CN113440116A

CN113440116A - Portable vital sign monitoring equipment, data processing method and system

Info

Publication number: CN113440116A
Application number: CN202010214181.3A
Authority: CN
Inventors: 张素娟; 魏红祥; 叶长青
Original assignee: Anhui Maimi Medical Technology Co ltd
Current assignee: Anhui Maimi Medical Technology Co ltd
Priority date: 2020-03-24
Filing date: 2020-03-24
Publication date: 2021-09-28

Abstract

The invention provides portable vital sign monitoring equipment, a data processing method and a system, which comprise the following steps: the vital sign sensing assembly comprises an electrocardio sensing module, a blood oxygen sensing module and a temperature sensing module, the electrocardio sensing module comprises an electrocardio acquisition electrode, the signal processing circuit assembly comprises an electrocardio sensing module processing circuit, a blood oxygen sensing module processing circuit and a temperature sensing module processing circuit, the transmission assembly comprises a signal transmission circuit and an electric energy transmission circuit, the signal transmission circuit is used for information transmission, and the electric energy transmission circuit is used for electric energy transmission; the portable monitoring device solves the problem of single kinetic energy, comprehensively judges the health condition of a user by using blood oxygen data, electrocardiogram data and body temperature data, reduces the probability of misjudgment, can simultaneously supply energy and transmit collected data, and solves the problem that the portable monitoring device cannot monitor during charging.

Description

Portable vital sign monitoring equipment, data processing method and system

Technical Field

The invention relates to the field of vital sign monitoring, in particular to portable vital sign monitoring equipment, a data processing method and a data processing system.

Background

Along with the development of society, the quality of life level improves, and people more and more pay more attention to own health, and the real-time monitoring of vital sign data is convenient for people to know the health condition of oneself.

At present, portable equipment capable of monitoring blood oxygen, electrocardio and temperature appears in the market, and the following problems still exist: 1. the function is single, only one index can be monitored, the health evaluation is single, and misjudgment can occur; 2. portable monitoring facilities on the market can't monitor when charging, have restricted application range to a certain extent.

Disclosure of Invention

Technical problem to be solved

In view of the above technical problem, it is an object of the present invention to provide a portable vital signs monitoring device, a data processing aspect and a system in order to solve the above problems.

(II) technical scheme

According to a first aspect of the invention, a portable vital signs monitoring device is provided, comprising: the vital sign sensing assembly, the signal processing circuit assembly, the transmission assembly and the main control assembly are arranged in the main control box;

the vital sign sensing assembly is used for collecting vital sign signals and comprises an electrocardio sensing module, a blood oxygen sensing module and a temperature sensing module, wherein the electrocardio sensing module is used for collecting electrocardio signals and comprises an electrocardio collecting electrode, the blood oxygen sensing module is used for collecting blood oxygen saturation signals, and the temperature sensing module is used for collecting temperature signals;

the signal processing circuit assembly is used for filtering and converting vital sign signals, and comprises an electrocardio sensing module processing circuit, a blood oxygen sensing module processing circuit and a temperature sensing module processing circuit, wherein the electrocardio sensing module processing circuit is used for filtering electrocardio signals and converting the electrocardio signals into electrocardio digital signals, the blood oxygen sensing module processing circuit is used for filtering blood oxygen signals and converting the blood oxygen signals into blood oxygen digital signals, and the temperature sensing module processing circuit is used for filtering temperature signals and converting the temperature signals into temperature digital signals;

the transmission assembly is used for signal transmission and electric energy transmission, and comprises a signal transmission circuit and an electric energy transmission circuit, wherein the signal transmission circuit is used for information transmission, and the electric energy transmission circuit is used for electric energy transmission;

the main control assembly is used for controlling the start and the stop of the vital sign sensing assembly and the signal processing circuit assembly.

Optionally, the cardiac electrical collection electrode is a dry electrode.

Optionally, the signal transmission circuit and the power transmission circuit share one interface.

