CN-121987220-A - Household 12-lead simple electrocardiograph equipment and use method thereof

Abstract

Electrocardiography is a method of monitoring the health of the heart by measuring and recording the electrical activity of the heart. This technique is commonly used to diagnose various heart diseases such as cardiac arrhythmias, coronary artery disease, and myocardial infarction. Conventional electrocardiographic devices are typically deployed in hospitals and cardiac diagnostic centers and operated by specialized medical personnel. With the development of technology, especially the progress of sensor technology and data processing technology, electrocardiographic devices have gradually developed toward miniaturization and portability to meet the demands of daily household use. Such devices allow the average user to conduct self-monitoring of cardiac health without the presence of specialized medical personnel. However, to achieve monitoring accuracy and user experience in home devices that is comparable to medical grade devices, various technical challenges remain. The technical solution that this patent put forward aims at overcoming the limitation of current domestic electrocardiograph, provides a more advanced heart health monitoring instrument, and this instrument is not only accurate high, easy and simple to handle, has high user-friendly moreover for non-professional user also can easily use, thereby better serves vast family's user, promotes their heart health management level.

Inventors

• ZHANG SHUANG
• ZHANG ZIXUAN
• LI XUPING

Assignees

• 张爽

Dates

Publication Date

20260508

Application Date

20241105

Claims (7)

1. 1. A portable electrocardiograph main body, wherein the main body is provided with a built-in signal processing unit, a data storage unit, a wireless communication module and a battery power supply system; a) The 12-lead electrode gel patch is connected with the electrocardiograph main body through a lead, the tail end of the electrode wire is provided with an electrode sheet, the electrode gel patch can be attached to the chest position of a user, and the electrode gel patch can be repeatedly used; b) The display screen can display electrocardiosignals and related analysis data in real time; c) And the wireless communication module is connected with external mobile equipment (such as a smart phone and a tablet personal computer) and is used for transmitting the electrocardiographic data to the external equipment for further analysis or sharing.
2. 2. The home 12-lead simple electrocardiograph according to claim 1, wherein the electrode sheet is of a reusable design, is made of a flexible material to improve wearing comfort, is attached with an easily adhesive layer, and is suitable for self-operation by a home user.
3. 3. The home 12-lead simple electrocardiograph according to claim 1 or 2, wherein the device has an automatic detection function, and when all the electrode sheets are not properly connected, the device sends a prompt signal to prompt the user to adjust the electrode positions.
4. 4. The application method of the household 12-lead simple electrocardiograph is characterized by comprising the following steps of: a) The user respectively places the 12-lead electrode plates at standard electrocardiogram measuring positions, namely six lead positions in front of the chest and four limb positions corresponding to the chest; b) Starting an electrocardiograph, and automatically detecting whether all electrode plates are connected correctly by equipment; c) If the electrode plates are connected correctly, the equipment starts to collect electrocardiosignals and displays the data on a display screen in real time; d) The user can transmit the acquired electrocardio data to external mobile equipment or a doctor terminal for analysis through the wireless communication module; e) After the acquisition is completed, the device automatically saves the electrocardiogram data, and the user can check or transmit the electrocardiogram data to a professional medical staff for further analysis when required.
5. 5. The method of claim 4, wherein the user can select real-time electrocardiographic viewing, history playback, or uploading data to the cloud sharing via a preset button.
6. 6. The home 12-lead simple electrocardiograph according to claim 1, wherein the device is equipped with a portable mobile application, and a user can remotely control the electrocardiograph through the intelligent device, receive real-time feedback, and connect with a telemedicine service system.
7. 7. The home 12-lead simple electrocardiograph according to claim 1, wherein the electrocardiograph body is further equipped with a voice guidance system to assist the user in proper placement of the electrode pads and operation of the device.

Description

Household 12-lead simple electrocardiograph equipment and use method thereof Technical Field This patent relates to the field of medical devices, and in particular to the development and optimization of household Electrocardiogram (ECG) devices. In particular, this patent describes the design and implementation of a home electrocardiograph machine that provides accurate cardiac health monitoring and is suitable for use by non-professional users in a home environment. Background With the increasing age of society and the increasing prevalence of cardiovascular diseases, there is an increasing demand for home medical devices, particularly electrocardiographs. Electrocardiography (ECG) is a non-invasive medical detection method that monitors heart health by recording heart electrical activity. Conventional electrocardiographs are commonly used in hospitals and clinics, however, these devices are often large, complex to operate, and expensive, and are not suitable for home users for routine heart health monitoring. Existing home electrocardiographic devices, while improved in portability and user friendliness, still suffer from a number of significant drawbacks. First, existing home electrocardiographs generally provide limited electrocardiographic signal monitoring, such as single lead recording, which limits their use in the diagnosis of multiple cardiac arrhythmias. Second, the user interfaces of these devices tend to be insufficiently intuitive, and interpretation of electrocardiogram results may be difficult for non-professional users. Furthermore, the data processing and storage functions of the prior art are often inadequate, and do not facilitate long-term cardiac health management. In addition, existing home electrocardiographic devices are often affected by user mishandling in terms of data accuracy and reliability. These devices often require the user to take measurements in specific postures and environmental conditions, which limits the flexibility and convenience of their actual use. The technical proposal provides an innovative solution to the problems. By introducing the multi-lead monitoring technology, the enhanced data processing capability and the user-friendly interactive design, the device not only can provide more comprehensive heart health monitoring, but also can ensure the accuracy of data and the simplicity of operation, and greatly improves the practicability and reliability of the household electrocardiograph. The application of the technology provides a heart health monitoring tool which is simple and easy to use and comprehensive in function for household users, is beneficial to early identification of heart disease risks and improves cardiovascular health management. Disclosure of Invention In order to solve the technical problems of the existing home electrocardiograph in terms of operation complexity, data accuracy and functional limitations, or at least partially solve these problems, the present invention provides an advanced home electrocardiograph. The machine is designed to provide more accurate and user-friendly cardiac health monitoring, and is particularly suited for use by non-professional users in a home environment. The invention provides a household electrocardiograph, comprising: And the data acquisition device is used for acquiring electrocardiosignals of the user. The device adopts a multi-lead system, and can collect more comprehensive electrocardiographic data than the traditional household electrocardiograph. And the signal processing device is used for processing the acquired electrocardiosignals. The device can accurately identify and analyze heart rate, heart rhythm and other important electrocardio parameters by utilizing an advanced algorithm, and can intelligently adjust a signal processing process when a user does not operate so as to optimize the accuracy of data. User interface-visual interface designed for non-professional users. The interface clearly guides the user how to correctly place the leads and make measurements, through graphics and text, while enabling presentation of electrocardiogram results and related health advice in an easily understood format. And the data storage and sharing module is used for storing long-term electrocardio monitoring data and supporting cloud synchronization of the data. The user may choose to share his data to a doctor or a telemedicine provider for further diagnosis and health management. And an automatic diagnosis function, which is based on artificial intelligence technology, can provide a preliminary electrocardiogram analysis result, help users understand the health state of the heart, and prompt the users to seek professional medical help when potential heart problems are detected. Emergency response system the system can automatically notify preset emergency contacts or directly contact emergency medical services upon detection of a serious cardiac event. Compared with the prior art, the technical scheme