CN114711736A - Wearable terminal, analysis system and method for intelligent medical health analysis - Google Patents

Abstract

The invention is applicable to the technical field of intelligent medical treatment, and provides a wearable terminal, an analysis system and an analysis method for intelligent medical treatment health analysis. The wearable terminal comprises a wearable terminal body, a monitoring module and a wireless transmission module, wherein the monitoring module is used for monitoring vital sign data; the wireless transmission module transmits the collected data of the wearable terminal to a gateway or/and a server with a bidirectional transmission function. The wearable terminal, the analysis system and the method for intelligent medical health analysis provided by the invention adopt the active scanning type gateway, can automatically judge the close-contact crowd and form the flow track of the people aiming at the users connected to the same gateway at the same time, conveniently, accurately, quickly and reliably derive the information of the close-contact crowd, and are very convenient to use. User vital sign data appear unusually, and the server can take notes and through propelling movement information to the display screen of wearing the terminal body, urgent contact person, the medical personnel or the display module group that correspond etc..

Description

Wearable terminal, analysis system and method for intelligent medical health analysis

Technical Field

The invention belongs to the technical field of intelligent medical treatment, and particularly relates to a wearable terminal, an analysis system and an analysis method for intelligent medical treatment health analysis.

Background

Among present prior art, a wearing formula terminal for medical treatment is healthy, it is mostly through the built-in wearing formula terminal that has GPS to fix a position the patient, and drift, position location delay (indoor no GPS signal), the condition such as error appear easily in the GPS chip, and its stability, reliability are not high, and the result of use is not good enough and inconvenient to flow to transfer to track to the personnel.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a wearable terminal, an analysis system and a method for intelligent medical health analysis, which are convenient for tracking flow adjustment of personnel and have good use effect.

The technical scheme of the invention is as follows: the utility model provides a wearing formula terminal for wisdom medical health analysis, includes the wearing terminal body, the wearing terminal body has:

the monitoring module is used for monitoring vital sign data of a user and comprises a sensor module which can be attached to the body surface of the user;

the wearable terminal comprises a wireless transmission module and a main control module, wherein the wireless transmission module is used for transmitting data collected by the wearable terminal to a gateway or/and a server with a bidirectional transmission function, the wearable terminal body is internally provided with the main control module and a battery module, the monitoring module, the wireless transmission module and the battery module are connected with the main control module, and the wearable terminal body comprises a display screen or an information indicator lamp for displaying gateway or/and server push information.

Specifically, the wearable terminal body is provided with an electrocardio detection interface, and the electrocardio detection interface is connected with an electrocardio detection module.

Specifically, the electrocardiograph detection module comprises an electrocardiograph connection piece which can be attached to the position of the heart mouth of a user and a connecting wire, one end of the connecting wire is connected to the electrocardiograph connection piece, and the other end of the connecting wire is connected to the electrocardiograph detection interface;

one side of the electrocardio-conductive connecting sheet is provided with an adhesive layer, and one end of the connecting wire connected with the electrocardio detection interface is provided with a magnetic attraction structural part.

Specifically, the monitoring module comprises at least one of a pulse sensor, a heart rate sensor, a blood oxygen sensor, a temperature sensor, a blood pressure sensor and a blood sugar sensor;

the wearable terminal body is a Bluetooth intelligent bracelet and comprises a dial plate and a wrist strap connected to the dial plate;

the dial plate comprises a shell, a display screen module arranged on the front side of the dial plate and a bottom shell arranged on the back side of the dial plate, the dial plate further comprises a vibration motor, a main control circuit board, a sensor module circuit board, a silica gel light shield and a lens which are arranged on the shell, the battery module, the main control circuit board, the sensor module circuit board, the silica gel light shield and the lens are sequentially arranged from the bottom of the display screen module to the bottom shell, the bottom shell is provided with an opening, and the lens is arranged at the opening; the bottom surface of the bottom shell is provided with an electrode plate;

one side of casing is provided with the control button, the control button pass through the connector connect in master control circuit board, the opposite side of casing is provided with magnetism and inhales connection structure spare and charging terminal, charging terminal pass through switching circuit board and connector connect in master control circuit board.

The invention also provides an analysis system for intelligent medical health analysis, which comprises a background system for communicating with the wearable terminal, wherein the background system comprises a gateway with a bidirectional transmission function and a server for processing data transmitted by the wearable terminal.

