CN114098752B - A method, device, medium and program product for presenting electrocardiogram data - Google Patents

Abstract

The application aims to provide a method, equipment, medium and program product for presenting electrocardio data, which are applied to electrocardio monitoring equipment, wherein the electrocardio monitoring equipment comprises a data acquisition module, a data transmission module and a data processing display module, the data acquisition module comprises a first magnetic attraction connecting contact, the data transmission module comprises a second magnetic attraction connecting contact, the data transmission module comprises a wireless transmission unit, separate data acquisition and data transmission, the independent module device of data transmission, data acquisition module and data transmission module are inhaled through magnetism and are connected the contact, and data acquisition module connects data transmission module when needs demonstration analysis data in real time, and data transmission module plays the function of data transmission on the one hand, and on the other hand also plays the function of power supply, fine reduction electrocardio adopts monitoring devices's volume and weight, has improved and has worn experience.

Description

Translated fromChinese

一种用于呈现心电数据的方法、设备、介质及程序产品A method, device, medium and program product for presenting electrocardiogram data

技术领域Technical Field

本申请涉及通信领域，尤其涉及一种用于呈现心电数据的技术。The present application relates to the field of communications, and in particular to a technology for presenting electrocardiogram data.

背景技术Background Art

目前市场上有很多种便携式心电监测装置，比如传统的12导联Holter，最近几年出现了单导心电监测装置，这些便携式心电监测装置普遍有几种实现方法，第一种是连续监测+连续存储，这种装置需要在完成全程监测后将数据导出分析，无法实时分析展示；另外一种是连续监测+连续传输，这种装置可以通过接收设备接收数据进行实时的后期处理，但是连续传输带来了高功耗的问题，导致这种设备佩戴时间短，另外实时传输也并不是便携式装置的强需求，还有一种是连续监测+连续存储+可控传输，这种装置已经一定程度解决了前面两种装置的问题，但是自带传输模块一方面还是存在耗电问题，影响了监测装置的使用时间，另外一方面自带传输模块也增加了装置的体积和重量，影响了佩戴体验，There are many kinds of portable ECG monitoring devices on the market, such as the traditional 12-lead Holter. In recent years, single-lead ECG monitoring devices have appeared. These portable ECG monitoring devices generally have several implementation methods. The first is continuous monitoring + continuous storage. This device needs to export and analyze the data after completing the whole monitoring process, and cannot be analyzed and displayed in real time; the other is continuous monitoring + continuous transmission. This device can receive data through the receiving device for real-time post-processing, but continuous transmission brings the problem of high power consumption, resulting in a short wearing time of this device. In addition, real-time transmission is not a strong demand for portable devices. There is also continuous monitoring + continuous storage + controllable transmission. This device has solved the problems of the previous two devices to a certain extent, but the built-in transmission module still has power consumption problems, which affects the use time of the monitoring device. On the other hand, the built-in transmission module also increases the size and weight of the device, affecting the wearing experience.

发明内容Summary of the invention

本申请的一个目的是提供一种用于呈现心电数据的方法、设备、介质及程序产品。One object of the present application is to provide a method, device, medium and program product for presenting electrocardiogram data.

根据本申请的一个方面，提供了一种用于呈现心电数据的方法，应用于心电监测设备，其中，所述心电监测设备包括数据采集模块、数据传输模块、数据处理展示模块，所述数据采集模块包括第一磁吸连接触点，所述数据传输模块包括第二磁吸连接触点，所述数据传输模块包括无线传输单元，该方法包括：According to one aspect of the present application, a method for presenting electrocardiogram data is provided, which is applied to an electrocardiogram monitoring device, wherein the electrocardiogram monitoring device includes a data acquisition module, a data transmission module, and a data processing and display module, the data acquisition module includes a first magnetic connection contact, the data transmission module includes a second magnetic connection contact, and the data transmission module includes a wireless transmission unit, and the method includes:

通过所述数据采集模块采集用户的心电数据；Collecting the user's electrocardiogram data through the data acquisition module;

若所述数据采集模块与所述数据传输模块已通过所述第一磁吸连接触点及所述第二磁吸连接触点建立第一触点连接，通过所述数据采集模块基于所述第一触点连接将所述心电数据发送给所述数据传输模块；If the data acquisition module and the data transmission module have established a first contact connection through the first magnetic connection contact and the second magnetic connection contact, the data acquisition module sends the ECG data to the data transmission module based on the first contact connection;

若所述数据传输模块已通过所述无线传输单元与所述数据处理展示模块建立第一无线连接，通过所述数据传输模块基于所述第一无线连接将所述心电数据发送给所述数据处理展示模块；If the data transmission module has established a first wireless connection with the data processing and display module through the wireless transmission unit, the ECG data is sent to the data processing and display module through the data transmission module based on the first wireless connection;

通过所述数据处理展示模块对所述心电数据进行处理，向所述用户呈现处理后的心电数据。The ECG data is processed by the data processing and display module, and the processed ECG data is presented to the user.

根据本申请的一个方面，提供了一种用于呈现心电数据的心电监测设备，其中，所述心电监测设备包括数据采集模块、数据传输模块、数据处理展示模块，所述数据采集模块包括第一磁吸连接触点，所述数据传输模块包括第二磁吸连接触点，所述数据传输模块包括无线传输单元；According to one aspect of the present application, an ECG monitoring device for presenting ECG data is provided, wherein the ECG monitoring device comprises a data acquisition module, a data transmission module, and a data processing and display module, the data acquisition module comprises a first magnetic connection contact, the data transmission module comprises a second magnetic connection contact, and the data transmission module comprises a wireless transmission unit;

所述数据采集模块用于采集用户的心电数据；The data acquisition module is used to collect the user's electrocardiogram data;

若所述数据采集模块与所述数据传输模块已通过所述第一磁吸连接触点及所述第二磁吸连接触点建立第一触点连接，所述数据采集模块用于基于所述第一触点连接将所述心电数据发送给所述数据传输模块；If the data acquisition module and the data transmission module have established a first contact connection through the first magnetic connection contact and the second magnetic connection contact, the data acquisition module is used to send the ECG data to the data transmission module based on the first contact connection;

若所述数据传输模块已通过所述无线传输单元与所述数据处理展示模块建立第一无线连接，所述数据传输模块用于基于所述第一无线连接将所述心电数据发送给所述数据处理展示模块；If the data transmission module has established a first wireless connection with the data processing and display module through the wireless transmission unit, the data transmission module is used to send the ECG data to the data processing and display module based on the first wireless connection;

所述数据处理展示模块用于对所述心电数据进行处理，向所述用户呈现处理后的心电数据。The data processing and display module is used to process the ECG data and present the processed ECG data to the user.

根据本申请的一个方面，提供了一种用于呈现心电数据的计算机设备，包括存储器、处理器及存储在存储器上的计算机程序，其中，所述处理器执行所述计算机程序以实现如上所述任一方法的操作。According to one aspect of the present application, a computer device for presenting electrocardiogram data is provided, comprising a memory, a processor, and a computer program stored in the memory, wherein the processor executes the computer program to implement the operation of any of the methods described above.

根据本申请的一个方面，提供了一种计算机可读存储介质，其上存储有计算机程序，其特征在于，该计算机程序被处理器执行时实现如上所述任一方法的操作。According to one aspect of the present application, a computer-readable storage medium is provided, on which a computer program is stored, characterized in that when the computer program is executed by a processor, the operation of any of the methods described above is implemented.

根据本申请的一个方面，提供了一种计算机程序产品，包括计算机程序，该计算机程序被处理器执行时实现如上所述任一方法的步骤。According to one aspect of the present application, a computer program product is provided, including a computer program, which implements the steps of any of the above methods when executed by a processor.

与现有技术相比，本申请通过提供一种模块化心电监测设备，将数据采集和数据传输分离，数据传输独立成模块装置，数据采集模块和数据传输模块通过磁吸连接触点连接，数据采集模块在需要实时显示分析数据的时候连接数据传输模块，数据传输模块一方面起到数据传输的功能，另一方面也起到供电的功能，很好的缩小了心电采监测装置的体积和重量，提高了佩戴体验，同时也解决了数据展示和分析时需要的数据传输需求，数据传输的时候使用数据传输模块给数据采集模块供电，延长了数据采集模块的使用时长，更好地提高了用户体验。Compared with the prior art, the present application provides a modular ECG monitoring device, which separates data acquisition and data transmission. The data transmission is independently formed into a modular device. The data acquisition module and the data transmission module are connected by magnetic connection contacts. The data acquisition module is connected to the data transmission module when real-time display and analysis of data are required. The data transmission module has the function of data transmission on the one hand, and the function of power supply on the other hand, which greatly reduces the size and weight of the ECG monitoring device and improves the wearing experience. At the same time, it also solves the data transmission requirements required for data display and analysis. During data transmission, the data transmission module is used to power the data acquisition module, which extends the use time of the data acquisition module and better improves the user experience.

附图说明BRIEF DESCRIPTION OF THE DRAWINGS

通过阅读参照以下附图所作的对非限制性实施例所作的详细描述，本申请的其它特征、目的和优点将会变得更明显：Other features, objects and advantages of the present application will become more apparent by reading the detailed description of non-limiting embodiments made with reference to the following drawings:

图1示出根据本申请一个实施例的一种用于呈现心电数据的方法流程图；FIG1 shows a flow chart of a method for presenting electrocardiogram data according to an embodiment of the present application;

图2示出根据本申请一个实施例的一种用于呈现心电数据的心电监测设备结构图；FIG2 shows a structural diagram of an ECG monitoring device for presenting ECG data according to an embodiment of the present application;

图3示出一种心电监测设备的示意图；FIG3 shows a schematic diagram of an electrocardiogram monitoring device;

图4示出一种数据采集模块的结构图；FIG4 shows a structural diagram of a data acquisition module;

图5示出一种心电监测设备的示意图；FIG5 shows a schematic diagram of an electrocardiogram monitoring device;

图6示出一种数据传输模块的结构图；FIG6 shows a structural diagram of a data transmission module;

图7示出一种心电监测设备的示意图；FIG7 shows a schematic diagram of an electrocardiogram monitoring device;

图8示出一种充电数据转换模块的结构图；FIG8 shows a structural diagram of a charging data conversion module;

图9示出一种心电监测设备的示意图；FIG9 shows a schematic diagram of an electrocardiogram monitoring device;

图10示出一种心电监测设备的示意图；FIG10 shows a schematic diagram of an electrocardiogram monitoring device;

图11示出一种心电监测设备的示意图；FIG11 is a schematic diagram showing an electrocardiogram monitoring device;

图12示出一种心电监测设备的示意图；FIG12 is a schematic diagram showing an electrocardiogram monitoring device;

图13示出一种心电监测设备的示意图；FIG13 is a schematic diagram showing an electrocardiogram monitoring device;

图14示出可被用于实施本申请中所述的各个实施例的示例性系统。FIG. 14 illustrates an exemplary system that may be used to implement various embodiments described herein.

附图中相同或相似的附图标记代表相同或相似的部件。The same or similar reference numerals in the drawings represent the same or similar components.

具体实施方式DETAILED DESCRIPTION

下面结合附图对本申请作进一步详细描述。The present application is described in further detail below in conjunction with the accompanying drawings.

在本申请一个典型的配置中，终端、服务网络的设备和可信方均包括一个或多个处理器(例如，中央处理器(Central Processing Unit，CPU))、输入/输出接口、网络接口和内存。In a typical configuration of the present application, the terminal, the device of the service network and the trusted party all include one or more processors (eg, a central processing unit (CPU)), an input/output interface, a network interface and a memory.

内存可能包括计算机可读介质中的非永久性存储器，随机存取存储器(RandomAccess Memory，RAM)和/或非易失性内存等形式，如只读存储器(Read Only Memory，ROM)或闪存(Flash Memory)。内存是计算机可读介质的示例。Memory may include non-permanent memory in a computer-readable medium, random access memory (RAM) and/or non-volatile memory in the form of read-only memory (ROM) or flash memory. Memory is an example of a computer-readable medium.

计算机可读介质包括永久性和非永久性、可移动和非可移动媒体可以由任何方法或技术来实现信息存储。信息可以是计算机可读指令、数据结构、程序的模块或其他数据。计算机的存储介质的例子包括，但不限于相变内存(Phase-Change Memory，PCM)、可编程随机存取存储器(Programmable Random Access Memory，PRAM)、静态随机存取存储器(Static Random-Access Memory，SRAM)、动态随机存取存储器(Dynamic Random AccessMemory，DRAM)、其他类型的随机存取存储器(RAM)、只读存储器(ROM)、电可擦除可编程只读存储器(Electrically-Erasable Programmable Read-Only Memory，EEPROM)、快闪记忆体或其他内存技术、只读光盘只读存储器(Compact Disc Read-Only Memory，CD-ROM)、数字多功能光盘(Digital Versatile Disc,DVD)或其他光学存储、磁盒式磁带，磁带磁盘存储或其他磁性存储设备或任何其他非传输介质，可用于存储可以被计算设备访问的信息。Computer readable media include permanent and non-permanent, removable and non-removable media that can be used to store information by any method or technology. Information can be computer readable instructions, data structures, modules of programs or other data. Examples of computer storage media include, but are not limited to, Phase-Change Memory (PCM), Programmable Random Access Memory (PRAM), Static Random Access Memory (SRAM), Dynamic Random Access Memory (DRAM), other types of random access memory (RAM), Read-Only Memory (ROM), Electrically-Erasable Programmable Read-Only Memory (EEPROM), Flash memory or other memory technology, Compact Disc Read-Only Memory (CD-ROM), Digital Versatile Disc (DVD) or other optical storage, magnetic cassettes, tape disk storage or other magnetic storage devices or any other non-transmission media that can be used to store information that can be accessed by a computing device.