According to a second aspect of the present invention, there is provided a method for processing vital sign monitoring data, which is applied to a portable vital sign monitoring device, the method comprising:

determining collected vital sign data;

controlling vital sign data collected by the vital sign sensing assembly;

and determining the health state of the user according to the vital sign data.

Optionally, the controlling vital sign data acquired by the vital sign sensing assembly includes:

determining an acquisition time period for the vital sign sensing assembly;

controlling vital sign data over the acquisition time period by the vital sign sensing assembly.

Optionally, the determining the health status of the user according to the vital sign data includes:

processing the vital sign data of the vital sign sensing assembly in the acquisition time period to obtain processed vital sign data and corresponding numerical values and diagrams;

and determining the health state of the user in the acquisition time period through the processed vital sign data and the corresponding numerical value and graph.

Optionally, the determining the acquired vital sign data comprises: determining the electrocardio data of the acquired vital sign data or determining the blood oxygen data of the acquired vital sign data or determining the temperature data of the acquired vital sign data.

Optionally, the processing the vital sign data of the vital sign sensing assembly in the acquisition time period to obtain processed vital sign data and corresponding numerical values and diagrams includes:

processing the electrocardio data in the acquisition time period by the electrocardio sensing module to obtain the processed electrocardio data and electrocardiogram, or

Processing the blood oxygen data acquired by the blood oxygen sensing module in the acquisition time period to obtain a processed blood oxygen value, or

And processing the temperature data of the temperature sensing module in the acquisition time period to obtain a processed temperature value.

Optionally, said determining the health status of the user during the acquisition time period by the processed vital sign data and the corresponding numerical values and graphs comprises:

determining whether the processed electrocardiogram data is in a normal electrocardiogram index range corresponding to the user;

if the processed electrocardiogram data are in the range of the normal electrocardiogram indexes corresponding to the user, determining that the heart state of the user is normal; if the processed electrocardiogram data are not in the normal electrocardiogram index range corresponding to the user, determining that the heart state of the user is abnormal, and giving an alarm; or

Determining whether the processed blood oxygen data is in a normal blood oxygen index range corresponding to the user;

if the processed blood oxygen data is in the range of the normal blood oxygen index corresponding to the user, determining that the blood oxygen state of the user is normal; if the processed blood oxygen data is not in the normal blood oxygen index range corresponding to the user, determining that the blood oxygen state of the user is abnormal, and sending an alarm; or

Determining whether the processed body temperature data is in a normal body temperature index range corresponding to the user;

if the processed body temperature data is in the normal body temperature index range corresponding to the user, determining that the body temperature state of the user is normal; and if the processed body temperature data is not in the normal body temperature index range corresponding to the user, determining that the body temperature state of the user is abnormal, and giving an alarm.

Determining whether the processed electrocardiogram data is in a normal electrocardiogram index range corresponding to the user, determining whether the processed blood oxygen data is in a normal blood oxygen index range corresponding to the user, and determining whether the processed body temperature data is in a normal body temperature index range corresponding to the user.

If the processed electrocardio data, the blood oxygen data and the body temperature data are all in the normal index range corresponding to the user, determining that the user is healthy; and if one or more of the processed electrocardio data, the blood oxygen data and the body temperature data is not in the normal index range corresponding to the user, determining that the user is unhealthy and sending an alarm.

According to a third aspect of the present invention, a portable vital sign monitoring system is provided, the system includes the portable vital sign monitoring device according to the above technical solution, the vital sign monitoring data processing method according to the above technical solution, an upper computer and an actuator, the actuator is configured to execute the vital sign monitoring data processing method, the portable vital sign monitoring device and the upper computer are connected through the transmission component, the upper computer supplies power to the portable vital sign monitoring device through the transmission component and transmits the vital sign data acquired by the portable vital sign monitoring device to the upper computer through the transmission component, and the upper computer is configured to display monitored values, diagrams and health states.