Specifically, the gateway with the bidirectional transmission function executes the instruction information sent by the server.

Specifically, the analysis system still includes the display module assembly for receive user's medical information that the server sent, the display module assembly is connected with the camera, just the display module assembly is provided with microphone, loudspeaker and touch display screen and communication module.

The invention also provides an analysis method for intelligent medical health analysis, which adopts the analysis system for intelligent medical health analysis;

a gateway of the analysis system acquires information of the wearable terminal and directly sends the information to a server;

the server acquires and processes the information of the gateway, and pushes set warning information to the corresponding wearable terminal or/and the set display module for the data beyond the preset range.

Specifically, the gateway acquires data of the wearable terminal through wireless transmission and forwards the data to the server, or the server acquires the data of the wearable terminal through a wireless transmission mode;

the server directly obtains or obtains the remote help-seeking signal sent by the wearable terminal through the gateway, the server sends alarm information to a set contact person, and the alarm information comprises at least one of the following: short message, automatic voice call, manual call;

the gateway is provided with a plurality of gateways and is positioned at different positions, and the gateways continuously scan and collect data sent by all wearable terminals in the area coverage of the signals and report the collected data to the server; meanwhile, the server can also push a set message to the set wearable terminal through the gateway;

the server positions and tracks the activity track of the wearable terminal through the plurality of gateways, and the server realizes a list of the close contacts at that time through data records of the wearable terminal body collected by the plurality of gateways in the same time period;

the server defines the set space area as a limited access range, and performs access information alarm and access information recording through the gateway;

specifically, the server performs data interaction with the hospital information management system, matches and manages hospital information of the hospital information management system and wearable terminal users, and pushes set hospital information to a display screen or/and a corresponding display module of a corresponding wearable terminal. The wearable terminal can convert the designated information into a two-dimensional code form for display. (ii) a

The monitoring module of the wearable terminal transmits the vital sign data of the user to the hospital information management system through the server system.

Specifically, the server pushes the analyzed and processed data to the designated display modules, and each display module correspondingly displays information of one user.

The wearable terminal, the analysis system and the method for intelligent medical health analysis, provided by the invention, adopt the active scanning type gateway, have good reliability, avoid the problems of stability and reliability in the application of a GPS chip, can automatically determine the tight-contact crowd aiming at the user connected to the same gateway at the same time, can conveniently, accurately, quickly and reliably derive the information of the tight-contact crowd when the flow regulation is required to be carried out on a diagnostician or a close-contact person of an infectious disease (such as novel coronary pneumonia), and are very convenient to use. The user vital sign data that the monitoring module monitored can be handled in wearing the terminal body, also can convey to gateway, server and handle. The vital sign data are abnormal, namely when the vital sign data exceed a set range, the server can record and push information to one or more of a display screen of a wearable terminal body, a mobile terminal of an emergency contact person, a corresponding medical worker, a display screen of a corresponding sickbed and a display of a nurse station, text message short messages, automatic voice calling and the like can be particularly passed, and feedback connection information of a gateway can be passed, the specific position of a user can be rapidly positioned, an application scene can be set according to actual needs, patients can be better served and managed, and the infectious diseases can be more conveniently, accurately and reliably determined, identified, tracked and the like in tight joint, and the use effect is good.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic diagram of an intelligent medical health analysis system according to an embodiment of the present invention;

fig. 2 is a schematic diagram illustrating a wearable terminal for intelligent medical health analysis according to an embodiment of the present invention;

fig. 3 is a partial schematic view of a wearable terminal for intelligent medical health analysis provided by an embodiment of the present invention at a connection line;

fig. 4 is a partial schematic view of a wearable terminal for intelligent medical health analysis according to an embodiment of the present invention when the wearable terminal is worn by a user;

fig. 5 is an exploded view of a wearable terminal for intelligent medical health analysis according to an embodiment of the present invention;

fig. 6 is a schematic plan view of a dial plate in a wearable terminal for intelligent medical health analysis according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present.