本申请所指设备包括但不限于终端、网络设备、或终端与网络设备通过网络相集成所构成的设备。所述终端包括但不限于任何一种可与用户进行人机交互(例如通过触摸板进行人机交互)的移动电子产品，例如智能手机、平板电脑等，所述移动电子产品可以采用任意操作系统，如Android操作系统、iOS操作系统等。其中，所述网络设备包括一种能够按照事先设定或存储的指令，自动进行数值计算和信息处理的电子设备，其硬件包括但不限于微处理器、专用集成电路(Application Specific Integrated Circuit，ASIC)、可编程逻辑器件(Programmable Logic Device，PLD)、现场可编程门阵列(Field ProgrammableGate Array，FPGA)、数字信号处理器(Digital Signal Processor，DSP)、嵌入式设备等。所述网络设备包括但不限于计算机、网络主机、单个网络服务器、多个网络服务器集或多个服务器构成的云；在此，云由基于云计算(Cloud Computing)的大量计算机或网络服务器构成，其中，云计算是分布式计算的一种，由一群松散耦合的计算机集组成的一个虚拟超级计算机。所述网络包括但不限于互联网、广域网、城域网、局域网、VPN网络、无线自组织网络(Ad Hoc网络)等。优选地，所述设备还可以是运行于所述终端、网络设备、或终端与网络设备、网络设备、触摸终端或网络设备与触摸终端通过网络相集成所构成的设备上的程序。The devices referred to in this application include but are not limited to terminals, network devices, or devices formed by integrating terminals and network devices through a network. The terminal includes but is not limited to any mobile electronic product that can interact with a user (for example, interact with a user through a touchpad), such as a smart phone, a tablet computer, etc. The mobile electronic product can use any operating system, such as an Android operating system, an iOS operating system, etc. Among them, the network device includes an electronic device that can automatically perform numerical calculations and information processing according to pre-set or stored instructions, and its hardware includes but is not limited to a microprocessor, an application specific integrated circuit (ASIC), a programmable logic device (PLD), a field programmable gate array (FPGA), a digital signal processor (DSP), an embedded device, etc. The network device includes but is not limited to a computer, a network host, a single network server, a plurality of network server sets or a cloud composed of multiple servers; here, the cloud is composed of a large number of computers or network servers based on cloud computing (Cloud Computing), wherein cloud computing is a type of distributed computing, a virtual supercomputer composed of a group of loosely coupled computer sets. The network includes but is not limited to the Internet, wide area network, metropolitan area network, local area network, VPN network, wireless self-organizing network (Ad Hoc network), etc. Preferably, the device may also be a program running on the terminal, network device, or a device formed by integrating the terminal and network device, network device, touch terminal, or network device and touch terminal through a network.

当然，本领域技术人员应能理解上述设备仅为举例，其他现有的或今后可能出现的设备如可适用于本申请，也应包含在本申请保护范围以内，并在此以引用方式包含于此。Of course, those skilled in the art should understand that the above-mentioned devices are only examples, and other existing or future devices that are applicable to the present application should also be included in the scope of protection of the present application and are included here by reference.

在本申请的描述中，“多个”的含义是两个或者更多，除非另有明确具体的限定。In the description of the present application, “plurality” means two or more, unless otherwise clearly and specifically defined.

图1示出根据本申请一个实施例的一种用于呈现心电数据的方法流程图，应用于心电监测设备，其中，所述心电监测设备包括数据采集模块、数据传输模块、数据处理展示模块，所述数据采集模块包括第一磁吸连接触点，所述数据传输模块包括第二磁吸连接触点，所述数据传输模块包括无线传输单元，该方法包括步骤S11、步骤S12、步骤S13和步骤S14。在步骤S11中，心电监测设备通过所述数据采集模块采集用户的心电数据；在步骤S12中，若所述数据采集模块与所述数据传输模块已通过所述第一磁吸连接触点及所述第二磁吸连接触点建立第一触点连接，心电监测设备通过所述数据采集模块基于所述第一触点连接将所述心电数据发送给所述数据传输模块；在步骤S13中，若所述数据传输模块已通过所述无线传输单元与所述数据处理展示模块建立第一无线连接，心电监测设备通过所述数据传输模块基于所述第一无线连接将所述心电数据发送给所述数据处理展示模块；在步骤S14中，心电监测设备通过所述数据处理展示模块对所述心电数据进行处理，向所述用户呈现处理后的心电数据。Figure 1 shows a flow chart of a method for presenting ECG data according to an embodiment of the present application, which is applied to an ECG monitoring device, wherein the ECG monitoring device includes a data acquisition module, a data transmission module, and a data processing and display module, the data acquisition module includes a first magnetic connection contact, the data transmission module includes a second magnetic connection contact, the data transmission module includes a wireless transmission unit, and the method includes step S11, step S12, step S13 and step S14. In step S11, the ECG monitoring device collects the ECG data of the user through the data acquisition module; in step S12, if the data acquisition module and the data transmission module have established a first contact connection through the first magnetic connection contact and the second magnetic connection contact, the ECG monitoring device sends the ECG data to the data transmission module through the data acquisition module based on the first contact connection; in step S13, if the data transmission module has established a first wireless connection with the data processing and display module through the wireless transmission unit, the ECG monitoring device sends the ECG data to the data processing and display module through the data transmission module based on the first wireless connection; in step S14, the ECG monitoring device processes the ECG data through the data processing and display module, and presents the processed ECG data to the user.

在步骤S11中，心电监测设备通过所述数据采集模块采集用户的心电数据。在一些实施例中，心电监测设备为监测用户的心电数据的设备。在一些实施例中，心电监测设备包括数据采集模块、数据传输模块、数据处理展示模块，这三个模块是互相独立、互相分离的，数据采集模块主要负责采集用户的心电数据并进行存储，数据传输模块主要负责心电数据的传输，数据处理展示模块主要负责心电数据的接收、处理和展示，以及和云端数据的交互展示等。在一些实施例中，如图3所示，数据采集模块进行心电数据的采集和存储。在一些实施例中，如图4所示，数据采集模块主要由心电电极贴片、心电采集芯片、存储器、LED指示灯、处理器、电源开关、电源管理芯片、锂电池、充电触点/数据触点(磁吸连接触点)构成。在一些实施例中，磁吸连接触点又叫磁铁式连接器、磁吸连接器、磁力连接器或磁性连接器，广泛应用于电子设备上的连接器之一，主要是pogopin(弹簧针)与磁铁组成的连接器，通过磁铁与磁铁接触对吸的结构设计，提供一种吸附力度大，适于小尺寸结构和轻薄产品的连接器，pogopin是一种应用于手机等电子产品中的精密连接器，广泛应用于半导体设备中，起连接作用，pogopin是一种由针轴、弹簧、针管三个基本部件通过精密仪器铆压预压之后形成的弹簧式探针，其内部有一个精密的弹簧结构。在一些实施例中，两个设备通过磁吸连接触点建立触点连接，一方面可以基于该触点连接完成该两个设备之间数据传输的功能，另一方面还可以基于该触点连接完成该两个设备之间单向充电的功能。在一些实施例中，数据采集模块通过心电电极片跟心电采集芯片完成心电数据的采集功能，通过处理器跟存储器完成心电数据的存储功能，例如，心电采集芯片通过心电电极片采集用户的心电数据并将其发送给处理器，然后，处理器会将该心电数据存储在存储器中。In step S11, the ECG monitoring device collects the user's ECG data through the data acquisition module. In some embodiments, the ECG monitoring device is a device for monitoring the user's ECG data. In some embodiments, the ECG monitoring device includes a data acquisition module, a data transmission module, and a data processing and display module. These three modules are independent and separated from each other. The data acquisition module is mainly responsible for collecting and storing the user's ECG data, the data transmission module is mainly responsible for the transmission of the ECG data, and the data processing and display module is mainly responsible for the reception, processing and display of the ECG data, as well as the interactive display with the cloud data. In some embodiments, as shown in Figure 3, the data acquisition module collects and stores ECG data. In some embodiments, as shown in Figure 4, the data acquisition module is mainly composed of ECG electrode patches, ECG acquisition chips, memory, LED indicator lights, processors, power switches, power management chips, lithium batteries, charging contacts/data contacts (magnetic connection contacts). In some embodiments, the magnetic connection contact is also called a magnet connector, a magnetic connector, a magnetic connector or a magnetic connector. It is one of the connectors widely used in electronic devices. It is mainly a connector composed of a pogo pin (spring pin) and a magnet. Through the structural design of the magnet and the magnet contact and attraction, a connector with a large adsorption force suitable for small-sized structures and thin products is provided. Pogo pin is a precision connector used in electronic products such as mobile phones. It is widely used in semiconductor devices and plays a connecting role. Pogo pin is a spring-type probe formed by three basic components, a needle shaft, a spring, and a needle tube, which are pre-pressed by a precision instrument riveting. There is a precision spring structure inside. In some embodiments, two devices establish a contact connection through a magnetic connection contact. On the one hand, the function of data transmission between the two devices can be completed based on the contact connection. On the other hand, the function of unidirectional charging between the two devices can also be completed based on the contact connection. In some embodiments, the data acquisition module completes the acquisition function of ECG data through ECG electrodes and ECG acquisition chips, and completes the storage function of ECG data through processors and memory. For example, the ECG acquisition chip collects the user's ECG data through the ECG electrodes and sends it to the processor, and then the processor stores the ECG data in the memory.

在步骤S12中，若所述数据采集模块与所述数据传输模块已通过所述第一磁吸连接触点及所述第二磁吸连接触点建立第一触点连接，心电监测设备通过所述数据采集模块基于所述第一触点连接将所述心电数据发送给所述数据传输模块。在一些实施例中，数据采集模块包括第一磁吸连接触点，数据传输模块包括第二磁吸连接触点，通过将数据采集模块上的第一磁吸连接触点(充电触点/数据触点)与数据传输模块上的第二磁吸连接触点(充电触点/数据触点)进行连接，即建立第一触点连接，使得数据采集模块可以将采集到的心电数据或已存储的心电数据基于已建立的第一触点连接(数据触点)发送给数据传输模块，例如，心电采集芯片将心电电极片采集到的用户心电数据发送给处理器，处理器将该心电数据基于第一触点连接发送给数据传输模块，或者，处理器将存储器中已存储的心电数据基于第一触点连接发送给数据传输模块。在一些实施例中，如图5所示，数据传输模块连接在数据采集模块上，数据模块模块将采集到的心电数据或已存储的心电数据传输给数据传输模块。In step S12, if the data acquisition module and the data transmission module have established a first contact connection through the first magnetic connection contact and the second magnetic connection contact, the ECG monitoring device sends the ECG data to the data transmission module through the data acquisition module based on the first contact connection. In some embodiments, the data acquisition module includes a first magnetic connection contact, and the data transmission module includes a second magnetic connection contact. By connecting the first magnetic connection contact (charging contact/data contact) on the data acquisition module with the second magnetic connection contact (charging contact/data contact) on the data transmission module, a first contact connection is established, so that the data acquisition module can send the collected ECG data or the stored ECG data to the data transmission module based on the established first contact connection (data contact). For example, the ECG acquisition chip sends the user's ECG data collected by the ECG electrode sheet to the processor, and the processor sends the ECG data to the data transmission module based on the first contact connection, or the processor sends the ECG data stored in the memory to the data transmission module based on the first contact connection. In some embodiments, as shown in FIG. 5 , the data transmission module is connected to the data acquisition module, and the data acquisition module transmits the acquired ECG data or the stored ECG data to the data transmission module.

在步骤S13中，若所述数据传输模块已通过所述无线传输单元与所述数据处理展示模块建立第一无线连接，心电监测设备通过所述数据传输模块基于所述第一无线连接将所述心电数据发送给所述数据处理展示模块。在一些实施例中，数据传输模块包括无线传输单元，数据传输模块通过该无线传输单元建立与数据处理展示模块的无线连接，并基于该无线连接将心电数据发送给数据处理展示模块。在一些实施例中，无线传输单元包括但不限于无线传输芯片、无线传输天线等。在一些实施例中，如图6所示，数据传输模块主要由无线传输天线、无线传输芯片、LED指示灯、处理器、电源开关、电源管理芯片、锂电池、充电触点/数据触点(磁吸连接触点)构成。在一些实施例中，数据传输模块中的处理器接收数据采集模块基于第一触点连接发送给数据传输模块的心电数据，并将该心电数据发送给无线传输芯片，无线传输芯片将该心电数据通过无线传输天线发送给已与数据传输模块建立无线连接的数据处理展示模块。在一些实施例中，如图7所示，数据传输模块连接在数据采集模块上，数据模块模块将采集到的心电数据或已存储的心电数据传输给数据传输模块，数据传输模块与数据处理展示模块之间已建立无线连接，数据传输模块通过无线方式将该心电数据传输给数据处理展示模块。In step S13, if the data transmission module has established a first wireless connection with the data processing and display module through the wireless transmission unit, the ECG monitoring device sends the ECG data to the data processing and display module based on the first wireless connection through the data transmission module. In some embodiments, the data transmission module includes a wireless transmission unit, through which the data transmission module establishes a wireless connection with the data processing and display module, and sends the ECG data to the data processing and display module based on the wireless connection. In some embodiments, the wireless transmission unit includes but is not limited to a wireless transmission chip, a wireless transmission antenna, and the like. In some embodiments, as shown in FIG6 , the data transmission module is mainly composed of a wireless transmission antenna, a wireless transmission chip, an LED indicator light, a processor, a power switch, a power management chip, a lithium battery, and a charging contact/data contact (magnetic connection contact). In some embodiments, the processor in the data transmission module receives the ECG data sent to the data transmission module by the data acquisition module based on the first contact connection, and sends the ECG data to the wireless transmission chip, and the wireless transmission chip sends the ECG data to the data processing and display module that has established a wireless connection with the data transmission module through the wireless transmission antenna. In some embodiments, as shown in Figure 7, the data transmission module is connected to the data acquisition module, the data acquisition module transmits the collected ECG data or the stored ECG data to the data transmission module, a wireless connection is established between the data transmission module and the data processing and display module, and the data transmission module transmits the ECG data to the data processing and display module wirelessly.