(III) advantageous effects

According to the technical scheme, the invention has the following beneficial effects:

(1) the vital sign sensing assembly is arranged in the invention, so that the blood oxygen, the electrocardio and the body temperature of a user can be monitored, the problem of single kinetic energy is solved, the health condition of the user is comprehensively judged by using the blood oxygen data, the electrocardio data and the body temperature data, and the probability of misjudgment is reduced.

(2) The portable monitoring device can supply energy and transmit acquired data at the same time, so that the problem that the portable monitoring device cannot monitor during charging is solved.

Drawings

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

FIG. 1 is a schematic structural diagram of a portable vital signs monitoring device of the present invention;

FIG. 2 is a schematic diagram of the portable vital signs monitoring device assembly of the present invention;

FIG. 3 is a schematic diagram of a method for processing vital sign monitoring data according to the present invention;

FIG. 4 is a schematic diagram of the ECG data processing of the present invention;

FIG. 5 is a schematic diagram of blood oxygen data processing according to the present invention;

FIG. 6 is a schematic view of temperature data processing according to the present invention;

FIG. 7 is a schematic view of health assessment according to the present invention;

fig. 8 is a schematic view of a portable vital signs monitoring system of the present invention.

Detailed Description

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

To further explain the present invention, first, a portable vital signs monitoring device disclosed in the embodiments of the present invention is described in detail, as shown in fig. 1 and fig. 2, the portable vital signs monitoring device includes: the vital sign sensing assembly 4, the signal processing circuit assembly 8, the transmission assembly 13 and the main control assembly 12;

the vital sign sensing component 4 is used for acquiring vital sign signals, the vital sign sensing component 4 comprises an electrocardio sensing module 5, a blood oxygen sensing module 6 and a temperature sensing module 7, the electrocardio sensing module 5 is used for acquiring electrocardio signals, the electrocardio sensing module 5 comprises an electrocardio acquisition electrode 3, the blood oxygen sensing module 6 is used for acquiring blood oxygen saturation signals, and the temperature sensing module 7 is used for acquiring temperature signals;

the signal processing circuit assembly 8 is used for filtering and converting vital sign signals, the signal processing circuit assembly 8 comprises an electrocardio sensing module processing circuit 9, a blood oxygen sensing module processing circuit 10 and a temperature sensing module processing circuit 11, the electrocardio sensing module processing circuit 9 is used for filtering electrocardio signals and converting electrocardio signals into electrocardio digital signals, the blood oxygen sensing module processing circuit 10 is used for filtering blood oxygen signals and converting blood oxygen signals into blood oxygen digital signals, and the temperature sensing module processing circuit 11 is used for filtering temperature signals and converting temperature signals into temperature digital signals;

the transmission assembly 13 is used for signal transmission and power transmission, the transmission assembly 13 comprises a signal transmission circuit 14 and a power transmission circuit 15, the signal transmission circuit 14 is used for information transmission, and the power transmission circuit 15 is used for power transmission;

the main control component 12 is used for controlling the start and the stop of the vital sign sensing component 4 and the signal processing circuit component 8.

The vital sign sensing component 4, the signal processing circuit component 8, the transmission component 13, the main control component 12 and the transmission component 13 are connected through wires.

Specifically, the electrocardiographic sensing module 5 is composed of a BMD101 chip, an electrocardiographic collecting electrode 1 and a wire, the BMD101 chip is connected with the electrocardiographic collecting electrode 1 through a wire, the BMD101 chip is connected with an electrocardiographic sensing module processing circuit 9 through a wire, a temperature sensing module 7 is connected with a temperature sensing module processing circuit 11 through a wire, the temperature sensing module 7 is an infrared temperature sensing chip or a thermal temperature sensor chip and is placed inside a temperature detection hole 1 of the portable vital sign monitoring device, wherein the infrared temperature sensing chip can be MLX60632, the thermal temperature sensor chip can be 302max 05, the blood oxygen sensing module 6 is connected with a blood oxygen sensing module processing circuit 10 through a wire, the blood oxygen sensing module 6 is an AFE4403 chip and is placed inside a blood oxygen detection hole 2 of the portable vital sign monitoring device, and the main control component 12 is STM32K6U 8;