As shown in fig. 1 to fig. 6, a wearable terminal 100 (i.e. the portable wrist vital sign data collector in fig. 1) for intelligent medical health analysis according to an embodiment of the present invention can be applied to an intelligent medical health analysis system. Above-mentioned wearable terminal 100, including wearing the terminal body, the wearing terminal body can be dressed, is worn on user's health. The wearable terminal body is provided with a monitoring module and a wireless transmission module. The monitoring module is used for monitoring user vital sign data, and the monitoring module includes can paste the sensor module in user's body surface. The wireless transmission module is used for transmitting the data collected by the wearable terminal 100 to a gateway or/and a server with a bidirectional transmission function. The wireless transmission module can be a Bluetooth wireless module, a WIFI wireless module, a ZIGBEE wireless module, a 4G wireless module or a 5G wireless module, and can also be applied to a 6G wireless module and the like which are popularized and applied later, the ZIGBEE is a wireless network protocol of low-speed short-distance transmission, and the bottom layer is a media access layer and a physical layer which adopt IEEE 802.15.4 standard specifications. The method has the main characteristics of low power consumption, low cost, support of a large number of nodes on the network, support of various topologies on the network, low complexity, rapidness, reliability and safety. The wearable terminal body obtains sign information through real-time monitoring user vital sign data, and the sign information passes through the wireless transmission module and conveys to gateway or/and server with wireless mode, and the sign information can be heart rate, pulse, blood oxygen, body temperature, blood pressure, blood sugar etc. in at least one. The wearable terminal body comprises a display screen or/and an information indicator lamp and is used for displaying gateway or/and server push information, the wireless transmission module is further used for receiving the push information of the gateway or/and the server and displaying the push information on the display screen, so that a hospital can rapidly and accurately provide prompt information for a corresponding user, and in the embodiment, by taking hospital application as an example, corresponding gateways can be arranged on different places and floors, the gateways can be low-power gateways such as Bluetooth gateways or ZIGBEE gateways and the like, and the wearable terminal 100 which meets the regulations can be automatically scanned and connected. The wearable terminal 100 conforming to the regulations is the wearable terminal 100 bound and authorized when a user is admitted, that is, each wearable terminal 100 conforming to the regulations corresponds to a patient (user) set by a hospital, when the corresponding wearable terminal 100 is connected to a gateway, each gateway can record connection information including user information, connection time, disconnection time and the like corresponding to the wearable terminal 100, the user information may include a user ID and the like, and the user ID may be associated with the name, age, gender, contact way, emergency contact and the like of the user. Therefore, the gateway adopting the active scanning type has good reliability, avoids the problems of stability and reliability in the application of a 6PS chip, can automatically judge the tight-connected people aiming at the users connected with the same gateway at the same time, can conveniently, accurately, quickly and reliably derive the information of the tight-connected people when the flow regulation is needed to be carried out on the confirmed or tight-connected people with infectious diseases (such as novel coronary pneumonia), and is very convenient to use. The vital sign data of the user monitored by the monitoring module can be processed in the wearable terminal body, and can also be transmitted to a gateway (namely a Bluetooth communication interaction gateway in fig. 1) and a server (a background data management system in fig. 1) for processing. The vital sign data are abnormal, namely when the range is beyond the set range, the server can record and push information to one or more of a display screen of a wearable terminal body, a mobile terminal of an emergency contact person, corresponding medical personnel, a display screen of a corresponding sickbed and a display of a nurse station, text message short messages can be specifically passed, automatic voice, manual calling and the like, and feedback connection information of a gateway is passed, the specific position of a user can be rapidly positioned, an application scene can be set according to actual needs, patients can be better served and managed, and the system can be more convenient, accurate, reliably determine, identify, track and the like closely connected with the infectious diseases, and has a good using effect.

In specific application, after receiving corresponding information, the gateway or/and the server stores user connection information, sign information and the like so as to facilitate tracing, and if a certain user is identified as a diagnostician or a joint seal person of an infectious disease, the joint seal person is judged according to the time and the position of the connection of the user to the gateway and the time and the position at that time.

Specifically, the wearable terminal body is provided with an electrocardiogram detection interface (a charging interface, which can be a magnetic type) 120, the electrocardiogram detection interface 120 can be connected with an electrocardiogram detection lead sheet 200, the electrocardiogram detection lead sheet 200 can be attached to the heart of a user, and the time node and the strength of an electric signal sequence causing heartbeat can be collected. By analyzing the ECG information collected by the ECG detection lead sheet 200, whether the heart rate of the user is normal or not and whether the heart function is in problem or not can be diagnosed better on line.

Specifically, the electrocardiograph detection lead sheet 200 (one surface of which has viscosity and is attached to the position of the heart opening of the user) comprises a non-woven fabric sheet 330 and a connecting wire 300, one end of the connecting wire 300 is connected to the electrocardiograph detection lead sheet 200, and the other end of the connecting wire 300 is connected to the electrocardiograph detection interface 120; the connecting lines 300 can be connected through the plug interface 312, and the user can select the electrocardiograph detection lead sheet 200 according to actual conditions.