在步骤S14中，心电监测设备通过所述数据处理展示模块对所述心电数据进行处理，向所述用户呈现处理后的心电数据。在一些实施例中，数据处理展示模块通常由智能手机、智能平板、PC等设备实现，或者，也可以由设计开发的专有设备实现。在一些实施例中，数据处理展示模块对心电数据进行处理，得到可视化的心电数据，并向用户呈现该可视化的心电数据。在一些实施例中，数据处理展示模块还可以将接收到的心电数据同步给对应的服务器。在一些实施例中，数据处理展示模块还可以接收并呈现服务器发送的云端数据。本申请通过提供一种模块化心电监测设备，将数据采集和数据传输分离，数据传输独立成模块装置，数据采集模块和数据传输模块通过磁吸连接触点连接，数据采集模块在需要实时显示分析数据的时候连接数据传输模块，数据传输模块一方面起到数据传输的功能，另一方面也起到供电的功能，很好的缩小了心电采监测装置的体积和重量，提高了佩戴体验，同时也解决了数据展示和分析时需要的数据传输需求，数据传输的时候使用数据传输模块给数据采集模块供电，延长了数据采集模块的使用时长，更好地提高了用户体验。In step S14, the ECG monitoring device processes the ECG data through the data processing and display module, and presents the processed ECG data to the user. In some embodiments, the data processing and display module is usually implemented by a smart phone, a smart tablet, a PC and other devices, or it can also be implemented by a designed and developed proprietary device. In some embodiments, the data processing and display module processes the ECG data to obtain visualized ECG data, and presents the visualized ECG data to the user. In some embodiments, the data processing and display module can also synchronize the received ECG data to the corresponding server. In some embodiments, the data processing and display module can also receive and present the cloud data sent by the server. The present application provides a modular ECG monitoring device, separates data acquisition and data transmission, and the data transmission is independently formed into a module device. The data acquisition module and the data transmission module are connected by magnetic connection contacts. The data acquisition module is connected to the data transmission module when the real-time display and analysis data are required. The data transmission module plays the function of data transmission on the one hand, and the power supply function on the other hand, which greatly reduces the volume and weight of the ECG monitoring device, improves the wearing experience, and also solves the data transmission requirements required for data display and analysis. When data is transmitted, the data transmission module is used to power the data acquisition module, which prolongs the use time of the data acquisition module and better improves the user experience.

在一些实施例中，所述数据采集模块、所述数据传输模块中的每个模块中的磁吸连接触点包括至少两个数据触点。在一些实施例中，数据采集模块、数据传输模块中的每个模块中的磁吸连接触点均至少包括两个数据触点，数据触点负责数据传输，至少两个数据触点的作用是为了实现数据的双向同步传输，例如，数据采集模块中的第一磁吸连接触点包括数据触点a1、数据触点a2，数据传输模块中的第二磁吸连接触点包括数据触点b1、数据触点b2，则将数据采集模块与数据传输模块建立触点连接的方式可以是将数据触点a1与数据触点b1连接在一起，将数据触点a2与数据触点b2连接在一起。In some embodiments, the magnetic connection contacts in each of the data acquisition module and the data transmission module include at least two data contacts. In some embodiments, the magnetic connection contacts in each of the data acquisition module and the data transmission module include at least two data contacts, and the data contacts are responsible for data transmission. The function of at least two data contacts is to realize bidirectional synchronous transmission of data. For example, the first magnetic connection contact in the data acquisition module includes data contact a1 and data contact a2, and the second magnetic connection contact in the data transmission module includes data contact b1 and data contact b2. Then, the way to establish a contact connection between the data acquisition module and the data transmission module can be to connect the data contact a1 with the data contact b1, and to connect the data contact a2 with the data contact b2.

在一些实施例中，所述心电监测设备还包括充电数据转换模块，所述充电数据转换模块包括第三磁吸连接触点，所述充电数据转换模块包括有线传输单元。在一些实施例中，心电监测设备还包括充电数据转换模块，充电数据转换模块一方面负责给数据采集模块和/或数据传输模块充电，另一方面还可以实现数据采集模块或数据传输模块到数据处理展示设备的有线传输。在一些实施例中，有线传输单元包括但不限于数据线(例如，USB线)、数据线接口(例如，USB接口)等。在一些实施例中，如图8所示，充电数据转换模块由USB接口、电源管理芯片、数据转换芯片、充电触点/数据触点(磁吸连接触点)构成，主要实现充电和数据转换功能。在一些实施例中，充电数据转换模块可以基于USB接口建立与电源设备之间的有线连接，并基于第三磁吸连接触点建立与数据传输模块或数据采集模块之间的触点连接，电源设备可以基于该有线连接将电量提供给充电数据转换模块，然后充电数据转换模块基于该触点连接(充电触点)将电量提供给数据传输模块或数据采集模块中的电源管理芯片，该电源管理芯片可以将电量存储在数据传输模块或数据采集模块中的锂电池中。在一些实施例中，数据传输模块或数据采集模块可以基于该触点连接将心电数据发送给充电数据转换模块中的数据转换芯片，然后数据转换芯片对该心电数据进行数据转换，并将数据转换后的心电数据基于该有线连接发送给电源设备。In some embodiments, the ECG monitoring device further includes a charging data conversion module, the charging data conversion module includes a third magnetic connection contact, and the charging data conversion module includes a wired transmission unit. In some embodiments, the ECG monitoring device further includes a charging data conversion module, which is responsible for charging the data acquisition module and/or the data transmission module on the one hand, and can also realize the wired transmission from the data acquisition module or the data transmission module to the data processing and display device on the other hand. In some embodiments, the wired transmission unit includes but is not limited to a data line (e.g., a USB line), a data line interface (e.g., a USB interface), etc. In some embodiments, as shown in FIG8, the charging data conversion module is composed of a USB interface, a power management chip, a data conversion chip, and a charging contact/data contact (magnetic connection contact), and mainly realizes the charging and data conversion functions. In some embodiments, the charging data conversion module can establish a wired connection with the power supply device based on the USB interface, and establish a contact connection with the data transmission module or the data acquisition module based on the third magnetic connection contact. The power supply device can provide electricity to the charging data conversion module based on the wired connection, and then the charging data conversion module provides electricity to the power management chip in the data transmission module or the data acquisition module based on the contact connection (charging contact), and the power management chip can store electricity in the lithium battery in the data transmission module or the data acquisition module. In some embodiments, the data transmission module or the data acquisition module can send ECG data to the data conversion chip in the charging data conversion module based on the contact connection, and then the data conversion chip performs data conversion on the ECG data, and sends the converted ECG data to the power supply device based on the wired connection.

在一些实施例中，所述数据采集模块、所述数据传输模块、所述充电数据转换模块中的每个模块中的磁吸连接触点包括至少两个数据触点、至少两个充电触点。在一些实施例中，数据采集模块、数据传输模块、充电数据转换模块中的每个模块中的磁吸连接触点除了至少包括两个数据触点以外，还至少包括两个充电触点，充电触点负责供电，至少两个充电触点的作用是为了实现正负极充电，例如，数据采集模块中的第一磁吸连接触点包括数据触点a1、数据触点a2、充电触点a3、充电触点a4，数据传输模块中的第二磁吸连接触点包括数据触点b1、数据触点b2、充电触点b3、充电触点b4，则将数据采集模块与数据传输模块建立触点连接的方式可以是将数据触点a1与数据触点b1连接在一起，将数据触点a2与数据触点b2连接在一起，将充电触点a3与充电触点b3连接在一起，将充电触点a4与充电触点b4连接在一起。In some embodiments, the magnetic connection contacts in each of the data acquisition module, the data transmission module, and the charging data conversion module include at least two data contacts and at least two charging contacts. In some embodiments, the magnetic connection contacts in each of the data acquisition module, the data transmission module, and the charging data conversion module include at least two charging contacts in addition to at least two data contacts. The charging contacts are responsible for power supply, and the function of at least two charging contacts is to realize positive and negative charging. For example, the first magnetic connection contact in the data acquisition module includes data contact a1, data contact a2, charging contact a3, and charging contact a4, and the second magnetic connection contact in the data transmission module includes data contact b1, data contact b2, charging contact b3, and charging contact b4. Then, the way to establish contact connection between the data acquisition module and the data transmission module can be to connect the data contact a1 with the data contact b1, connect the data contact a2 with the data contact b2, connect the charging contact a3 with the charging contact b3, and connect the charging contact a4 with the charging contact b4.

在一些实施例中，所述每个模块中的磁吸连接触点还包括至少两个状态触点，所述状态触点用于控制该模块、与该模块已建立触点连接的其他模块之间的模块间工作状态的转换。在一些实施例中，每个模块中的磁吸连接触点除了至少包括两个数据触点、两个充电触点以外，还包括至少两个状态触点，状态触点用于控制该模块、与该模块已建立触点连接的其他模块之间的模块间工作状态转换，模块间工作状态用于指示该模块和该其他模块连接的状态，决定该模块可以启动哪些功能、可以实施哪些操作，其中，模块间工作状态包括但不限于该模块向该其他模块传输数据、该模块接收该其他模块传输的数据、该模块向该其他模块供电、该模块接收该其他模块的供电、以及以上四种工作状态中的至少两种工作状态的组合，至少两个状态触点的作用是为了实现每个模块可以最多对应四种模块间工作状态，即每个模块当前可以处于该四种模块间工作状态中的其中一种模块间工作状态。例如，数据采集模块中的第一磁吸连接触点包括数据触点a1、数据触点a2、充电触点a3、充电触点a4、状态触点a5、状态触点a6，数据传输模块中的第二磁吸连接触点包括数据触点b1、数据触点b2、充电触点b3、充电触点b4、状态触点b5、状态触点b6，则将数据采集模块与数据传输模块建立触点连接的方式可以是将数据触点a1与数据触点b1连接在一起，将数据触点a2与数据触点b2连接在一起，将充电触点a3与充电触点b3连接在一起，将充电触点a4与充电触点b4连接在一起，将状态触点a5与状态触点b5连接在一起，将状态触点a6与状态触点b6连接在一起。In some embodiments, the magnetic connection contacts in each module further include at least two status contacts, and the status contacts are used to control the conversion of the inter-module working state between the module and other modules that have established contact connection with the module. In some embodiments, in addition to at least two data contacts and two charging contacts, the magnetic connection contacts in each module further include at least two status contacts, and the status contacts are used to control the conversion of the inter-module working state between the module and other modules that have established contact connection with the module. The inter-module working state is used to indicate the state of the connection between the module and the other modules, and to determine which functions the module can start and which operations it can perform. The inter-module working state includes but is not limited to the module transmitting data to the other modules, the module receiving data transmitted by the other modules, the module supplying power to the other modules, the module receiving power from the other modules, and a combination of at least two of the above four working states. The function of the at least two status contacts is to realize that each module can correspond to at most four inter-module working states, that is, each module can currently be in one of the four inter-module working states. For example, the first magnetic connection contacts in the data acquisition module include data contact a1, data contact a2, charging contact a3, charging contact a4, status contact a5, and status contact a6, and the second magnetic connection contacts in the data transmission module include data contact b1, data contact b2, charging contact b3, charging contact b4, status contact b5, and status contact b6. The way to establish a contact connection between the data acquisition module and the data transmission module can be to connect the data contact a1 with the data contact b1, connect the data contact a2 with the data contact b2, connect the charging contact a3 with the charging contact b3, connect the charging contact a4 with the charging contact b4, connect the status contact a5 with the status contact b5, and connect the status contact a6 with the status contact b6.

在一些实施例中，所述模块间工作状态包括以下至少一项：该模块向该其他模块传输数据；该模块接收该其他模块传输的数据；该模块向该其他模块供电；该模块接收该其他模块的供电。例如，第一模块与第二模块已建立触点连接，则第一模块中的磁吸连接触点中的至少两个状态触点用于指示第一模块对应的模块间工作状态，具体地，该模块间工作状态包括第一模块基于该触点连接(即该磁吸连接触点中的至少两个数据触点)向第二模块传输数据、第一模块接收第二模块基于该触点连接(即该磁吸连接触点中的至少两个数据触点)传输给自己的数据、第一模块基于该触点连接(即该磁吸连接触点中的至少两个充电触点)向第二模块供电、第一模块接收第二模块基于该触点连接(即该磁吸连接触点中的至少两个充电触点)提供给自己的电量。在一些实施例中，模块间工作状态还包括以上四种工作状态中的至少两种工作状态的组合。在一些实施例中，每个模块当前可以处于一种模块间工作状态，例如，第一模块当前在基于充电触点向第二模块供电，或者，每个模块还可以当前同时处于该四个模块间工作状态中的其中多个模块间工作状态，例如，第一模块可以在基于充电触点向第二模块供电的同时，接收第二模块基于数据触点传输给自己的数据。In some embodiments, the inter-module working state includes at least one of the following: the module transmits data to the other module; the module receives data transmitted by the other module; the module supplies power to the other module; the module receives power from the other module. For example, if the first module has established a contact connection with the second module, at least two state contacts in the magnetic connection contacts in the first module are used to indicate the inter-module working state corresponding to the first module. Specifically, the inter-module working state includes the first module transmitting data to the second module based on the contact connection (i.e., at least two data contacts in the magnetic connection contacts), the first module receiving data transmitted to itself by the second module based on the contact connection (i.e., at least two data contacts in the magnetic connection contacts), the first module supplying power to the second module based on the contact connection (i.e., at least two charging contacts in the magnetic connection contacts), and the first module receiving the power provided to itself by the second module based on the contact connection (i.e., at least two charging contacts in the magnetic connection contacts). In some embodiments, the inter-module working state also includes a combination of at least two of the above four working states. In some embodiments, each module may currently be in an inter-module working state, for example, the first module is currently supplying power to the second module based on the charging contacts, or each module may also currently be in multiple of the four inter-module working states at the same time, for example, the first module may receive data transmitted to itself by the second module based on the data contacts while supplying power to the second module based on the charging contacts.