the portable vital sign monitoring equipment of this embodiment is small, and portable has got rid of the heavy sense that conventional equipment bulky brought and the problem that can't carry, can detect user's electrocardiosignal, oxyhemoglobin saturation signal and temperature signal, and easy and simple to handle, only needs to insert transmission assembly 13 host computer, selects the vital sign type that wants the test, obtains the result through data processing. For example, when selecting to test electrocardiogram, the user can put the finger on the surface of the electrocardiogram collecting electrode 1, and the electrocardiogram data and electrocardiogram can be obtained after a period of time. Selecting to test the blood oxygen saturation, placing a finger on the surface of the blood oxygen detection hole 2 by a user, obtaining the blood oxygen value after a period of time, selecting the test temperature, when the temperature sensing module 7 is an infrared temperature sensing chip, the temperature detection hole 1 faces to a cochlea, a forehead or a wrist, obtaining body temperature data after a period of time, when the temperature sensing module 7 is a heat-sensitive temperature sensing chip, the temperature detection hole 1 is aligned to the forehead or the wrist, obtaining the body temperature data within a certain period of time, and compared with the conventional detection, greatly simplifying the detection steps; portable vital sign monitoring facilities passes through transmission assembly 13 and upper computer connection back, and the upper computer passes through electric energy transmission circuit 15 in the transmission assembly 13 for portable vital sign monitoring facilities function, and portable vital sign monitoring facilities passes through signal transmission circuit 14 in the transmission assembly 13 and transmits information acquisition for the upper computer, has solved the problem that portable monitoring facilities on the market can't monitor when charging.

In the embodiment, the electrocardio acquisition electrode 1 is a dry electrode, and conductive paste does not need to be coated when acquiring electrocardiosignals, so that the use steps are simplified, and the service life of the electrocardio acquisition electrode 1 is prolonged.

In the embodiment, the signal transmission circuit 14 and the electric energy transmission circuit 15 share one interface, and the information transmission and energy supply of the portable vital sign monitoring equipment and the upper computer can be completed through one interface, so that the number of the interfaces is reduced, and the portable vital sign monitoring equipment is convenient to use.

As shown in fig. 2 and 3, a method for processing vital sign monitoring data disclosed in an embodiment of the present invention is described in detail, and the method includes:

s1, determining the collected vital sign data;

in step S1, specifically, the user communicates the portable vital sign monitoring device with the upper computer through the transmission component 13, the upper computer determines the collected vital sign data, and the user determines to collect electrocardiographic data of the vital sign data or determines to collect blood oxygen data of the vital sign data or determines to collect temperature data of the vital sign data.

S2, controlling the vital sign data collected by the vital sign sensing assembly;

in step S2, specifically, the electrocardiographic data acquired by the electrocardiographic sensing module 5 or the blood oxygen data acquired by the blood oxygen sensing module 6 or the temperature data acquired by the temperature sensing module 7 is controlled.

And S3, determining the health state of the user according to the vital sign data.

In step S3, the vital sign data acquired by the vital sign sensing assembly 4 in the acquisition time period is processed to obtain processed vital sign data and corresponding values and graphs, and the health status of the user in the acquisition time period is determined according to the processed vital sign data and the corresponding values and graphs.

