the wireless communication module group, for the power management module to perform the mobile communication module group power supply operation on the mobile communication module group, and for the power management module to perform the ethernet communication module power supply operation on the ethernet communication module;

the power adapter is connected with the external alternating current power supply and the power management module; when the electrocardiograph is in the alternating current power supply state, the power adapter performs power conversion on the external alternating current power supply to generate the converted power supply output; the converted power output is used for the power management module to perform the main control board power supply operation on the main control board, for the power management module to perform the liquid crystal touch screen power supply operation on the liquid crystal touch screen through the main control board, for the power management module to perform the thermal printing module power supply operation on the thermal printing module through the main control board, for the power management module to perform the wireless communication module group power supply operation on the wireless communication module group, for the power management module to perform the mobile communication module group power supply operation on the mobile communication module group, and for the power management module to perform the ethernet communication module power supply operation on the ethernet communication module through the main control board;

the wireless communication module group comprises a wireless local area network WIFI module and a Bluetooth module, and the WIFI module and the Bluetooth module are respectively connected with the main control board; the WIFI module is used for acquiring a wireless local area network instruction sent by the main control board, performing wireless local area network operation with an external wireless local area network according to the wireless local area network instruction to generate a wireless local area network operation result, and sending the wireless local area network operation result to the main control board to perform wireless local area network operation result analysis and processing operation; the Bluetooth module is used for acquiring a Bluetooth operation instruction sent by the main control board, carrying out Bluetooth communication with external Bluetooth equipment according to the Bluetooth operation instruction to generate a Bluetooth operation result, and sending the Bluetooth operation result to the main control board to carry out Bluetooth operation result analysis and processing operation;

the mobile communication module group comprises a fourth generation mobile communication 4G module and a fifth generation mobile communication 5G module, and the 4G module and the 5G module are respectively connected with the main control board; the 4G module is used for acquiring a 4G mobile communication operation instruction sent by the main control board, performing mobile communication operation with an external 4G mobile communication network according to the 4G mobile communication operation instruction to generate a 4G mobile communication operation result, and sending the 4G mobile communication operation result to the main control board for performing 4G mobile communication operation result analysis and processing operation; the 5G module is used for acquiring a 5G mobile communication operation instruction sent by the main control board, performing mobile communication operation with an external 5G mobile communication network according to the 5G mobile communication operation instruction to generate a 5G mobile communication operation result, and sending the 5G mobile communication operation result to the main control board to perform 5G mobile communication operation result analysis and processing operation;

the main control board is connected with the liquid crystal touch screen, the electrocardiosignal acquisition board, the artificial intelligent electrocardiosignal analysis module, the thermal printing module, the power management module, the WIFI module of the wireless communication module group, the Bluetooth module of the wireless communication module group, the 4G module of the mobile communication module group, the 5G module of the mobile communication module group and the Ethernet communication module;

the Ethernet communication module is connected with the main control board; the Ethernet communication module at least comprises an Ethernet port, and the working mode of the Ethernet port is a self-adaptive mode; the Ethernet communication module is used for acquiring an Ethernet data exchange instruction sent by the main control board, carrying out Ethernet data exchange operation with an external Ethernet according to the Ethernet data exchange instruction to generate an Ethernet data exchange result, and sending the Ethernet data exchange result to the main control board to carry out Ethernet data exchange result analysis and processing operation;

the thermal printer is connected with the thermal printing module; the thermal printer is used for acquiring the current printing data sent by the thermal printing module, performing the electrocardiogram data printing operation on the electrocardiogram data of the current printing data based on printer configuration data of the current printing data to generate the current printing state, and sending the current printing state to the thermal printing module.

2. The intelligent electrocardiograph of claim 1,

the liquid crystal touch screen comprises a liquid crystal screen and a touch screen, and the liquid crystal screen and the touch screen are respectively connected with the main control board; the liquid crystal display is used for acquiring the human-computer interaction interface data sent by the main control panel and displaying the human-computer interaction interface according to the human-computer interaction interface data; the touch screen is used for acquiring the touch task information generated by a user through touch selection on a human-computer interaction interface, and sending the touch task information to the main control board for task information analysis and processing operation.

3. The intelligent electrocardiograph of claim 1,

the power supply mode of the electrocardiosignal acquisition board comprises a first independent power supply mode and a first integrated power supply mode, and when the power supply mode of the electrocardiosignal acquisition board is the first independent power supply mode, the electrocardiosignal acquisition board uses a first independent power supply module to supply power to the electrocardiosignal acquisition board; when the power supply mode of the electrocardiosignal acquisition board is the first integrated power supply mode and the electrocardiograph is in the battery power supply state, the power supply management module uses the lithium battery to carry out the power supply operation of the electrocardiosignal acquisition board through the main control board; when the power supply mode of the electrocardiosignal acquisition board is the first integrated power supply mode and the electrocardiograph is in the alternating current power supply state, the power supply management module uses the power adapter to perform power conversion on the external alternating current power supply to generate the conversion power supply output, and the main control board performs power supply operation on the electrocardiosignal acquisition board.