在一些实施例中，数据采集模块对应4种模块间工作状态：In some embodiments, the data acquisition module corresponds to four inter-module working states:

1)没有连接其他模块，可以采集、存储心电数据；1) ECG data can be collected and stored without connecting to other modules;

2)连接数据传输模块，可以采集、存储心电数据，可以在数据采集模块和数据传输模块之间基于触点连接传输心电数据；2) Connecting to the data transmission module, the ECG data can be collected and stored, and the ECG data can be transmitted between the data collection module and the data transmission module based on the contact connection;

3)连接充电数据转换模块，可以采集、存储心电数据，可以在数据采集模块和充电数据转换模块之间基于触点连接传输心电数据；3) Connecting to the charging data conversion module, the ECG data can be collected and stored, and the ECG data can be transmitted between the data collection module and the charging data conversion module based on the contact connection;

4)连接数据传输模块，可以采集、存储心电数据，数据传输模块可以给数据采集模块充电。4) Connect the data transmission module to collect and store ECG data. The data transmission module can charge the data acquisition module.

在一些实施例中，数据传输模块对应4种模块间工作状态：In some embodiments, the data transmission module corresponds to four inter-module working states:

1)没有连接其他模块，没有功能；1) No connection to other modules, no function;

2)连接数据采集模块，可以采集、存储数据，可以接收数据采集模块基于触点连接传输的心电数据，可以基于无线传输协议将心电数据传输给数据处理展示模块；2) Connecting to the data acquisition module, it can collect and store data, can receive ECG data transmitted by the data acquisition module based on contact connection, and can transmit the ECG data to the data processing and display module based on the wireless transmission protocol;

3)连接数据采集模块、充电数据转换模块，充电数据转换模块可以给数据传输模块充电，数据传输模块可以给数据收集模块充电，可以接收数据采集模块基于触点连接传输的心电数据，可以基于无线传输协议将心电数据传输给数据处理展示模块，或者，可以在数据传输模块和充电数据转换模块之间基于触点连接传输心电数据；3) connecting the data acquisition module and the charging data conversion module, the charging data conversion module can charge the data transmission module, the data transmission module can charge the data collection module, can receive the ECG data transmitted by the data acquisition module based on the contact connection, can transmit the ECG data to the data processing and display module based on the wireless transmission protocol, or can transmit the ECG data between the data transmission module and the charging data conversion module based on the contact connection;

4)连接充电数据转换模块，充电数据转换模块可以给数据传输模块充电。4) Connect the charging data conversion module, which can charge the data transmission module.

在一些实施例中，数据传输模块对应4种模块间工作状态：In some embodiments, the data transmission module corresponds to four inter-module working states:

1)没有连接其他模块，没有功能；1) No connection to other modules, no function;

2)连接数据采集模块，可以给数据采集模块充电，或者，还可以同时接收数据采集模块基于触点连接传输的心电数据；2) Connecting to the data acquisition module, charging the data acquisition module, or simultaneously receiving the ECG data transmitted by the data acquisition module based on the contact connection;

3)连接数据传输模块(数据传输模块同时连接数据收集模块)，可以给数据传输模块充电，可以通过数据传输模块间接给数据收集模块充电，或者，还可以同时接收数据传输模块基于触点连接传输的心电数据；3) Connecting to the data transmission module (the data transmission module is also connected to the data collection module), the data transmission module can be charged, the data collection module can be indirectly charged through the data transmission module, or the ECG data transmitted by the data transmission module based on the contact connection can be simultaneously received;

4)连接数据传输模块，可以给数据传输模块充电。4) Connect the data transmission module to charge the data transmission module.

在一些实施例中，所述方法还包括：若所述数据采集模块与所述充电数据转换模块已通过所述第一磁吸连接触点及所述第三磁吸连接触点建立第二触点连接，且所述充电数据转换模块已通过所述有线传输单元与第一电源设备建立第一有线连接，通过所述充电数据转换模块基于所述第二触点连接给所述数据采集模块充电。在一些实施例中，数据采集模块与数据传输模块之间当前并未建立触点连接，数据采集模块与充电数据转换模块基于第一磁吸连接触点、第三磁吸连接触点建立触点连接，充电数据转换模块可以通过该触点连接单独为数据采集模块充电。在一些实施例中，如图9所示，充电座/盒模块(充电数据转换模块)与电源之间基于USB线建立有线连接，充电座/盒模块与数据采集模块之间建立触点连接，电源基于该有线连接将电量提供给充电座/盒模块，然后充电座/盒模块基于该触点连接(充电触点)将电量提供给数据采集模块。In some embodiments, the method further includes: if the data acquisition module and the charging data conversion module have established a second contact connection through the first magnetic connection contact and the third magnetic connection contact, and the charging data conversion module has established a first wired connection with the first power supply device through the wired transmission unit, the charging data conversion module is charged based on the second contact connection. In some embodiments, there is currently no contact connection between the data acquisition module and the data transmission module, and the data acquisition module and the charging data conversion module establish a contact connection based on the first magnetic connection contact and the third magnetic connection contact, and the charging data conversion module can charge the data acquisition module separately through the contact connection. In some embodiments, as shown in FIG9, a wired connection is established between the charging seat/box module (charging data conversion module) and the power supply based on a USB cable, and a contact connection is established between the charging seat/box module and the data acquisition module, and the power supply provides electricity to the charging seat/box module based on the wired connection, and then the charging seat/box module provides electricity to the data acquisition module based on the contact connection (charging contact).

在一些实施例中，所述第一电源设备为第一数据处理展示设备；其中，所述方法还包括：通过所述数据采集模块基于所述第二触点连接将所述心电数据发送给所述充电数据转换模块；通过所述充电数据转换模块基于所述第一有线连接将所述心电数据发送给所述第一数据处理展示设备。在一些实施例中，数据处理展示设备可以是智能手机、智能平板、PC等设备。在一些实施例中，数据处理展示设备对心电数据进行处理，得到可视化的心电数据，并向用户呈现该可视化的心电数据，或者，数据处理展示设备还可以将接收到的心电数据同步给对应的服务器，或者，数据处理展示设备还可以接收并呈现服务器发送的云端数据。在一些实施例，如图10所示，充电座/盒模块(充电数据转换模块)与电脑(数据处理展示设备)之间基于USB线建立有线连接，在充电座/盒模块在基于触点连接(充电触点)单独为数据采集模块充电的同时，数据采集模块基于该触点连接(数据触点)将采集到的心电数据发送给充电座/盒模块，然后充电座/盒模块基于该有线连接将该心电数据通过有线方式传输给电脑。In some embodiments, the first power supply device is a first data processing and display device; wherein the method further comprises: sending the ECG data to the charging data conversion module based on the second contact connection through the data acquisition module; sending the ECG data to the first data processing and display device based on the first wired connection through the charging data conversion module. In some embodiments, the data processing and display device may be a smart phone, a smart tablet, a PC or other device. In some embodiments, the data processing and display device processes the ECG data to obtain visualized ECG data and presents the visualized ECG data to the user, or the data processing and display device may also synchronize the received ECG data to the corresponding server, or the data processing and display device may also receive and present cloud data sent by the server. In some embodiments, as shown in FIG. 10 , a wired connection is established between the charging base/box module (charging data conversion module) and the computer (data processing and display device) based on a USB cable. While the charging base/box module charges the data acquisition module independently based on the contact connection (charging contact), the data acquisition module sends the collected ECG data to the charging base/box module based on the contact connection (data contact), and then the charging base/box module transmits the ECG data to the computer via a wired manner based on the wired connection.

在一些实施例中，所述方法还包括：若所述数据传输模块与所述充电数据转换模块已通过所述第二磁吸连接触点及所述第三磁吸连接触点建立第三触点连接，且所述充电数据转换模块已通过所述有线传输单元与第二电源设备建立第二有线连接，通过所述充电数据转换模块基于所述第三触点连接给所述数据传输模块充电。在一些实施例中，数据采集模块与数据传输模块之间当前并未建立触点连接，数据传输模块与充电数据转换模块基于第二磁吸连接触点、第三磁吸连接触点建立触点连接，充电数据转换模块可以通过该触点连接单独为数据传输模块充电。在一些实施例中，如图11所示，充电座/盒模块(充电数据转换模块)与电源之间基于USB线建立有线连接，充电座/盒模块与数据传输模块之间建立触点连接，电源基于该有线连接将电量提供给充电座/盒模块，然后充电座/盒模块基于该触点连接(充电触点)将电量提供给数据传输模块。In some embodiments, the method further includes: if the data transmission module and the charging data conversion module have established a third contact connection through the second magnetic connection contact and the third magnetic connection contact, and the charging data conversion module has established a second wired connection with the second power supply device through the wired transmission unit, the data transmission module is charged by the charging data conversion module based on the third contact connection. In some embodiments, no contact connection is currently established between the data acquisition module and the data transmission module, and the data transmission module and the charging data conversion module establish a contact connection based on the second magnetic connection contact and the third magnetic connection contact, and the charging data conversion module can charge the data transmission module separately through the contact connection. In some embodiments, as shown in FIG. 11, a wired connection is established between the charging cradle/box module (charging data conversion module) and the power supply based on a USB cable, and a contact connection is established between the charging cradle/box module and the data transmission module, and the power supply provides electricity to the charging cradle/box module based on the wired connection, and then the charging cradle/box module provides electricity to the data transmission module based on the contact connection (charging contact).

在一些实施例中，所述第二电源设备为第二数据处理展示设备；其中，所述方法还包括：通过所述数据传输模块基于所述第三触点连接将所述心电数据发送给所述充电数据转换模块；通过所述充电数据转换模块基于所述第二有线连接将所述心电数据发送给所述第二数据处理展示设备。在一些实施例中，若数据传输模块还包括存储器，数据传输模块会将数据收集模块传输给自己的心电数据暂时存储在该存储器中，并会在将该心电数据通过无线方式传输给数据处理展示模块之后，删除存储器中暂存的该心电数据。在一些实施例中，在充电座/盒模块(充电数据转换模块)在基于触点连接(充电触点)单独为数据传输模块充电的同时，数据传输模块基于该触点连接(数据触点)将存储器中暂存的心电数据发送给充电座/盒模块，然后充电座/盒模块基于该有线连接将该心电数据传输给数据处理展示设备。在一些实施例中，数据传输模块会在将该心电数据通过有线方式传输给处理处理展示设备之后，删除存储器中暂存的该心电数据。In some embodiments, the second power supply device is a second data processing display device; wherein the method further comprises: sending the ECG data to the charging data conversion module based on the third contact connection through the data transmission module; sending the ECG data to the second data processing display device through the charging data conversion module based on the second wired connection. In some embodiments, if the data transmission module also includes a memory, the data transmission module will temporarily store the ECG data transmitted by the data collection module to itself in the memory, and will delete the ECG data temporarily stored in the memory after transmitting the ECG data to the data processing display module by wireless means. In some embodiments, while the charging seat/box module (charging data conversion module) charges the data transmission module separately based on the contact connection (charging contact), the data transmission module sends the ECG data temporarily stored in the memory to the charging seat/box module based on the contact connection (data contact), and then the charging seat/box module transmits the ECG data to the data processing display device based on the wired connection. In some embodiments, the data transmission module will delete the ECG data temporarily stored in the memory after transmitting the ECG data to the data processing display device by wire.

在一些实施例中，所述数据传输模块还包括第四磁吸连接触点；其中，所述方法还包括：若所述数据传输模块与所述充电数据转换模块已通过所述第四磁吸连接触点及所述第三磁吸连接触点建立第四触点连接，且所述充电数据转换模块已通过所述有线传输单元与第三电源设备建立第三有线连接，通过所述充电数据转换模块基于所述第四触点连接给所述数据传输模块充电；若所述数据采集模块与所述数据传输模块已通过所述第一磁吸连接触点及所述第二磁吸连接触点建立第一触点连接，通过所述数据传输模块充电基于所述第一触点连接给所述数据采集模块充电。在一些实施例中，数据传输模块还包括第四磁吸连接触点，第四磁吸连接触点同样包括至少两个数据触点、至少两个充电触点、至少两个状态触点。在一些实施例中，在数据采集模块与数据传输模块当前已通过第一磁吸连接触点及第二磁吸连接触点建立第一触点连接的同时，数据传输模块与充电数据转换模块通过第四磁吸连接触点及第三磁吸连接触点建立第四触点连接，充电数据转换模块可以在通过该第四触点连接为数据传输模块充电的同时，通过该第一触点连接为数据采集模块间接充电。在一些实施例中，如图12所示，充电座/盒模块(充电数据转换模块)与电源之间基于USB线建立有线连接，充电座/盒模块与数据传输模块之间建立第四触点连接，数据采集模块与数据传输模块之间建立第一触点连接，电源基于该有线连接将电量提供给充电座/盒模块，然后充电座/盒模块基于该第四触点连接(充电触点)将电量提供给数据传输模块，然后数据传输模块基于该第一触点连接(充电触点)将电量间接提供给数据收集模块。在一些实施例中，在充电数据转换模块同时给数据传输模块和数据采集模块充电的时候，数据采集模块还可以同时将采集到的心电数据基于该第一触点连接(数据触点)传输给数据传输模块。在一些实施例中，若数据传输模块当前已通过无线传输单元与数据处理展示模块建立无线连接，则数据传输模块还可以同时将该心电数据基于该无线连接发送给数据处理展示模块。In some embodiments, the data transmission module further includes a fourth magnetic connection contact; wherein the method further includes: if the data transmission module and the charging data conversion module have established a fourth contact connection through the fourth magnetic connection contact and the third magnetic connection contact, and the charging data conversion module has established a third wired connection with the third power supply device through the wired transmission unit, charging the data transmission module based on the fourth contact connection through the charging data conversion module; if the data acquisition module and the data transmission module have established a first contact connection through the first magnetic connection contact and the second magnetic connection contact, charging the data acquisition module based on the first contact connection through the data transmission module. In some embodiments, the data transmission module further includes a fourth magnetic connection contact, and the fourth magnetic connection contact also includes at least two data contacts, at least two charging contacts, and at least two status contacts. In some embodiments, while the data acquisition module and the data transmission module have currently established a first contact connection through the first magnetic connection contact and the second magnetic connection contact, the data transmission module and the charging data conversion module establish a fourth contact connection through the fourth magnetic connection contact and the third magnetic connection contact, and the charging data conversion module can charge the data transmission module through the fourth contact connection while indirectly charging the data acquisition module through the first contact connection. In some embodiments, as shown in FIG12 , a wired connection is established between the charging seat/box module (charging data conversion module) and the power supply based on a USB cable, a fourth contact connection is established between the charging seat/box module and the data transmission module, and a first contact connection is established between the data acquisition module and the data transmission module, the power supply provides the power to the charging seat/box module based on the wired connection, and then the charging seat/box module provides the power to the data transmission module based on the fourth contact connection (charging contact), and then the data transmission module indirectly provides the power to the data collection module based on the first contact connection (charging contact). In some embodiments, when the charging data conversion module charges the data transmission module and the data acquisition module at the same time, the data acquisition module can also simultaneously transmit the collected ECG data to the data transmission module based on the first contact connection (data contact). In some embodiments, if the data transmission module has currently established a wireless connection with the data processing and display module through the wireless transmission unit, the data transmission module can also simultaneously send the ECG data to the data processing and display module based on the wireless connection.