Specifically, the electrocardio data in the acquisition time period through the electrocardio sensing module 5 is processed to obtain the processed electrocardio data and electrocardiogram, whether the processed electrocardio data is in the normal electrocardio index range corresponding to the user or not is determined, and if the processed electrocardio data is in the normal electrocardio index range corresponding to the user, the heart state of the user is determined to be normal; if the processed electrocardio data is not in the range of the corresponding normal electrocardio index of the user, determining that the heart state of the user is abnormal, and giving an alarm; processing the blood oxygen data acquired by the blood oxygen sensing module 6 in the acquisition time period to obtain a processed blood oxygen value, and determining that the blood oxygen state of the user is normal if the processed blood oxygen data is in a normal blood oxygen index range corresponding to the user; and if the processed blood oxygen data is not in the corresponding normal blood oxygen index range of the user, determining that the blood oxygen state of the user is abnormal, and sending an alarm. Processing the temperature data acquired by the temperature sensing module 7 in the acquisition time period to obtain a processed temperature value, and determining that the body temperature state of the user is normal if the processed body temperature data is in a normal body temperature index range corresponding to the user; and if the processed body temperature data is not in the normal body temperature index range corresponding to the user, determining that the body temperature state of the user is abnormal, and giving an alarm. The method comprises the steps of completing acquisition and processing of electrocardio data within a specified time, acquiring and processing of blood oxygen data and acquiring and processing of temperature data, determining whether the processed electrocardio data are in a normal electrocardio index range corresponding to a user, determining whether the processed blood oxygen data are in a normal blood oxygen index range corresponding to the user, determining whether the processed body temperature data are in a normal body temperature index range corresponding to the user, determining that the user is healthy if the processed electrocardio data, blood oxygen data and body temperature data are in the normal index range corresponding to the user, and determining that the user is unhealthy if the processed electrocardio data, blood oxygen data and body temperature data are not in the normal index range corresponding to the user, and giving an alarm.

Fig. 4 shows an electrocardiographic data processing method, and this embodiment is described by way of example with reference to fig. 1 and fig. 2, and as shown in fig. 4, includes the following steps:

step 1: and determining to acquire the electrocardiogram data.

In step 1, specifically, the user communicates the portable vital sign monitoring device with an upper computer through a transmission component 13, and the upper computer determines the acquired electrocardiogram data.

Step 2: the electrocardio data of the electrocardio sensing module 5 in the acquisition time period is controlled.

In step 2, specifically, the user places the left finger and the right finger on the surface of the electrocardiographic acquisition electrode 3 respectively to acquire electrocardiographic signals of the user, and the acquisition time period is between 30 seconds and 1 minute.

And step 3: and processing the electrocardiogram data in the acquisition time period to obtain the processed electrocardiogram data and electrocardiogram.

In step 3, specifically, the acquired electrocardiographic data is subjected to filtering processing and converted into an electrocardiographic digital signal through the electrocardiographic sensing module processing circuit 9, so that the signal-to-noise ratio of the electrocardiographic signal is improved, and invalid signals are removed through an algorithm, so that the processed electrocardiographic data and electrocardiogram are obtained.

And 4, step 4: and determining whether the processed electrocardiogram data is in the normal electrocardiogram index range corresponding to the user.

In step 4, specifically, whether the processed electrocardiographic data is in the normal electrocardiographic index range corresponding to the user is determined, and if the processed electrocardiographic data is in the normal electrocardiographic index range corresponding to the user, the heart state of the user is determined to be normal; and if the processed electrocardio data is not in the range of the corresponding normal electrocardio index of the user, determining that the heart state of the user is abnormal, and giving an alarm.

Fig. 5 shows a blood oxygen data processing method, which is exemplified in the present embodiment with reference to fig. 1 and fig. 2, and as shown in fig. 5, the method includes the following steps:

step 1: and determining to acquire blood oxygen data.

In step 1, specifically, the user communicates the portable vital sign monitoring device with an upper computer through the transmission component 13, and the upper computer determines the collected blood oxygen data.

Step 2: controls blood oxygenation data over the acquisition time period by blood oxygenation sensing module 6.

In step 2, specifically, the user places a finger on the surface of blood oxygen detecting hole 2 for collecting blood oxygen signal, and the collecting time period is between 30 seconds and 1 minute.