In this embodiment, an adhesive layer is disposed on one side of the cardiac electrical connector strip 200, and a magnetic attraction structure is disposed at one end of the connection line 300 connected to the cardiac electrical detection interface 120, so as to transmit data and supply power. When in use, the sticky lead sheet is attached to the chest of a user, and then single-lead electrocardiogram data acquisition can be carried out. Wherein the interface setting that charges is in the side of fuselage casing, when the electric quantity of wearable terminal 100 (portable wrist vital sign data collection station) is not enough, inhales formula charging wire through specific magnetism and one end is connected to the module that charges, and another end is connected to and removes the function that the treasured that charges can realize not taking off the continuation of the journey that charges, facilitates the use.

In specific application, a transmission protocol from the wearable terminal 100 (collector end) to the mobile end software can be bluetooth 5.1 or 4.2, a storage format can be PDF or TXT, and the like, and the corresponding software can enter personal information of a user in a mobile phone verification code or account authorization manner. The software can display the electrocardiographic waveform, the electrocardiographic value and the electrocardiographic recording list, can import the electrocardiogram data file from the collector end software to the mobile phone mobile end software side through Bluetooth, and stores, deletes, prints and shares the electrocardiogram data file. The collector uploads the data to the mobile terminal through a Bluetooth data transmission protocol; the storage format of the electrocardio acquisition data can be PDF and the like.

The electrocardio wire (connecting wire 300) and the electrocardio lead sheet 330 belong to random accessories, when in use, one end of the electrocardio connecting wire is connected with the electrocardio lead sheet 330, the electrocardio lead sheet 330 is pasted around the heart position of the left chest of a user, and then the other end is connected at the side connecting part of the watch. Under the condition of using the electrocardio wire and the electrode plate, when the equipment monitors that the static state of a wearer exceeds a set time (for example, 3 minutes), the equipment automatically starts electrocardio ECG measurement and other vital sign data acquisition work. When the static state is changed into the motion state in the monitoring process, the acquisition work is terminated, the equipment continues to wait for the starting point of the next 3-minute static work, and the process is repeated and circulated.

In this embodiment, the monitoring module includes at least one of a pulse sensor, a heart rate sensor, a blood oxygen sensor, a temperature sensor, a blood pressure sensor, and a blood glucose sensor; the user vital sign data may include one, two, more or all of pulse, heart rate, blood oxygen, temperature, blood pressure, blood glucose information.

In this embodiment, dress terminal body is bluetooth intelligence bracelet, and the wireless transmission module includes the bluetooth chip. The Bluetooth intelligent bracelet comprises a dial plate and a wrist strap 110 connected to the dial plate, can be worn on the wrist of a user, and can also be fixed on the chest through specific wearing.

Specifically, the dial plate comprises a shell 104, a display screen 101 arranged on the front surface of the dial plate and a bottom shell 105 arranged on the back surface of the dial plate, the dial plate further comprises a vibrating motor 113, a main control circuit board 103, a sensor module circuit board 106, a silica gel light shield 107 and a lens 108 which are arranged in the shell 104, the battery module 102, the main control circuit board 103, the sensor module circuit board 106, the silica gel light shield 107 and the lens 108 are sequentially arranged from the bottom of the display screen 101 to the bottom shell 105, the bottom shell 105 is provided with an opening, and the lens 108 is arranged at the opening; the bottom surface of the bottom shell 105 is provided with an electrode plate 109, and the electrode plate 109 can be attached to the wrist of a user; the main control module comprises a main control circuit board 103 and a sensor module circuit board 106 connected to the main control circuit board 103. One electrode sheet 109 can be used as the positive electrode of the ECG electrocardio-electrode, and the middle key of the key 111 can be the negative electrode of the ECG electrocardio-electrode. A temperature sensor may be connected to one electrode plate 109.

Specifically, one side of the casing 104 is provided with a control key 111, the control key 111 is connected to the main control circuit board 103 through a connector 112, the other side of the casing 104 is provided with a magnetic connection structure and a connection terminal 116 (gold-plated thimble), and the connection terminal 116 is connected to the main control circuit board 103 through a transfer circuit board 115 and a connector 114.