在一些实施例中，所述第三电源设备为第三数据处理展示设备；其中，所述方法还包括：通过所述数据传输模块基于所述第四触点连接将所述心电数据发送给所述充电数据转换模块；通过所述充电数据转换模块基于所述第三有线连接将所述心电数据发送给所述第三数据处理展示设备。在一些实施例中，数据传输模块当前未并与数据处理展示模块建立无线连接，则数据传输模块在接收到数据采集模块基于该第一触点连接(数据触点)传输给自己的心电数据后，还可以基于该第四触点连接(数据触点)将该心电数据传输给充电数据转换模块，然后充电数据转换模块通过有线方式将该心电数据传输给数据处理展示设备。在一些实施例中，如图13所示，充电座/盒模块(充电数据转换模块)与电脑(数据处理展示设备)之间基于USB线建立有线连接，充电座/盒模块与数据传输模块之间建立第四触点连接，数据采集模块与数据传输模块之间建立第一触点连接，在充电数据转换模块同时给数据传输模块和数据采集模块充电的时候，数据采集模块还可以同时将采集到的心电数据基于该第一触点连接(数据触点)传输给数据传输模块，然后数据传输模块基于该第四触点连接(数据触点)将该心电数据传输给充电座/盒模块，充电座/盒模块基于该有线连接将该心电数据通过有线方式传输给电脑。In some embodiments, the third power supply device is a third data processing display device; wherein the method further comprises: sending the ECG data to the charging data conversion module based on the fourth contact connection through the data transmission module; sending the ECG data to the third data processing display device through the charging data conversion module based on the third wired connection. In some embodiments, the data transmission module is not currently connected wirelessly with the data processing display module, then after receiving the ECG data transmitted to itself by the data acquisition module based on the first contact connection (data contact), the data transmission module can also transmit the ECG data to the charging data conversion module based on the fourth contact connection (data contact), and then the charging data conversion module transmits the ECG data to the data processing display device via a wired manner. In some embodiments, as shown in FIG13 , a wired connection is established between the charging seat/box module (charging data conversion module) and the computer (data processing display device) based on a USB cable, a fourth contact connection is established between the charging seat/box module and the data transmission module, and a first contact connection is established between the data acquisition module and the data transmission module. When the charging data conversion module charges the data transmission module and the data acquisition module at the same time, the data acquisition module can also simultaneously transmit the collected ECG data to the data transmission module based on the first contact connection (data contact), and then the data transmission module transmits the ECG data to the charging seat/box module based on the fourth contact connection (data contact), and the charging seat/box module transmits the ECG data to the computer via a wired manner based on the wired connection.

图2示出根据本申请一个实施例的一种用于呈现心电数据的心电监测设备结构图，所述心电监测设备包括数据采集模块、数据传输模块、数据处理展示模块，所述数据采集模块包括第一磁吸连接触点，所述数据传输模块包括第二磁吸连接触点，所述数据传输模块包括无线传输单元，所述数据采集模块用于采集用户的心电数据；若所述数据采集模块与所述数据传输模块已通过所述第一磁吸连接触点及所述第二磁吸连接触点建立第一触点连接，所述数据采集模块用于基于所述第一触点连接将所述心电数据发送给所述数据传输模块；若所述数据传输模块已通过所述无线传输单元与所述数据处理展示模块建立第一无线连接，所述数据传输模块用于基于所述第一无线连接将所述心电数据发送给所述数据处理展示模块；所述数据处理展示模块用于对所述心电数据进行处理，向所述用户呈现处理后的心电数据。Figure 2 shows a structural diagram of an ECG monitoring device for presenting ECG data according to an embodiment of the present application, wherein the ECG monitoring device includes a data acquisition module, a data transmission module, and a data processing and display module, wherein the data acquisition module includes a first magnetic connection contact, the data transmission module includes a second magnetic connection contact, and the data transmission module includes a wireless transmission unit, and the data acquisition module is used to collect the ECG data of the user; if the data acquisition module and the data transmission module have established a first contact connection through the first magnetic connection contact and the second magnetic connection contact, the data acquisition module is used to send the ECG data to the data transmission module based on the first contact connection; if the data transmission module has established a first wireless connection with the data processing and display module through the wireless transmission unit, the data transmission module is used to send the ECG data to the data processing and display module based on the first wireless connection; the data processing and display module is used to process the ECG data and present the processed ECG data to the user.

所述数据采集模块用于采集用户的心电数据。在一些实施例中，心电监测设备为监测用户的心电数据的设备。在一些实施例中，心电监测设备包括数据采集模块、数据传输模块、数据处理展示模块，这三个模块是互相独立、互相分离的，数据采集模块主要负责采集用户的心电数据并进行存储，数据传输模块主要负责心电数据的传输，数据处理展示模块主要负责心电数据的接收、处理和展示，以及和云端数据的交互展示等。在一些实施例中，如图3所示，数据采集模块进行心电数据的采集和存储。在一些实施例中，如图4所示，数据采集模块主要由心电电极贴片、心电采集芯片、存储器、LED指示灯、处理器、电源开关、电源管理芯片、锂电池、充电触点/数据触点(磁吸连接触点)构成。在一些实施例中，磁吸连接触点又叫磁铁式连接器、磁吸连接器、磁力连接器或磁性连接器，广泛应用于电子设备上的连接器之一，主要是pogopin(弹簧针)与磁铁组成的连接器，通过磁铁与磁铁接触对吸的结构设计，提供一种吸附力度大，适于小尺寸结构和轻薄产品的连接器，pogopin是一种应用于手机等电子产品中的精密连接器，广泛应用于半导体设备中，起连接作用，pogopin是一种由针轴、弹簧、针管三个基本部件通过精密仪器铆压预压之后形成的弹簧式探针，其内部有一个精密的弹簧结构。在一些实施例中，两个设备通过磁吸连接触点建立触点连接，一方面可以基于该触点连接完成该两个设备之间数据传输的功能，另一方面还可以基于该触点连接完成该两个设备之间单向充电的功能。在一些实施例中，数据采集模块通过心电电极片跟心电采集芯片完成心电数据的采集功能，通过处理器跟存储器完成心电数据的存储功能，例如，心电采集芯片通过心电电极片采集用户的心电数据并将其发送给处理器，然后，处理器会将该心电数据存储在存储器中。The data acquisition module is used to collect the user's ECG data. In some embodiments, the ECG monitoring device is a device for monitoring the user's ECG data. In some embodiments, the ECG monitoring device includes a data acquisition module, a data transmission module, and a data processing and display module. These three modules are independent and separate from each other. The data acquisition module is mainly responsible for collecting and storing the user's ECG data, the data transmission module is mainly responsible for the transmission of ECG data, and the data processing and display module is mainly responsible for the reception, processing and display of ECG data, as well as the interactive display with cloud data, etc. In some embodiments, as shown in Figure 3, the data acquisition module collects and stores ECG data. In some embodiments, as shown in Figure 4, the data acquisition module is mainly composed of ECG electrode patches, ECG acquisition chips, memory, LED indicator lights, processors, power switches, power management chips, lithium batteries, charging contacts/data contacts (magnetic connection contacts). In some embodiments, the magnetic connection contact is also called a magnet connector, a magnetic connector, a magnetic connector or a magnetic connector. It is one of the connectors widely used in electronic devices. It is mainly a connector composed of a pogo pin (spring pin) and a magnet. Through the structural design of the magnet and the magnet contact and attraction, a connector with a large adsorption force suitable for small-sized structures and thin products is provided. Pogo pin is a precision connector used in electronic products such as mobile phones. It is widely used in semiconductor devices and plays a connecting role. Pogo pin is a spring-type probe formed by three basic components, a needle shaft, a spring, and a needle tube, which are pre-pressed by a precision instrument riveting. There is a precision spring structure inside. In some embodiments, two devices establish a contact connection through a magnetic connection contact. On the one hand, the function of data transmission between the two devices can be completed based on the contact connection. On the other hand, the function of unidirectional charging between the two devices can also be completed based on the contact connection. In some embodiments, the data acquisition module completes the acquisition function of ECG data through ECG electrodes and ECG acquisition chips, and completes the storage function of ECG data through processors and memory. For example, the ECG acquisition chip collects the user's ECG data through the ECG electrodes and sends it to the processor, and then the processor stores the ECG data in the memory.

若所述数据采集模块与所述数据传输模块已通过所述第一磁吸连接触点及所述第二磁吸连接触点建立第一触点连接，所述数据采集模块用于基于所述第一触点连接将所述心电数据发送给所述数据传输模块。在一些实施例中，数据采集模块包括第一磁吸连接触点，数据传输模块包括第二磁吸连接触点，通过将数据采集模块上的第一磁吸连接触点(充电触点/数据触点)与数据传输模块上的第二磁吸连接触点(充电触点/数据触点)进行连接，即建立第一触点连接，使得数据采集模块可以将采集到的心电数据或已存储的心电数据基于已建立的第一触点连接(数据触点)发送给数据传输模块，例如，心电采集芯片将心电电极片采集到的用户心电数据发送给处理器，处理器将该心电数据基于第一触点连接发送给数据传输模块，或者，处理器将存储器中已存储的心电数据基于第一触点连接发送给数据传输模块。在一些实施例中，如图5所示，数据传输模块连接在数据采集模块上，数据模块模块将采集到的心电数据或已存储的心电数据传输给数据传输模块。If the data acquisition module and the data transmission module have established a first contact connection through the first magnetic connection contact and the second magnetic connection contact, the data acquisition module is used to send the ECG data to the data transmission module based on the first contact connection. In some embodiments, the data acquisition module includes a first magnetic connection contact, and the data transmission module includes a second magnetic connection contact. By connecting the first magnetic connection contact (charging contact/data contact) on the data acquisition module with the second magnetic connection contact (charging contact/data contact) on the data transmission module, a first contact connection is established, so that the data acquisition module can send the collected ECG data or the stored ECG data to the data transmission module based on the established first contact connection (data contact). For example, the ECG acquisition chip sends the user's ECG data collected by the ECG electrode sheet to the processor, and the processor sends the ECG data to the data transmission module based on the first contact connection, or the processor sends the ECG data stored in the memory to the data transmission module based on the first contact connection. In some embodiments, as shown in Figure 5, the data transmission module is connected to the data acquisition module, and the data module module transmits the collected ECG data or the stored ECG data to the data transmission module.

若所述数据传输模块已通过所述无线传输单元与所述数据处理展示模块建立第一无线连接，所述数据传输模块用于基于所述第一无线连接将所述心电数据发送给所述数据处理展示模块。在一些实施例中，数据传输模块包括无线传输单元，数据传输模块通过该无线传输单元建立与数据处理展示模块的无线连接，并基于该无线连接将心电数据发送给数据处理展示模块。在一些实施例中，无线传输单元包括但不限于无线传输芯片、无线传输天线等。在一些实施例中，如图6所示，数据传输模块主要由无线传输天线、无线传输芯片、LED指示灯、处理器、电源开关、电源管理芯片、锂电池、充电触点/数据触点(磁吸连接触点)构成。在一些实施例中，数据传输模块中的处理器接收数据采集模块基于第一触点连接发送给数据传输模块的心电数据，并将该心电数据发送给无线传输芯片，无线传输芯片将该心电数据通过无线传输天线发送给已与数据传输模块建立无线连接的数据处理展示模块。在一些实施例中，如图7所示，数据传输模块连接在数据采集模块上，数据模块模块将采集到的心电数据或已存储的心电数据传输给数据传输模块，数据传输模块与数据处理展示模块之间已建立无线连接，数据传输模块通过无线方式将该心电数据传输给数据处理展示模块。If the data transmission module has established a first wireless connection with the data processing display module through the wireless transmission unit, the data transmission module is used to send the ECG data to the data processing display module based on the first wireless connection. In some embodiments, the data transmission module includes a wireless transmission unit, through which the data transmission module establishes a wireless connection with the data processing display module, and sends the ECG data to the data processing display module based on the wireless connection. In some embodiments, the wireless transmission unit includes but is not limited to a wireless transmission chip, a wireless transmission antenna, and the like. In some embodiments, as shown in FIG6 , the data transmission module is mainly composed of a wireless transmission antenna, a wireless transmission chip, an LED indicator light, a processor, a power switch, a power management chip, a lithium battery, and a charging contact/data contact (magnetic connection contact). In some embodiments, the processor in the data transmission module receives the ECG data sent to the data transmission module by the data acquisition module based on the first contact connection, and sends the ECG data to the wireless transmission chip, which sends the ECG data to the data processing display module that has established a wireless connection with the data transmission module through the wireless transmission antenna. In some embodiments, as shown in Figure 7, the data transmission module is connected to the data acquisition module, the data acquisition module transmits the collected ECG data or the stored ECG data to the data transmission module, a wireless connection is established between the data transmission module and the data processing and display module, and the data transmission module transmits the ECG data to the data processing and display module wirelessly.