The power supply mode of the artificial intelligent electrocardio analysis module comprises a second independent power supply mode and a second integrated power supply mode, and when the power supply mode of the artificial intelligent electrocardio analysis module is the second independent power supply mode, the artificial intelligent electrocardio analysis module uses a second independent power supply module to supply power to the artificial intelligent electrocardio analysis module; when the power supply mode of the artificial intelligent electrocardio analysis module is the second integrated power supply mode and the electrocardiograph is in the battery power supply state, the power supply management module uses the lithium battery to perform power supply operation on the artificial intelligent electrocardio analysis module through the main control board; when the power supply mode of the artificial intelligence electrocardio analysis module is the second integrated power supply mode and the electrocardiograph is in the alternating current power supply state, the power supply management module uses the power adapter to carry out power supply conversion on the external alternating current power supply to generate the conversion power supply output, and the artificial intelligence electrocardio analysis module is powered by the main control board.

The power supply mode of the thermal printer comprises a third independent power supply mode and a third integrated power supply mode, and when the power supply mode of the thermal printer is the third independent power supply mode, the thermal printer uses a third independent power supply module to supply power to the thermal printer; when the power supply mode of the thermal printer is the third integrated power supply mode and the electrocardiograph is in the battery power supply state, the power supply management module uses the lithium battery to supply power to the thermal printer through the main control panel; when the power supply mode of the thermal printer is the third integrated power supply mode and the electrocardiograph is in the alternating current power supply state, the power supply management module uses the power adapter to perform power conversion on the external alternating current power supply to generate the conversion power supply output, and the thermal printer is subjected to power supply operation on the thermal printer through the main control board.

4. The intelligent electrocardiograph of claim 1,

the electrocardiosignal acquisition board is connected with the main control board in a UART (asynchronous receiver transmitter) connection mode; the artificial intelligent electrocardio analysis module is connected with the main control board in a USB (universal serial bus) connection mode; the thermal printing module is connected with the main control board in a Serial Peripheral Interface (SPI) connection mode.

5. The intelligent electrocardiograph of claim 1,

the electrocardiosignal acquisition board is specifically used for acquiring the acquisition board operation instruction sent by the main control board; acquiring electrocardiosignals of the detected user by using a sensor port according to the acquisition board operation instruction to generate electrocardiosignals; carrying out data sampling operation on the electrocardiosignals according to a preset sampling frequency to generate electrocardio acquisition data; and sending the electrocardio data to the main control board for analyzing and processing the electrocardio data.

6. The intelligent electrocardiograph of claim 1,

the artificial intelligence electrocardio analysis module is specifically used for acquiring the electrocardio analysis data sent by the main control board; calling an artificial intelligent electrocardiogram analysis program loaded in the artificial intelligent electrocardiogram analysis module to preprocess the electrocardiogram analysis data to generate first process data; calling the artificial intelligent electrocardio analysis program to carry out QRS complex detection on the first process data to generate a QRS complex analysis conclusion; calling the artificial intelligent electrocardio analysis program to carry out heart beat classification and heart beat classification correction on the first process data to generate a heart beat classification analysis conclusion; calling the artificial intelligent electrocardio analysis program to detect the ST segment and the T wave of the first process data to generate an ST segment and T wave analysis conclusion; calling the artificial intelligent electrocardio analysis program to perform P wave and T wave detection on the first process data to generate a P wave and T wave analysis conclusion; calling the artificial intelligent electrocardio analysis program to package data according to the first process data, the QRS wave group analysis conclusion, the heart beat classification analysis conclusion, the ST segment and T wave analysis conclusion and the P wave and T wave analysis conclusion and a preset data structure template to generate the electrocardio analysis report; and sending the electrocardio analysis report to the main control board for analyzing and processing the electrocardio analysis report.

7. The intelligent electrocardiograph of claim 1,

the thermal printing module is specifically used for acquiring the electrocardiogram printing data sent by the main control board; performing data caching on the electrocardiogram data locally to generate current cache data; calling a thermal printing module driving program loaded on the thermal printing module to extract partial data from the current cache data to generate the current printing data, setting the current cache data as all data which are not extracted, extracting printer configuration data of the current printing data to generate printing configuration, extracting electrocardiogram data of the current printing data to generate printing data, and extracting template parameters of the current printing data to generate a printing template; calling the thermal printer to perform the electrocardiogram data printing operation on the printing data based on the printing template to generate the current printing state; summarizing the state of the current cache data to generate the state of the current cache data; and sending the current printing state and the current cache data state to the main control board to analyze and process the printing result.