Specifically, a one-key rescue key (SOS key) may be disposed on the housing 104, and the control key 111 may include the one-key rescue key, or the one-key rescue key may be independent of the front side of the dial plate, so that the user may send rescue information to the server system in time in an emergency, and the server may automatically send an instruction to a designated contact and a medical care provider according to the user information after receiving the rescue information, and may attach the user's position (the position may be determined by the currently connected gateway by the user), the user's vital sign data, and the like.

The embodiment of the invention also provides an analysis system for intelligent medical health analysis, which comprises a background system and the wearable terminal 100, wherein the background system can be used for the wearable terminal 100 to perform bidirectional communication. The background system comprises a gateway with a bidirectional transmission function and a server for processing data transmitted by the wearable terminal 100. Each gateway can correspond to a place or an area, and the position, the historical position, the action track and the like of the user can be associated according to the gateway address of the user connection and the connection and disconnection time. The gateway may serve as a data communication interconnection bridge between the wearable terminal 100 and a backend data management system (i.e., server). The background data management system (i.e., server) may also be integrated with or act as the HIS system for the hospital. And continuously scanning and collecting the Bluetooth data sent by all the wearable terminals 100 in the area range which can be covered by the gateway signal, and reporting the collected data to a background data management system. Meanwhile, the background data management system (i.e. a server, also referred to as a background system for short) can also push message texts to the specified wearable terminal 100 (portable wrist vital sign data collector) through the bluetooth communication interactive gateway. As human body vital sign data (including heart rate, pulse, blood oxygen, body temperature, blood pressure, blood sugar, sleep, respiration, exercise amount and the like), the data is collected by the wearable terminal 100, is subjected to preliminary analysis and arrangement, is transmitted to the Bluetooth communication interactive gateway in a Bluetooth, WIFI or 4G mode and the like, and is forwarded to the background data management system by the Bluetooth communication interactive gateway; the wearable terminal 100 can also transmit data to the background data management system through the mobile terminal (mobile phone or tablet computer); the wearable terminal 100 (portable wrist vital sign data collector) can also directly transmit data to the background data management system through the mobile communication network (GSM or CDMA, etc.); the portable wrist vital sign data collector can send an SOS help-seeking signal to the background data management system, and the background data management system can send an alarm sound and inform related contacts in a short message, automatic voice or manual telephone mode after receiving the SOS help-seeking signal.

In this embodiment, taking hospital application as an example, corresponding gateways may be arranged in different places and floors, and the gateways may be low power gateways such as bluetooth gateways or ZIGBEE gateways, which can automatically scan and connect the wearable terminal 100 meeting the specification. The wearable terminal 100 conforming to the regulations is the wearable terminal 100 bound and authorized when a user is admitted, that is, each wearable terminal 100 conforming to the regulations corresponds to a patient (user) set by a hospital, when the corresponding wearable terminal 100 is connected to a gateway, each gateway can record connection information including user information, connection time, disconnection time and the like corresponding to the wearable terminal 100, the user information may include a user ID and the like, and the user ID may be associated with the name, age, gender, contact way, emergency contact and the like of the user. Therefore, the gateway adopting the active scanning type has good reliability, avoids the problems of stability and reliability in the application of a GPS chip, can automatically judge the close-contact crowd for a user connected to the same gateway at the same time, can conveniently, accurately, quickly and reliably derive the close-contact crowd information when the flow regulation is needed for a diagnostician or a close-contact person of an infectious disease (such as novel coronary pneumonia), and is very convenient to use. The user vital sign data that the monitoring module monitored can be handled in wearing the terminal body, also can convey to gateway, server and handle. The vital sign data are abnormal, namely when the vital sign data exceed a set range, the server can record and push information to one or more of the display screen 101 of the wearable terminal body, the mobile terminal of an emergency contact person, corresponding medical personnel, the display screen of a corresponding sickbed and a display of a nurse station, text message short messages, automatic voice calling and the like can be specifically passed, and the specific position of a user can be quickly positioned through feedback connection information of a gateway, an application scene can be set according to actual needs, patients can be better served and managed, and the infectious diseases can be more conveniently, accurately and reliably closely connected, judged, identified, tracked and the like, and the use effect is good.