所述数据处理展示模块用于对所述心电数据进行处理，向所述用户呈现处理后的心电数据。在一些实施例中，数据处理展示模块通常由智能手机、智能平板、PC等设备实现，或者，也可以由设计开发的专有设备实现。在一些实施例中，数据处理展示模块对心电数据进行处理，得到可视化的心电数据，并向用户呈现该可视化的心电数据。在一些实施例中，数据处理展示模块还可以将接收到的心电数据同步给对应的服务器。在一些实施例中，数据处理展示模块还可以接收并呈现服务器发送的云端数据。本申请通过提供一种模块化心电监测设备，将数据采集和数据传输分离，数据传输独立成模块装置，数据采集模块和数据传输模块通过磁吸连接触点连接，数据采集模块在需要实时显示分析数据的时候连接数据传输模块，数据传输模块一方面起到数据传输的功能，另一方面也起到供电的功能，很好的缩小了心电采监测装置的体积和重量，提高了佩戴体验，同时也解决了数据展示和分析时需要的数据传输需求，数据传输的时候使用数据传输模块给数据采集模块供电，延长了数据采集模块的使用时长，更好地提高了用户体验。The data processing and display module is used to process the ECG data and present the processed ECG data to the user. In some embodiments, the data processing and display module is usually implemented by a smart phone, a smart tablet, a PC and other devices, or it can also be implemented by a designed and developed proprietary device. In some embodiments, the data processing and display module processes the ECG data to obtain visualized ECG data and presents the visualized ECG data to the user. In some embodiments, the data processing and display module can also synchronize the received ECG data to the corresponding server. In some embodiments, the data processing and display module can also receive and present the cloud data sent by the server. The present application provides a modular ECG monitoring device, separates data acquisition and data transmission, and the data transmission is independently formed into a module device. The data acquisition module and the data transmission module are connected by magnetic connection contacts. The data acquisition module is connected to the data transmission module when the real-time display and analysis data are required. The data transmission module plays the function of data transmission on the one hand and the power supply function on the other hand, which greatly reduces the volume and weight of the ECG monitoring device, improves the wearing experience, and also solves the data transmission requirements required for data display and analysis. When data is transmitted, the data transmission module is used to power the data acquisition module, which prolongs the use time of the data acquisition module and better improves the user experience.

在一些实施例中，所述数据采集模块、所述数据传输模块中的每个模块中的磁吸连接触点包括至少两个数据触点。在此，相关操作与图1所示实施例相同或相近，故不再赘述，在此以引用方式包含于此。In some embodiments, the magnetic connection contacts in each of the data acquisition module and the data transmission module include at least two data contacts. Here, the relevant operations are the same or similar to those in the embodiment shown in FIG. 1 , so they are not described again and are included here by reference.

在一些实施例中，所述心电监测设备还包括充电数据转换模块，所述充电数据转换模块包括第三磁吸连接触点，所述充电数据转换模块包括有线传输单元。在此，相关操作与图1所示实施例相同或相近，故不再赘述，在此以引用方式包含于此。In some embodiments, the ECG monitoring device further comprises a charging data conversion module, the charging data conversion module comprises a third magnetic connection contact, and the charging data conversion module comprises a wired transmission unit. Here, the relevant operations are the same or similar to those in the embodiment shown in FIG1 , so they are not described in detail and are incorporated herein by reference.

在一些实施例中，所述数据采集模块、所述数据传输模块、所述充电数据转换模块中的每个模块中的磁吸连接触点包括至少两个数据触点、至少两个充电触点。在此，相关操作与图1所示实施例相同或相近，故不再赘述，在此以引用方式包含于此。In some embodiments, the magnetic connection contacts in each of the data acquisition module, the data transmission module, and the charging data conversion module include at least two data contacts and at least two charging contacts. Here, the relevant operations are the same or similar to those in the embodiment shown in FIG. 1 , so they are not described in detail and are included here by reference.

在一些实施例中，所述每个模块中的磁吸连接触点还包括至少两个状态触点，所述状态触点用于控制该模块、与该模块已建立触点连接的其他模块之间的模块间工作状态的转换。在此，相关操作与图1所示实施例相同或相近，故不再赘述，在此以引用方式包含于此。In some embodiments, the magnetic connection contacts in each module further include at least two status contacts, and the status contacts are used to control the conversion of the inter-module working state between the module and other modules that have established contact connection with the module. Here, the relevant operations are the same or similar to the embodiment shown in FIG1, so they are not repeated here and are included here by reference.

在一些实施例中，所述模块间工作状态包括以下至少一项：该模块向该其他模块传输数据；该模块接收该其他模块传输的数据；该模块向该其他模块供电；该模块接收该其他模块的供电。在此，相关操作与图1所示实施例相同或相近，故不再赘述，在此以引用方式包含于此。In some embodiments, the inter-module working state includes at least one of the following: the module transmits data to the other module; the module receives data transmitted by the other module; the module supplies power to the other module; the module receives power from the other module. Here, the relevant operations are the same or similar to those in the embodiment shown in FIG1 , so they are not described in detail and are included here by reference.

在一些实施例中，数据采集模块对应4种模块间工作状态：In some embodiments, the data acquisition module corresponds to four inter-module working states:

1)没有连接其他模块，可以采集、存储心电数据；1) ECG data can be collected and stored without connecting to other modules;

2)连接数据传输模块，可以采集、存储心电数据，可以在数据采集模块和数据传输模块之间基于触点连接传输心电数据；2) Connecting to the data transmission module, the ECG data can be collected and stored, and the ECG data can be transmitted between the data collection module and the data transmission module based on the contact connection;

3)连接充电数据转换模块，可以采集、存储心电数据，可以在数据采集模块和充电数据转换模块之间基于触点连接传输心电数据；3) Connecting to the charging data conversion module, the ECG data can be collected and stored, and the ECG data can be transmitted between the data collection module and the charging data conversion module based on the contact connection;

4)连接数据传输模块，可以采集、存储心电数据，数据传输模块可以给数据采集模块充电。4) Connect the data transmission module to collect and store ECG data. The data transmission module can charge the data acquisition module.

在一些实施例中，数据传输模块对应4种模块间工作状态：In some embodiments, the data transmission module corresponds to four inter-module working states:

1)没有连接其他模块，没有功能；1) No connection to other modules, no function;

2)连接数据采集模块，可以采集、存储数据，可以接收数据采集模块基于触点连接传输的心电数据，可以基于无线传输协议将心电数据传输给数据处理展示模块；2) Connecting to the data acquisition module, it can collect and store data, can receive ECG data transmitted by the data acquisition module based on contact connection, and can transmit the ECG data to the data processing and display module based on the wireless transmission protocol;

3)连接数据采集模块、充电数据转换模块，充电数据转换模块可以给数据传输模块充电，数据传输模块可以给数据收集模块充电，可以接收数据采集模块基于触点连接传输的心电数据，可以基于无线传输协议将心电数据传输给数据处理展示模块，或者，可以在数据传输模块和充电数据转换模块之间基于触点连接传输心电数据；3) connecting the data acquisition module and the charging data conversion module, the charging data conversion module can charge the data transmission module, the data transmission module can charge the data collection module, can receive the ECG data transmitted by the data acquisition module based on the contact connection, can transmit the ECG data to the data processing and display module based on the wireless transmission protocol, or can transmit the ECG data between the data transmission module and the charging data conversion module based on the contact connection;

4)连接充电数据转换模块，充电数据转换模块可以给数据传输模块充电。4) Connect the charging data conversion module, which can charge the data transmission module.

在一些实施例中，数据传输模块对应4种模块间工作状态：In some embodiments, the data transmission module corresponds to four inter-module working states:

1)没有连接其他模块，没有功能；1) No connection to other modules, no function;

2)连接数据采集模块，可以给数据采集模块充电，或者，还可以同时接收数据采集模块基于触点连接传输的心电数据；2) Connecting to the data acquisition module, charging the data acquisition module, or simultaneously receiving the ECG data transmitted by the data acquisition module based on the contact connection;

3)连接数据传输模块(数据传输模块同时连接数据收集模块)，可以给数据传输模块充电，可以通过数据传输模块间接给数据收集模块充电，或者，还可以同时接收数据传输模块基于触点连接传输的心电数据；3) Connecting to the data transmission module (the data transmission module is also connected to the data collection module), the data transmission module can be charged, the data collection module can be indirectly charged through the data transmission module, or the ECG data transmitted by the data transmission module based on the contact connection can be simultaneously received;

4)连接数据传输模块，可以给数据传输模块充电。4) Connect the data transmission module to charge the data transmission module.

在一些实施例中，所述设备还用于：若所述数据采集模块与所述充电数据转换模块已通过所述第一磁吸连接触点及所述第三磁吸连接触点建立第二触点连接，且所述充电数据转换模块已通过所述有线传输单元与第一电源设备建立第一有线连接，通过所述充电数据转换模块基于所述第二触点连接给所述数据采集模块充电。在此，相关操作与图1所示实施例相同或相近，故不再赘述，在此以引用方式包含于此。In some embodiments, the device is further used for: if the data acquisition module and the charging data conversion module have established a second contact connection through the first magnetic connection contact and the third magnetic connection contact, and the charging data conversion module has established a first wired connection with the first power supply device through the wired transmission unit, charging the data acquisition module through the charging data conversion module based on the second contact connection. Here, the relevant operations are the same or similar to those in the embodiment shown in FIG1, so they are not repeated here and are included here by reference.

在一些实施例中，所述第一电源设备为第一数据处理展示设备；其中，所述方法还包括：通过所述数据采集模块基于所述第二触点连接将所述心电数据发送给所述充电数据转换模块；通过所述充电数据转换模块基于所述第一有线连接将所述心电数据发送给所述第一数据处理展示设备。在此，相关操作与图1所示实施例相同或相近，故不再赘述，在此以引用方式包含于此。In some embodiments, the first power supply device is a first data processing display device; wherein the method further comprises: sending the ECG data to the charging data conversion module based on the second contact connection through the data acquisition module; sending the ECG data to the first data processing display device based on the first wired connection through the charging data conversion module. Here, the relevant operations are the same or similar to those in the embodiment shown in FIG1 , so they are not described again and are included here by reference.

在一些实施例中，所述设备还用于：若所述数据传输模块与所述充电数据转换模块已通过所述第二磁吸连接触点及所述第三磁吸连接触点建立第三触点连接，且所述充电数据转换模块已通过所述有线传输单元与第二电源设备建立第二有线连接，通过所述充电数据转换模块基于所述第三触点连接给所述数据传输模块充电。在此，相关操作与图1所示实施例相同或相近，故不再赘述，在此以引用方式包含于此。In some embodiments, the device is further used for: if the data transmission module and the charging data conversion module have established a third contact connection through the second magnetic connection contact and the third magnetic connection contact, and the charging data conversion module has established a second wired connection with the second power supply device through the wired transmission unit, charging the data transmission module through the charging data conversion module based on the third contact connection. Here, the relevant operations are the same or similar to the embodiment shown in FIG1, so they are not repeated here and are included here by reference.

在一些实施例中，所述第二电源设备为第二数据处理展示设备；其中，所述设备还用于：通过所述数据传输模块基于所述第三触点连接将所述心电数据发送给所述充电数据转换模块；通过所述充电数据转换模块基于所述第二有线连接将所述心电数据发送给所述第二数据处理展示设备。在此，相关操作与图1所示实施例相同或相近，故不再赘述，在此以引用方式包含于此。In some embodiments, the second power supply device is a second data processing display device; wherein the device is further used to: send the ECG data to the charging data conversion module based on the third contact connection through the data transmission module; send the ECG data to the second data processing display device through the charging data conversion module based on the second wired connection. Here, the relevant operations are the same or similar to those in the embodiment shown in FIG1, so they are not repeated here and are included here by reference.

在一些实施例中，所述数据传输模块还包括第四磁吸连接触点；其中，所述设备还用于：若所述数据传输模块与所述充电数据转换模块已通过所述第四磁吸连接触点及所述第三磁吸连接触点建立第四触点连接，且所述充电数据转换模块已通过所述有线传输单元与第三电源设备建立第三有线连接，通过所述充电数据转换模块基于所述第四触点连接给所述数据传输模块充电；若所述数据采集模块与所述数据传输模块已通过所述第一磁吸连接触点及所述第二磁吸连接触点建立第一触点连接，通过所述数据传输模块充电基于所述第一触点连接给所述数据采集模块充电。在此，相关操作与图1所示实施例相同或相近，故不再赘述，在此以引用方式包含于此。In some embodiments, the data transmission module further includes a fourth magnetic connection contact; wherein the device is further used for: if the data transmission module and the charging data conversion module have established a fourth contact connection through the fourth magnetic connection contact and the third magnetic connection contact, and the charging data conversion module has established a third wired connection with the third power supply device through the wired transmission unit, charging the data transmission module based on the fourth contact connection through the charging data conversion module; if the data acquisition module and the data transmission module have established a first contact connection through the first magnetic connection contact and the second magnetic connection contact, charging the data acquisition module based on the first contact connection through the data transmission module. Here, the relevant operations are the same or similar to those in the embodiment shown in FIG. 1, so they are not repeated here and are included here by reference.

在一些实施例中，所述第三电源设备为第三数据处理展示设备；其中，所述设备还用于：通过所述数据传输模块基于所述第四触点连接将所述心电数据发送给所述充电数据转换模块；通过所述充电数据转换模块基于所述第三有线连接将所述心电数据发送给所述第三数据处理展示设备。在此，相关操作与图1所示实施例相同或相近，故不再赘述，在此以引用方式包含于此。In some embodiments, the third power supply device is a third data processing display device; wherein the device is further used to: send the ECG data to the charging data conversion module based on the fourth contact connection through the data transmission module; send the ECG data to the third data processing display device through the charging data conversion module based on the third wired connection. Here, the relevant operations are the same or similar to those in the embodiment shown in FIG. 1, so they are not repeated here and are included here by reference.