And step 3: and processing the blood oxygen data in the acquisition time period to obtain a processed blood oxygen value.

In step 3, the collected blood oxygen data is processed by filtering the blood oxygen signal and converting the blood oxygen signal into a blood oxygen digital signal through the blood oxygen sensing module processing circuit 10, so as to improve the signal-to-noise ratio of the blood oxygen signal, and remove the invalid signal through an algorithm, thereby obtaining a processed blood oxygen value.

And 4, step 4: and determining whether the processed blood oxygen value is in the normal electrocardio index range corresponding to the user.

In step 4, specifically, if the processed blood oxygen data is in the normal blood oxygen index range corresponding to the user, it is determined that the blood oxygen state of the user is normal; and if the processed blood oxygen data is not in the corresponding normal blood oxygen index range of the user, determining that the blood oxygen state of the user is abnormal, and sending an alarm.

Fig. 6 shows a temperature data processing method, and this embodiment is described by way of example with reference to fig. 1 and fig. 2, and as shown in fig. 6, includes the following steps:

step 1: and determining collected temperature data.

In step 1, specifically, the user communicates the portable vital sign monitoring device with an upper computer through the transmission component 13, and the upper computer determines the acquired temperature data.

Step 2: the temperature data of the acquisition time period is controlled by the temperature sensing module 7.

In step 2, specifically, the user places a finger on the surface of the temperature detection hole 1 for collecting the temperature signal, and the collection time period is between 30 seconds and 1 minute.

And step 3: and processing the temperature data in the acquisition time period to obtain a processed temperature value.

In step 3, the collected temperature data is specifically subjected to filtering processing by the temperature sensing module processing circuit 11, and the temperature signal is converted into a temperature digital signal, so that the signal-to-noise ratio of the temperature signal is improved, and an invalid signal is removed by an algorithm, so that a processed temperature value is obtained.

In step 4, specifically, if the processed body temperature data is in the normal body temperature index range corresponding to the user, determining that the body temperature state of the user is normal; and if the processed body temperature data is not in the normal body temperature index range corresponding to the user, determining that the body temperature state of the user is abnormal, and giving an alarm.

As shown in fig. 7, a result of processing vital sign data is given to determine whether a user is healthy, this embodiment is described with reference to fig. 2 to 6, and as shown in fig. 7, the acquisition and processing of electrocardiographic data, the acquisition and processing of blood oxygen data, and the acquisition and processing of temperature data are completed within a specified time, it is determined whether the processed electrocardiographic data is within a normal electrocardiographic index range corresponding to the user, it is determined whether the processed blood oxygen data is within a normal blood oxygen index range corresponding to the user, it is determined whether the processed body temperature data is within a normal body temperature index range corresponding to the user, if the processed electrocardiographic data, blood oxygen data, and body temperature data are within the normal index range corresponding to the user, it is determined that the user is healthy, if the processed electrocardiographic data, blood oxygen data, and body temperature data are not within the normal index range corresponding to the user, and determining that the user is unhealthy and sending an alarm.

As shown in fig. 8, a portable vital sign monitoring system is provided, the embodiment is described by way of example with reference to fig. 1 and fig. 2, as shown in fig. 8, the portable vital sign monitoring system includes a portable vital sign monitoring device, a vital sign monitoring data processing method, an upper computer and an actuator, the actuator is used for executing the vital sign monitoring data processing method, the portable vital sign monitoring device and the upper computer are connected through a transmission component 12, the upper computer supplies power to the portable vital sign monitoring device through the transmission component 12 and transmits vital sign data collected by the portable vital sign monitoring device to the upper computer through the transmission component 12, and the upper computer is used for displaying monitored values, diagrams and health states.