In the specific application, the server collects reported data of all the wearable terminal bodies through the gateway or directly to perform unified classification and analysis, and performs alarm reminding processing on the data exceeding the range of the threshold parameter through the preset threshold parameters of the maximum value and the minimum value. The server is used as a background data management system, meanwhile, the collected data can be screened for routine disease identical points according to the disease sample of the big data, and when the collected current data meets a certain disease identical point, an alarm is given and related labels are made for the data record; the background data management system (server) can also perform personnel positioning and activity track tracking through a plurality of Bluetooth communication interaction gateways installed at different geographic positions, and meanwhile, a personnel list of the close contact person at that time can be realized through data records reported by the wearable terminal 100 collected by the Bluetooth communication interaction gateways at the same time; the background data management system can perform access limitation (such as no admission and no leaving) alarm and record on a certain spatial area through a Bluetooth communication interactive gateway or a specified geographic position range (longitude and latitude); the background data management system can perform data interaction with a hospital HIS (hospital Information system), relevant Information (including medical advice Information, examination Information, payment Information and the like) of a patient after admission can be directly pushed to the display screen 101 of the wearable terminal 100 or a terminal display module corresponding to a patient bed through the background data management system, and vital sign data of the patient can be transmitted to the HIS of the hospital through the background data management system, so that the system can be in seamless connection with the original HIS of the hospital, and the universality and the expandability are good.

Specifically, the analysis system executes the instruction information sent by the server through the gateway with the bidirectional transmission function. The analysis system also comprises an execution terminal used for receiving the instruction information sent by the server. The execution terminal may be a mobile phone, a tablet computer, or a dedicated mobile terminal, which may be associated with a user's contact, a designated medical person, or the like.

Specifically, the analysis system still includes display module assembly (terminal display module assembly), is used for receiving user's medical information that the server sent, display module assembly is connected with the camera, just display module assembly is provided with microphone, loudspeaker and touch display screen and communication module, and communication module can be connected in gateway or server through wired or knotless mode. The display module can be arranged at the bedside of the sickbed. Each user can correspond to one display module. The camera can be used for carrying out two-way video call and can also be used for monitoring and recording the field environment by the recorder. In the specific application, the server is used as a background data management system, the vital sign data after analysis and processing are pushed to the appointed terminal display modules, and each terminal display module can only display the information of one user. The terminal display module can be provided with a built-in processing functional component, and the processing functional component can have partial functions of a background data management system (data query, SOS help-seeking transmission and the like aiming at the current user). The video-audio interactive communication talkback with a background data management system or a hospital HIS system can be realized through the camera, the microphone and the sound horn.

The embodiment of the invention also provides an analysis method for intelligent medical health analysis, which adopts the analysis system for intelligent medical health analysis;

a gateway of the analysis system acquires information (namely vital sign information of a user) of the wearable terminal 100 and directly sends the information to a server; and the server acquires and processes the information of the gateway and pushes set warning information to a set execution terminal or/and a set display module for the data beyond a preset range. The vital sign data are abnormal, namely when the vital sign data exceed a set range, the server can record and push information to one or more of the display screen 101 of the wearable terminal body, the mobile terminal of an emergency contact person, a corresponding medical worker, a display screen of a corresponding sickbed and a display of a nurse station, text message short messages, automatic voice calling and the like can be particularly passed, and the specific position of a user can be rapidly positioned through feedback connection information of a gateway, an application scene can be set according to actual needs, a patient can be better served and managed, and the patient can be more conveniently, accurately and reliably closely connected for judgment, identification, tracking and the like, so that the use effect is good.

Specifically, the gateway obtains the data of the wearable terminal 100 through wireless transmission (transmission methods such as bluetooth, WIFI, ZIGBEE, 4G, or 5G) and forwards the data to the server in a wired manner through wireless (transmission methods such as bluetooth, WIFI, ZIGBEE, 4G, or 5G), or the server obtains the data of the wearable terminal 100 through wireless transmission methods;

the server directly obtains or obtains the remote help-seeking signal sent by the wearable terminal 100 through the gateway, and sends alarm information to a set contact person, wherein the alarm information comprises at least one of the following: short messages, automatic voice calls;

the gateways are arranged at different positions, continuously scan and collect data sent by all the wearable terminals 100 in the area covered by the signals, and report the collected data to the server; meanwhile, the server can also push a setting message to the set wearable terminal 100 through the gateway;

the server locates and tracks the activity track of the wearable terminal 100 through a plurality of gateways, and the server realizes a list of the close contacts at that time through data records of the wearable terminal body collected by the plurality of gateways in the same time period;

the server defines the set space area as a limited access range, and performs access information alarm and access information recording through the gateway.