除上述各实施例介绍的方法和设备外，本申请还提供了一种计算机可读存储介质，所述计算机可读存储介质存储有计算机代码，当所述计算机代码被执行时，如前任一项所述的方法被执行。In addition to the methods and devices described in the above embodiments, the present application also provides a computer-readable storage medium, which stores computer code. When the computer code is executed, the method described in any of the preceding items is executed.

本申请还提供了一种计算机程序产品，当所述计算机程序产品被计算机设备执行时，如前任一项所述的方法被执行。The present application also provides a computer program product. When the computer program product is executed by a computer device, the method described in any of the preceding items is executed.

本申请还提供了一种计算机设备，所述计算机设备包括：The present application also provides a computer device, the computer device comprising:

一个或多个处理器；one or more processors;

存储器，用于存储一个或多个计算机程序；a memory for storing one or more computer programs;

当所述一个或多个计算机程序被所述一个或多个处理器执行时，使得所述一个或多个处理器实现如前任一项所述的方法。When the one or more computer programs are executed by the one or more processors, the one or more processors are caused to implement the method as described in any of the preceding items.

图14示出了可被用于实施本申请中所述的各个实施例的示例性系统；FIG. 14 illustrates an exemplary system that can be used to implement various embodiments described herein;

如图14所示在一些实施例中，系统300能够作为各所述实施例中的任意一个设备。在一些实施例中，系统300可包括具有指令的一个或多个计算机可读介质(例如，系统存储器或NVM/存储设备320)以及与该一个或多个计算机可读介质耦合并被配置为执行指令以实现模块从而执行本申请中所述的动作的一个或多个处理器(例如，(一个或多个)处理器305)。As shown in FIG14, in some embodiments, the system 300 can be used as any of the devices in the various embodiments described. In some embodiments, the system 300 may include one or more computer-readable media (e.g., system memory or NVM/storage device 320) with instructions and one or more processors (e.g., (one or more) processors 305) coupled to the one or more computer-readable media and configured to execute instructions to implement modules to perform the actions described in this application.

对于一个实施例，系统控制模块310可包括任意适当的接口控制器，以向(一个或多个)处理器305中的至少一个和/或与系统控制模块310通信的任意适当的设备或组件提供任意适当的接口。For one embodiment, system control module 310 may include any suitable interface controller to provide any suitable interface to at least one of processor(s) 305 and/or any suitable device or component in communication with system control module 310 .

系统控制模块310可包括存储器控制器模块330，以向系统存储器315提供接口。存储器控制器模块330可以是硬件模块、软件模块和/或固件模块。The system control module 310 may include a memory controller module 330 to provide an interface to the system memory 315. The memory controller module 330 may be a hardware module, a software module, and/or a firmware module.

系统存储器315可被用于例如为系统300加载和存储数据和/或指令。对于一个实施例，系统存储器315可包括任意适当的易失性存储器，例如，适当的DRAM。在一些实施例中，系统存储器315可包括双倍数据速率类型四同步动态随机存取存储器(DDR4SDRAM)。The system memory 315 may be used, for example, to load and store data and/or instructions for the system 300. For one embodiment, the system memory 315 may include any suitable volatile memory, such as a suitable DRAM. In some embodiments, the system memory 315 may include double data rate type four synchronous dynamic random access memory (DDR4 SDRAM).

对于一个实施例，系统控制模块310可包括一个或多个输入/输出(I/O)控制器，以向NVM/存储设备320及(一个或多个)通信接口325提供接口。For one embodiment, system control module 310 may include one or more input/output (I/O) controllers to provide interfaces to NVM/storage device 320 and communication interface(s) 325 .

例如，NVM/存储设备320可被用于存储数据和/或指令。NVM/存储设备320可包括任意适当的非易失性存储器(例如，闪存)和/或可包括任意适当的(一个或多个)非易失性存储设备(例如，一个或多个硬盘驱动器(HDD)、一个或多个光盘(CD)驱动器和/或一个或多个数字通用光盘(DVD)驱动器)。For example, NVM/storage device 320 may be used to store data and/or instructions. NVM/storage device 320 may include any suitable non-volatile memory (e.g., flash memory) and/or may include any suitable non-volatile storage device(s) (e.g., one or more hard disk drives (HDDs), one or more compact disk (CD) drives, and/or one or more digital versatile disk (DVD) drives).

NVM/存储设备320可包括在物理上作为系统300被安装在其上的设备的一部分的存储资源，或者其可被该设备访问而不必作为该设备的一部分。例如，NVM/存储设备320可通过网络经由(一个或多个)通信接口325进行访问。NVM/storage device 320 may include storage resources that are physically part of the device on which system 300 is installed, or it may be accessible to the device without being part of the device. For example, NVM/storage device 320 may be accessed over a network via communication interface(s) 325.

(一个或多个)通信接口325可为系统300提供接口以通过一个或多个网络和/或与任意其他适当的设备通信。系统300可根据一个或多个无线网络标准和/或协议中的任意标准和/或协议来与无线网络的一个或多个组件进行无线通信。Communication interface(s) 325 may provide an interface for system 300 to communicate over one or more networks and/or with any other suitable devices. System 300 may wirelessly communicate with one or more components of a wireless network in accordance with any of one or more wireless network standards and/or protocols.

对于一个实施例，(一个或多个)处理器305中的至少一个可与系统控制模块310的一个或多个控制器(例如，存储器控制器模块330)的逻辑封装在一起。对于一个实施例，(一个或多个)处理器305中的至少一个可与系统控制模块310的一个或多个控制器的逻辑封装在一起以形成系统级封装(SiP)。对于一个实施例，(一个或多个)处理器305中的至少一个可与系统控制模块310的一个或多个控制器的逻辑集成在同一模具上。对于一个实施例，(一个或多个)处理器305中的至少一个可与系统控制模块310的一个或多个控制器的逻辑集成在同一模具上以形成片上系统(SoC)。For one embodiment, at least one of the processor(s) 305 may be packaged together with the logic of one or more controllers of the system control module 310 (e.g., the memory controller module 330). For one embodiment, at least one of the processor(s) 305 may be packaged together with the logic of one or more controllers of the system control module 310 to form a system-in-package (SiP). For one embodiment, at least one of the processor(s) 305 may be integrated on the same die with the logic of one or more controllers of the system control module 310. For one embodiment, at least one of the processor(s) 305 may be integrated on the same die with the logic of one or more controllers of the system control module 310 to form a system on chip (SoC).

在各个实施例中，系统300可以但不限于是：服务器、工作站、台式计算设备或移动计算设备(例如，膝上型计算设备、手持计算设备、平板电脑、上网本等)。在各个实施例中，系统300可具有更多或更少的组件和/或不同的架构。例如，在一些实施例中，系统300包括一个或多个摄像机、键盘、液晶显示器(LCD)屏幕(包括触屏显示器)、非易失性存储器端口、多个天线、图形芯片、专用集成电路(ASIC)和扬声器。In various embodiments, the system 300 may be, but is not limited to: a server, a workstation, a desktop computing device, or a mobile computing device (e.g., a laptop computing device, a handheld computing device, a tablet computer, a netbook, etc.). In various embodiments, the system 300 may have more or fewer components and/or a different architecture. For example, in some embodiments, the system 300 includes one or more cameras, a keyboard, a liquid crystal display (LCD) screen (including a touch screen display), a non-volatile memory port, multiple antennas, a graphics chip, an application specific integrated circuit (ASIC), and a speaker.

需要注意的是，本申请可在软件和/或软件与硬件的组合体中被实施，例如，可采用专用集成电路(ASIC)、通用目的计算机或任何其他类似硬件设备来实现。在一个实施例中，本申请的软件程序可以通过处理器执行以实现上文所述步骤或功能。同样地，本申请的软件程序(包括相关的数据结构)可以被存储到计算机可读记录介质中，例如，RAM存储器，磁或光驱动器或软磁盘及类似设备。另外，本申请的一些步骤或功能可采用硬件来实现，例如，作为与处理器配合从而执行各个步骤或功能的电路。It should be noted that the present application can be implemented in software and/or a combination of software and hardware, for example, can be implemented using an application specific integrated circuit (ASIC), a general purpose computer or any other similar hardware device. In one embodiment, the software program of the present application can be executed by a processor to implement the steps or functions described above. Similarly, the software program of the present application (including relevant data structures) can be stored in a computer-readable recording medium, for example, a RAM memory, a magnetic or optical drive or a floppy disk and similar devices. In addition, some steps or functions of the present application can be implemented using hardware, for example, as a circuit that cooperates with a processor to perform each step or function.

另外，本申请的一部分可被应用为计算机程序产品，例如计算机程序指令，当其被计算机执行时，通过该计算机的操作，可以调用或提供根据本申请的方法和/或技术方案。本领域技术人员应能理解，计算机程序指令在计算机可读介质中的存在形式包括但不限于源文件、可执行文件、安装包文件等，相应地，计算机程序指令被计算机执行的方式包括但不限于：该计算机直接执行该指令，或者该计算机编译该指令后再执行对应的编译后程序，或者该计算机读取并执行该指令，或者该计算机读取并安装该指令后再执行对应的安装后程序。在此，计算机可读介质可以是可供计算机访问的任意可用的计算机可读存储介质或通信介质。In addition, a part of the present application may be applied as a computer program product, such as a computer program instruction, which, when executed by a computer, can call or provide the method and/or technical solution according to the present application through the operation of the computer. Those skilled in the art should understand that the existence of computer program instructions in computer-readable media includes but is not limited to source files, executable files, installation package files, etc., and accordingly, the way in which computer program instructions are executed by a computer includes but is not limited to: the computer directly executes the instruction, or the computer compiles the instruction and then executes the corresponding compiled program, or the computer reads and executes the instruction, or the computer reads and installs the instruction and then executes the corresponding installed program. Here, the computer-readable medium can be any available computer-readable storage medium or communication medium accessible to the computer.

通信介质包括藉此包含例如计算机可读指令、数据结构、程序模块或其他数据的通信信号被从一个系统传送到另一系统的介质。通信介质可包括有导的传输介质(诸如电缆和线(例如，光纤、同轴等))和能传播能量波的无线(未有导的传输)介质，诸如声音、电磁、RF、微波和红外。计算机可读指令、数据结构、程序模块或其他数据可被体现为例如无线介质(诸如载波或诸如被体现为扩展频谱技术的一部分的类似机制)中的已调制数据信号。术语“已调制数据信号”指的是其一个或多个特征以在信号中编码信息的方式被更改或设定的信号。调制可以是模拟的、数字的或混合调制技术。Communication media include media by which communication signals containing, for example, computer readable instructions, data structures, program modules, or other data are transmitted from one system to another. Communication media may include guided transmission media such as cables and wires (e.g., fiber optic, coaxial, etc.) and wireless (unguided transmission) media that can propagate energy waves, such as acoustic, electromagnetic, RF, microwave, and infrared. Computer readable instructions, data structures, program modules, or other data may be embodied as a modulated data signal in, for example, a wireless medium such as a carrier wave or similar mechanism such as embodied as part of spread spectrum technology. The term "modulated data signal" refers to a signal whose one or more characteristics are changed or set in such a manner as to encode information in the signal. Modulation may be analog, digital, or a hybrid modulation technique.

作为示例而非限制，计算机可读存储介质可包括以用于存储诸如计算机可读指令、数据结构、程序模块或其它数据的信息的任何方法或技术实现的易失性和非易失性、可移动和不可移动的介质。例如，计算机可读存储介质包括，但不限于，易失性存储器，诸如随机存储器(RAM,DRAM,SRAM)；以及非易失性存储器，诸如闪存、各种只读存储器(ROM,PROM,EPROM,EEPROM)、磁性和铁磁/铁电存储器(MRAM,FeRAM)；以及磁性和光学存储设备(硬盘、磁带、CD、DVD)；或其它现在已知的介质或今后开发的能够存储供计算机系统使用的计算机可读信息/数据。By way of example and not limitation, computer-readable storage media may include volatile and nonvolatile, removable and non-removable media implemented in any method or technology for storage of information such as computer-readable instructions, data structures, program modules or other data. For example, computer-readable storage media include, but are not limited to, volatile memory, such as random access memory (RAM, DRAM, SRAM); and non-volatile memory, such as flash memory, various read-only memories (ROM, PROM, EPROM, EEPROM), magnetic and ferromagnetic/ferroelectric memories (MRAM, FeRAM); and magnetic and optical storage devices (hard disks, magnetic tapes, CDs, DVDs); or other media now known or later developed that can store computer-readable information/data for use by a computer system.

在此，根据本申请的一个实施例包括一个装置，该装置包括用于存储计算机程序指令的存储器和用于执行程序指令的处理器，其中，当该计算机程序指令被该处理器执行时，触发该装置运行基于前述根据本申请的多个实施例的方法和/或技术方案。Here, according to an embodiment of the present application, a device is included, which includes a memory for storing computer program instructions and a processor for executing the program instructions, wherein, when the computer program instructions are executed by the processor, the device is triggered to run the methods and/or technical solutions based on the aforementioned multiple embodiments of the present application.