8. The intelligent electrocardiograph of claim 1,

after the mainboard is powered on, the main control board starts mainboard operating system software to generate first human-computer interaction interface data and sends the first human-computer interaction interface data to the liquid crystal touch screen;

after the touch task information sent by the liquid crystal touch screen is obtained, the main control board carries out task information analysis and processing operation according to the touch task information and generates second human-computer interaction interface data, and the second human-computer interaction interface data are sent to the liquid crystal touch screen;

after the electrocardio acquisition data sent by the electrocardio signal acquisition board is acquired, the main control board carries out electrocardio data analysis and processing operation according to the electrocardio acquisition data to generate third man-machine interaction interface data, and the third man-machine interaction interface data are sent to the liquid crystal touch screen;

after the electrocardio analysis report sent by the artificial intelligent electrocardio analysis module is obtained, the main control board carries out electrocardio analysis report analysis and processing operation according to the electrocardio analysis report, generates fourth human-computer interaction interface data and sends the fourth human-computer interaction interface data to the liquid crystal touch screen;

after the current printing state and the current cache data state sent by the thermal printing module are obtained, the main control board carries out printing result analysis and processing operation according to the current printing state and the current cache data state to generate fifth man-machine interaction interface data, and the fifth man-machine interaction interface data are sent to the liquid crystal touch screen;

when the electrocardiograph is in the battery power supply state, the main control board acquires the electric quantity information of the lithium battery through the power supply management module to generate sixth human-computer interaction interface data, and the sixth human-computer interaction interface data are sent to the liquid crystal touch screen; when the electrocardiograph is in the battery power supply state, the main control board acquires charging information of the lithium battery through the power management module to generate seventh human-computer interaction interface data, and the seventh human-computer interaction interface data are sent to the liquid crystal touch screen;

after the wireless local area network operation result sent by the WIFI module is obtained, the main control board performs wireless local area network operation result analysis and processing operation according to the wireless local area network operation result to generate eighth human-computer interaction interface data, and the eighth human-computer interaction interface data are sent to the liquid crystal touch screen;

after the Bluetooth operation result sent by the Bluetooth module is obtained, the main control board performs Bluetooth operation result analysis and processing operation according to the Bluetooth operation result to generate ninth human-computer interaction interface data, and sends the ninth human-computer interaction interface data to the liquid crystal touch screen;

after the 4G mobile communication operation result sent by the 4G module is obtained, the main control board performs 4G mobile communication operation result analysis and processing operation according to the 4G mobile communication operation result to generate tenth human-computer interaction interface data, and the tenth human-computer interaction interface data is sent to the liquid crystal touch screen;

after the 5G mobile communication operation result sent by the 5G module is obtained, the main control board performs 5G mobile communication operation result analysis and processing operation according to the 5G mobile communication operation result to generate eleventh human-computer interaction interface data, and sends the eleventh human-computer interaction interface data to the liquid crystal touch screen;

after the ethernet data exchange result sent by the ethernet communication module is obtained, the main control board performs the ethernet data exchange result analysis and processing operation according to the ethernet data exchange result to generate twelfth human-computer interaction interface data, and sends the twelfth human-computer interaction interface data to the liquid crystal touch screen.

9. The intelligent electrocardiograph of claim 1,

the main control board is further specifically configured to acquire a locally stored network address of the remote device to generate a first destination address, acquire locally stored electrocardiographic data to generate a first electrocardiographic data file, package the first destination address and the first electrocardiographic data file according to a predetermined network message format to generate the wireless local area network instruction, and send the wireless local area network instruction to the WIFI module; the WIFI module is connected with a first internet destination endpoint through the external wireless local area network according to the first destination address of the wireless local area network instruction, the first electrocardiogram data file of the wireless local area network instruction is sent to the first internet destination endpoint through the external wireless local area network, a data receiving state is obtained from the first internet destination endpoint through the external wireless local area network to generate a wireless local area network operation result, and the wireless local area network operation result is sent to the main control board; the main control board carries out analysis and processing operation on the wireless local area network operation result according to the wireless local area network operation result, generates eighth human-computer interaction interface data and sends the eighth human-computer interaction interface data to the liquid crystal touch screen; and after the liquid crystal touch screen acquires the eighth human-computer interaction interface data sent by the main control board, displaying a human-computer interaction interface according to the eighth human-computer interaction interface data.

10. The intelligent electrocardiograph of claim 1,

the main control board is further specifically configured to obtain a locally stored network address of the remote device to generate a second destination address, obtain locally stored electrocardiographic data to generate a second electrocardiographic data file, package the second destination address and the electrocardiographic data file according to a predetermined network message format to generate the 4G mobile communication operation instruction, and send the 4G mobile communication operation instruction to the 4G module; the 4G module is connected with an internet destination endpoint through the external 4G mobile communication network according to the second destination address of the 4G mobile communication operation instruction, sends the second electrocardiogram data file of the 4G mobile communication operation instruction to the second internet destination endpoint through the external 4G mobile communication network, obtains a data receiving state from the second internet destination endpoint through the external 4G mobile communication network to generate a 4G mobile communication operation result, and sends the 4G mobile communication operation result to the main control board; the main control board carries out analysis and processing operation on the mobile communication operation result according to the 4G mobile communication operation result, generates tenth human-computer interaction interface data and sends the tenth human-computer interaction interface data to the liquid crystal touch screen; and after the liquid crystal touch screen acquires the tenth human-computer interaction interface data sent by the main control board, displaying a human-computer interaction interface according to the tenth human-computer interaction interface data.

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