Specifically, the server performs data interaction with a hospital information management system, performs matching management on hospital information of the hospital information management system and a user of the wearable terminal 100, and pushes set hospital information to a display screen 101 or/and a corresponding display module of the corresponding wearable terminal 100; the monitoring module of the wearable terminal 100 transmits the vital sign data of the user to the hospital information management system through the server system.

Specifically, the server pushes the analyzed data to a designated display module (i.e., the terminal display module in fig. 1), and each display module correspondingly displays information of one user.

The specific application can also refer to the following process:

the wearable terminal 100 can be used as a portable wrist vital sign data collector, collects vital sign data of a user wearing the wearable terminal 100, and transmits the vital sign data to a gateway; the gateway is used for receiving the vital sign number sent by the wearable terminal 100, then transmitting the vital sign number to a background data management system (server), and recording information of a connected user by a user so as to identify and record the user of the wearable terminal 100 in the same space and the same time period; the background data management system is used for receiving the vital sign number sent by the gateway, analyzing and processing the vital sign number, grouping and identifying the wearable terminals 100 in the same space and the same time period, and sending a notification alarm to the execution terminal when abnormal data is found; the background data management system can respond to a cable source tracking calling request of the execution terminal, generate identification information of the wearable terminal 100 in the same space and the same time period based on the wearable terminal 100 related to the called abnormal data, further generate user list information in close contact, and then send the user list information to the execution terminal;

the execution terminal can be used for receiving the notification of the background data management system, sending a request for searching source tracking and calling of the wearable terminal 100 related to abnormal data to the background data management system, and receiving user list information sent by the background data management system.

In a specific application, the vital sign number includes at least one of the following: body temperature data, heart rate data, respiratory rate data, blood pressure data, blood oxygen data.

In a specific application, the abnormal data includes any one or more of the following items: body temperature exceeds a threshold value, heart rate is irregular and has large fluctuation amplitude, respiratory rate is high or has high amplitude, blood pressure rises or falls rapidly, and blood oxygen exceeds a threshold value.

In specific application, the user of the wearable terminal 100 moves in an area place with gateways, a plurality of gateways are installed in different spaces and distances of the area place to receive vital sign numbers of the wearable terminal 100 in corresponding spaces, when the user of the wearable terminal 100 moves, information can be recorded by the gateways in the corresponding spaces in different spaces and uploaded to a background data management system, and the activity track of the user of the wearable terminal 100 is screened out by the background data management system according to time periods. Using the principle of connection of the wearable terminal 100 and the gateway, the user of the wearable terminal 100 walks around the area location where the gateway is installed. When the fact that the physical health data of one monitored person is abnormal is found, the background data management system can quickly retrieve the person list information which is in close contact with the person in a certain time period. With the contact person list, the source of the epidemic disease can be quickly tracked. Provides favorable data analysis and support basis for the prevention and control management work of epidemic diseases.

The wearable terminal, the analysis system and the method for intelligent medical health analysis provided by the embodiment of the invention adopt the active scanning gateway, have good reliability, avoid the problems of stability and reliability in the application of a GPS chip, automatically judge the close-contact crowd for users connected to the same gateway at the same time, and conveniently, accurately, quickly and reliably derive the information of the close-contact crowd when the flow regulation is needed for the confirmed or close-contact person of infectious diseases (such as novel coronary pneumonia). User's vital sign data that the monitoring module was monitored can be handled in wearing the terminal body, also can convey to gateway, server and handle. The vital sign data are abnormal, namely when the vital sign data exceed a set range, the server can record and push information to one or more of the display screen 101 of the wearable terminal body, the mobile terminal of an emergency contact person, a corresponding medical worker, a display screen of a corresponding sickbed and a display of a nurse station, text message short messages, automatic voice calling and the like can be particularly passed, and the specific position of a user can be rapidly positioned through feedback connection information of a gateway, an application scene can be set according to actual needs, a patient can be better served and managed, and the patient can be more conveniently, accurately and reliably closely connected for judgment, identification, tracking and the like, so that the use effect is good.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents or improvements made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. The utility model provides a wearing formula terminal for wisdom medical health analysis, a serial communication port, including wearing the terminal body, wearing the terminal body and having:

the monitoring module is used for monitoring vital sign data of a user and comprises a sensor module which can be attached to the body surface of the user;

the wireless transmission module is used for transmitting the data acquired by the wearable terminal to a gateway or/and a server with a bidirectional transmission function;

wearing terminal body embeds there are host system and battery module, monitoring module, wireless transmission module and battery module all connect in host system, wear terminal body including being used for showing gateway or/and server propelling movement information's display screen or information indicator.