对于本领域技术人员而言，显然本申请不限于上述示范性实施例的细节，而且在不背离本申请的精神或基本特征的情况下，能够以其他的具体形式实现本申请。因此，无论从哪一点来看，均应将实施例看作是示范性的，而且是非限制性的，本申请的范围由所附权利要求而不是上述说明限定，因此旨在将落在权利要求的等同要件的含义和范围内的所有变化涵括在本申请内。不应将权利要求中的任何附图标记视为限制所涉及的权利要求。此外，显然“包括”一词不排除其他单元或步骤，单数不排除复数。装置权利要求中陈述的多个单元或装置也可以由一个单元或装置通过软件或者硬件来实现。第一，第二等词语用来表示名称，而并不表示任何特定的顺序。It is obvious to those skilled in the art that the present application is not limited to the details of the above exemplary embodiments, and that the present application can be implemented in other specific forms without departing from the spirit or basic features of the present application. Therefore, from any point of view, the embodiments should be regarded as exemplary and non-restrictive, and the scope of the present application is limited by the attached claims rather than the above description, so it is intended to include all changes that fall within the meaning and scope of the equivalent elements of the claims in the present application. Any figure mark in the claims should not be regarded as limiting the claims involved. In addition, it is obvious that the word "comprising" does not exclude other units or steps, and the singular does not exclude the plural. Multiple units or devices stated in the device claim can also be implemented by one unit or device through software or hardware. The words first, second, etc. are used to indicate names, and do not indicate any particular order.

Claims (11)

Translated fromChinese

1.一种用于呈现心电数据的方法，应用于心电监测设备，其中，所述心电监测设备包括数据采集模块、数据传输模块、数据处理展示模块，所述数据采集模块、所述数据传输模块以及所述数据处理展示模块之间互相独立且互相分离，所述数据采集模块包括第一磁吸连接触点，所述数据传输模块包括第二磁吸连接触点，所述数据传输模块包括无线传输单元，该方法包括：1. A method for presenting electrocardiogram data, applied to an electrocardiogram monitoring device, wherein the electrocardiogram monitoring device comprises a data acquisition module, a data transmission module, and a data processing and display module, wherein the data acquisition module, the data transmission module, and the data processing and display module are independent and separated from each other, the data acquisition module comprises a first magnetic connection contact, the data transmission module comprises a second magnetic connection contact, and the data transmission module comprises a wireless transmission unit, the method comprising:通过所述数据采集模块采集用户的心电数据；Collecting the user's electrocardiogram data through the data acquisition module;若所述数据采集模块与所述数据传输模块已通过所述第一磁吸连接触点及所述第二磁吸连接触点建立第一触点连接，通过所述数据采集模块基于所述第一触点连接将所述心电数据发送给所述数据传输模块；If the data acquisition module and the data transmission module have established a first contact connection through the first magnetic connection contact and the second magnetic connection contact, the data acquisition module sends the ECG data to the data transmission module based on the first contact connection;若所述数据传输模块已通过所述无线传输单元与所述数据处理展示模块建立第一无线连接，通过所述数据传输模块基于所述第一无线连接将所述心电数据发送给所述数据处理展示模块；If the data transmission module has established a first wireless connection with the data processing and display module through the wireless transmission unit, the ECG data is sent to the data processing and display module through the data transmission module based on the first wireless connection;通过所述数据处理展示模块对所述心电数据进行处理，向所述用户呈现处理后的心电数据；Processing the ECG data by the data processing and display module, and presenting the processed ECG data to the user;其中，所述心电监测设备还包括充电数据转换模块，所述充电数据转换模块包括第三磁吸连接触点，所述充电数据转换模块包括有线传输单元；其中，所述数据采集模块、所述数据传输模块、所述充电数据转换模块中的每个模块中的磁吸连接触点包括至少两个数据触点、至少两个充电触点；其中，所述每个模块中的磁吸连接触点还包括至少两个状态触点，所述状态触点用于控制该模块、与该模块已建立触点连接的其他模块之间的模块间工作状态的转换；Wherein, the ECG monitoring device further comprises a charging data conversion module, the charging data conversion module comprises a third magnetic connection contact, and the charging data conversion module comprises a wired transmission unit; wherein the magnetic connection contact in each of the data acquisition module, the data transmission module, and the charging data conversion module comprises at least two data contacts and at least two charging contacts; wherein the magnetic connection contact in each module further comprises at least two status contacts, and the status contacts are used to control the conversion of the inter-module working state between the module and other modules that have established contact connection with the module;其中，所述方法还包括：Wherein, the method further comprises:若所述数据采集模块与所述数据传输模块之间当前并未建立触点连接，所述数据采集模块与所述充电数据转换模块已通过所述第一磁吸连接触点及所述第三磁吸连接触点建立第二触点连接，且所述充电数据转换模块已通过所述有线传输单元与第一电源设备建立第一有线连接，则通过所述充电数据转换模块基于所述第二触点连接给所述数据采集模块充电，其中，所述第一电源设备为第一数据处理展示设备；If no contact connection is currently established between the data acquisition module and the data transmission module, the data acquisition module and the charging data conversion module have established a second contact connection through the first magnetic connection contact and the third magnetic connection contact, and the charging data conversion module has established a first wired connection with the first power supply device through the wired transmission unit, then the data acquisition module is charged through the charging data conversion module based on the second contact connection, wherein the first power supply device is a first data processing and display device;通过所述数据采集模块基于所述第二触点连接将所述心电数据发送给所述充电数据转换模块；通过所述充电数据转换模块基于所述第一有线连接将所述心电数据发送给所述第一数据处理展示设备。The ECG data is sent to the charging data conversion module through the data acquisition module based on the second contact connection; and the ECG data is sent to the first data processing and display device through the charging data conversion module based on the first wired connection.2.根据权利要求1所述的方法，其中，所述数据采集模块、所述数据传输模块中的每个模块中的磁吸连接触点包括至少两个数据触点。2. The method according to claim 1, wherein the magnetic connection contacts in each of the data acquisition module and the data transmission module include at least two data contacts.3.根据权利要求1所述的方法，其中，所述模块间工作状态包括以下至少一项：3. The method according to claim 1, wherein the inter-module working status comprises at least one of the following:该模块向该其他模块传输数据；The module transmits data to the other module;该模块接收该其他模块传输的数据；The module receives the data transmitted by the other module;该模块向该其他模块供电；The module supplies power to the other module;该模块接收该其他模块的供电。The module receives power from the other module.4.根据权利要求1所述的方法，其中，所述方法还包括：4. The method according to claim 1, wherein the method further comprises:若所述数据传输模块与所述充电数据转换模块已通过所述第二磁吸连接触点及所述第三磁吸连接触点建立第三触点连接，且所述充电数据转换模块已通过所述有线传输单元与第二电源设备建立第二有线连接，通过所述充电数据转换模块基于所述第三触点连接给所述数据传输模块充电。If the data transmission module and the charging data conversion module have established a third contact connection through the second magnetic connection contact and the third magnetic connection contact, and the charging data conversion module has established a second wired connection with the second power supply device through the wired transmission unit, the data transmission module is charged through the charging data conversion module based on the third contact connection.5.根据权利要求4所述的方法，其中，所述第二电源设备为第二数据处理展示设备；其中，所述方法还包括：5. The method according to claim 4, wherein the second power supply device is a second data processing display device; wherein the method further comprises:通过所述数据传输模块基于所述第三触点连接将所述心电数据发送给所述充电数据转换模块；Sending the ECG data to the charging data conversion module through the data transmission module based on the third contact connection;通过所述充电数据转换模块基于所述第二有线连接将所述心电数据发送给所述第二数据处理展示设备。The electrocardiogram data is sent to the second data processing and display device through the charging data conversion module based on the second wired connection.6.根据权利要求1所述的方法，其中，所述数据传输模块还包括第四磁吸连接触点；其中，所述方法还包括：6. The method according to claim 1, wherein the data transmission module further comprises a fourth magnetic connection contact; wherein the method further comprises:若所述数据传输模块与所述充电数据转换模块已通过所述第四磁吸连接触点及所述第三磁吸连接触点建立第四触点连接，且所述充电数据转换模块已通过所述有线传输单元与第三电源设备建立第三有线连接，通过所述充电数据转换模块基于所述第四触点连接给所述数据传输模块充电；If the data transmission module and the charging data conversion module have established a fourth contact connection through the fourth magnetic connection contact and the third magnetic connection contact, and the charging data conversion module has established a third wired connection with a third power supply device through the wired transmission unit, the data transmission module is charged through the charging data conversion module based on the fourth contact connection;若所述数据采集模块与所述数据传输模块已通过所述第一磁吸连接触点及所述第二磁吸连接触点建立第一触点连接，通过所述数据传输模块充电基于所述第一触点连接给所述数据采集模块充电。If the data acquisition module and the data transmission module have established a first contact connection through the first magnetic connection contact and the second magnetic connection contact, the data acquisition module is charged based on the first contact connection through the data transmission module.7.根据权利要求6所述的方法，其中，所述第三电源设备为第三数据处理展示设备；其中，所述方法还包括：7. The method according to claim 6, wherein the third power supply device is a third data processing display device; wherein the method further comprises:通过所述数据传输模块基于所述第四触点连接将所述心电数据发送给所述充电数据转换模块；Sending the ECG data to the charging data conversion module through the data transmission module based on the fourth contact connection;通过所述充电数据转换模块基于所述第三有线连接将所述心电数据发送给所述第三数据处理展示设备。The electrocardiogram data is sent to the third data processing and display device through the charging data conversion module based on the third wired connection.8.一种用于呈现心电数据的心电监测设备，其中，所述心电监测设备包括数据采集模块、数据传输模块、数据处理展示模块，所述数据采集模块、所述数据传输模块以及所述数据处理展示模块之间互相独立且互相分离，所述数据采集模块包括第一磁吸连接触点，所述数据传输模块包括第二磁吸连接触点，所述数据传输模块包括无线传输单元；8. An ECG monitoring device for presenting ECG data, wherein the ECG monitoring device comprises a data acquisition module, a data transmission module, and a data processing and display module, wherein the data acquisition module, the data transmission module, and the data processing and display module are independent and separate from each other, the data acquisition module comprises a first magnetic connection contact, the data transmission module comprises a second magnetic connection contact, and the data transmission module comprises a wireless transmission unit;所述数据采集模块用于采集用户的心电数据；The data acquisition module is used to collect the user's electrocardiogram data;若所述数据采集模块与所述数据传输模块已通过所述第一磁吸连接触点及所述第二磁吸连接触点建立第一触点连接，所述数据采集模块用于基于所述第一触点连接将所述心电数据发送给所述数据传输模块；If the data acquisition module and the data transmission module have established a first contact connection through the first magnetic connection contact and the second magnetic connection contact, the data acquisition module is used to send the ECG data to the data transmission module based on the first contact connection;若所述数据传输模块已通过所述无线传输单元与所述数据处理展示模块建立第一无线连接，所述数据传输模块用于基于所述第一无线连接将所述心电数据发送给所述数据处理展示模块；If the data transmission module has established a first wireless connection with the data processing and display module through the wireless transmission unit, the data transmission module is used to send the ECG data to the data processing and display module based on the first wireless connection;所述数据处理展示模块用于对所述心电数据进行处理，向所述用户呈现处理后的心电数据；The data processing and display module is used to process the ECG data and present the processed ECG data to the user;其中，所述心电监测设备还包括充电数据转换模块，所述充电数据转换模块包括第三磁吸连接触点，所述充电数据转换模块包括有线传输单元；其中，所述数据采集模块、所述数据传输模块、所述充电数据转换模块中的每个模块中的磁吸连接触点包括至少两个数据触点、至少两个充电触点；其中，所述每个模块中的磁吸连接触点还包括至少两个状态触点，所述状态触点用于控制该模块、与该模块已建立触点连接的其他模块之间的模块间工作状态的转换；Wherein, the ECG monitoring device further comprises a charging data conversion module, the charging data conversion module comprises a third magnetic connection contact, and the charging data conversion module comprises a wired transmission unit; wherein the magnetic connection contact in each of the data acquisition module, the data transmission module, and the charging data conversion module comprises at least two data contacts and at least two charging contacts; wherein the magnetic connection contact in each module further comprises at least two status contacts, and the status contacts are used to control the conversion of the inter-module working state between the module and other modules that have established contact connection with the module;其中，所述心电监测设备还用于：Wherein, the electrocardiogram monitoring device is also used for:若所述数据采集模块与所述数据传输模块之间当前并未建立触点连接，所述数据采集模块与所述充电数据转换模块已通过所述第一磁吸连接触点及所述第三磁吸连接触点建立第二触点连接，且所述充电数据转换模块已通过所述有线传输单元与第一电源设备建立第一有线连接，则通过所述充电数据转换模块基于所述第二触点连接给所述数据采集模块充电，其中，所述第一电源设备为第一数据处理展示设备；If no contact connection is currently established between the data acquisition module and the data transmission module, the data acquisition module and the charging data conversion module have established a second contact connection through the first magnetic connection contact and the third magnetic connection contact, and the charging data conversion module has established a first wired connection with the first power supply device through the wired transmission unit, then the data acquisition module is charged through the charging data conversion module based on the second contact connection, wherein the first power supply device is a first data processing and display device;通过所述数据采集模块基于所述第二触点连接将所述心电数据发送给所述充电数据转换模块；通过所述充电数据转换模块基于所述第一有线连接将所述心电数据发送给所述第一数据处理展示设备。The ECG data is sent to the charging data conversion module through the data acquisition module based on the second contact connection; and the ECG data is sent to the first data processing and display device through the charging data conversion module based on the first wired connection.9.一种用于呈现心电数据的计算机设备，包括存储器、处理器及存储在存储器上的计算机程序，其特征在于，所述处理器执行所述计算机程序以实现如权利要求1至7中任一项所述方法的步骤。9. A computer device for presenting electrocardiogram data, comprising a memory, a processor and a computer program stored in the memory, wherein the processor executes the computer program to implement the steps of the method according to any one of claims 1 to 7.10.一种计算机可读存储介质，其上存储有计算机程序/指令，其特征在于，该计算机程序/指令被处理器执行时实现如权利要求1至7中任一项所述方法的步骤。10. A computer-readable storage medium having a computer program/instruction stored thereon, wherein the computer program/instruction, when executed by a processor, implements the steps of the method according to any one of claims 1 to 7.11.一种计算机程序产品，包括计算机程序，其特征在于，该计算机程序被处理器执行时实现如权利要求1至7中任一项所述方法的步骤。11. A computer program product, comprising a computer program, characterized in that when the computer program is executed by a processor, the steps of the method according to any one of claims 1 to 7 are implemented.