2. The wearable terminal for intelligent medical health analysis of claim 1, wherein the wearable terminal body has an electrocardiographic detection interface, and the electrocardiographic detection interface is connected to an electrocardiographic detection module.

3. The wearable terminal for intelligent medical health analysis of claim 2, wherein the electrocardiograph detection module comprises an electrocardiograph connection pad attachable to the heart mouth of the user and a connection wire with one end connected to the electrocardiograph connection pad, and the other end of the connection wire is connected to the electrocardiograph detection interface;

one side of the electrocardio-conductive connecting sheet is provided with an adhesive layer, and one end of the connecting wire connected with the electrocardio detection interface is provided with a magnetic attraction structural part.

4. The wearable terminal for intelligent medical health analysis of claim 1, wherein the monitoring module comprises at least one of a pulse sensor, a heart rate sensor, a blood oxygen sensor, a temperature sensor, a blood pressure sensor, and a blood glucose sensor;

the wearable terminal body is a Bluetooth intelligent bracelet and comprises a dial plate and a wrist strap connected to the dial plate;

the dial plate comprises a shell, a display screen module arranged on the front side of the dial plate and a bottom shell arranged on the back side of the dial plate, the dial plate further comprises a vibration motor, a main control circuit board, a sensor module circuit board, a silica gel light shield and a lens which are arranged on the shell, the battery module, the main control circuit board, the sensor module circuit board, the silica gel light shield and the lens are sequentially arranged from the bottom of the display screen module to the bottom shell, the bottom shell is provided with an opening, and the lens is arranged at the opening; the bottom surface of the bottom shell is provided with an electrode plate;

one side of casing is provided with the control button, the control button pass through the connector connect in master control circuit board, the opposite side of casing is provided with magnetism and inhales connection structure spare and charging terminal, charging terminal pass through switching circuit board and connector connect in master control circuit board.

5. An analysis system for intelligent medical health analysis, which is characterized by comprising a background system for communicating with the wearable terminal of any one of claims 1 to 4, wherein the background system comprises a gateway with a bidirectional transmission function and a server for processing data transmitted by the wearable terminal.

6. The analytic system of claim 5, wherein the analytic system executes the command information sent by the server through a gateway with bidirectional transmission function.

7. The system of claim 5, further comprising a display module for receiving the medical information of the user from the server, wherein the display module is connected with a camera, and the display module is provided with a microphone, a speaker, a touch screen and a communication module.

8. An analysis method for intelligent medical health analysis, characterized by using an analysis system for intelligent medical health analysis according to any one of claims 5 to 7;

a gateway of the analysis system acquires information of the wearable terminal and directly sends the information to a server;

the server acquires and processes the information of the gateway, and pushes set warning information to the corresponding wearable terminal or/and the set display module for the data beyond the preset range.

9. The analytical method of claim 8,

the gateway acquires data of the wearable terminal through wireless transmission and forwards the data to the server, or the server acquires the data of the wearable terminal through a wireless transmission mode;

the server directly obtains or obtains the remote help-seeking signal sent by the wearable terminal through the gateway, the server sends alarm information to a set contact person, and the alarm information comprises at least one of the following: short message, automatic voice call, manual call;

the gateway is provided with a plurality of gateways and is positioned at different positions, and the gateways continuously scan and collect data sent by all wearable terminals in the area coverage of the signals and report the collected data to the server; meanwhile, the server can also push a set message to the set wearable terminal through the gateway;

the server positions and tracks the activity track of the wearable terminal through the plurality of gateways, and the server realizes a list of the close contacts at that time through data records of the wearable terminal body collected by the plurality of gateways in the same time period;

the server defines the set space area as a limited access range, and performs access information alarm and access information recording through the gateway.

10. The analysis method according to claim 8, wherein the server performs data interaction with a hospital information management system, the server performs matching management on the hospital information of the hospital information management system and the wearable terminal user, and pushes the set hospital information to a display screen or/and a corresponding display module of a corresponding wearable terminal; the wearable terminal can convert the designated information into a two-dimensional code form for display.

The monitoring module of the wearable terminal transmits the vital sign data of the user to the hospital information management system through the server system.

Images