Specifically, the user passes through transmission assembly 13 with portable vital sign monitoring facilities and is connected with the host computer, and the host computer passes through transmission assembly 13 and supplies the electric energy for portable vital sign monitoring facilities, and signal processing circuit subassembly 8 and main control module 12 in the portable vital sign monitoring facilities pass through transmission assembly 13 and host computer UNICOM, and the vital sign data of gathering are confirmed at the host computer. For example, electrocardio data is collected, a user places a left finger and a right finger on the surface of the electrocardio collecting electrode 3 respectively to collect electrocardio signals of the user, and the collecting time period is 30 seconds and 1 minute; blood oxygen data is collected, and a user places a finger on the surface of the blood oxygen detection hole 2 for collecting blood oxygen signals, wherein the collection time period is 30 seconds and 1 minute; the user places fingers on the surface of the temperature detection hole 1 for collecting temperature signals, the collection time period is 30 seconds to 1 minute, the collected vital sign data is processed by a vital sign monitoring data processing method in an actuator and then transmitted to an upper computer for display through a transmission component 12, when the electrocardio is monitored, the upper computer displays the electrocardiogram and the electrocardio data after the collection and the processing, whether the heart is normal is displayed, when the blood oxygen is monitored, the upper computer displays the blood oxygen value after the collection and the processing and displays the blood oxygen value, when the temperature is monitored, the upper computer displays the temperature value after the collection and the processing and displays the body temperature whether the body temperature is normal, the collection and the processing of the electrocardio data are completed in a specified time, the collection and the processing of the blood oxygen data are performed, the collection and the processing of the temperature data are performed, and whether the processed electrocardio data are in a normal electrocardio index range corresponding to the user is determined, determining whether the processed blood oxygen data is in a normal blood oxygen index range corresponding to the user, determining whether the processed body temperature data is in a normal body temperature index range corresponding to the user, displaying that the user is healthy if the processed electrocardio data, blood oxygen data and body temperature data are in the normal index range corresponding to the user, and displaying that the user is unhealthy if the processed electrocardio data, blood oxygen data and body temperature data are not in the normal index range corresponding to the user, and giving an alarm.

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

Claims

1. A portable vital signs monitoring device, comprising: the vital sign sensing assembly, the signal processing circuit assembly, the transmission assembly and the main control assembly are arranged in the main control box;

2. A portable vital signs monitoring device according to claim 1, wherein the ecg acquisition electrode is a dry electrode.

3. The portable vital signs monitoring device of claim 1, wherein the signal transmission circuit and the power transmission circuit share an interface.

4. A processing method of vital sign monitoring data is applied to a portable vital sign monitoring device, and comprises the following steps:

determining collected vital sign data;

controlling vital sign data collected by the vital sign sensing assembly;

and determining the health state of the user according to the vital sign data.

5. A method for processing vital sign monitoring data according to claim 4, wherein the controlling the vital sign data collected by the vital sign sensing assembly comprises:

determining an acquisition time period for the vital sign sensing assembly;

6. The method for processing vital sign monitoring data according to claim 4, wherein the determining the health status of the user according to the vital sign data comprises:

7. A method for processing vital sign monitoring data according to claim 4, wherein the determining the acquired vital sign data comprises: determining the electrocardio data of the acquired vital sign data or determining the blood oxygen data of the acquired vital sign data or determining the temperature data of the acquired vital sign data.

8. The method for processing vital sign monitoring data according to claim 6, wherein the processing the vital sign data of the vital sign sensing assembly during the acquisition time period to obtain processed vital sign data and corresponding values and graphs comprises:

9. The method for processing vital sign monitoring data according to claim 6, wherein the determining the health status of the user during the acquisition time period through the processed vital sign data and the corresponding numerical values and graphs comprises:

10. A portable vital signs monitoring system, comprising the portable vital signs monitoring device of any one of claims 1 to 3, the vital signs monitoring data processing method of any one of claims 4 to 9, an upper computer and an actuator, wherein the actuator is configured to perform the vital signs monitoring data processing method, the portable vital signs monitoring device and the upper computer are connected through the transmission component, the upper computer supplies power to the portable vital signs monitoring device through the transmission component and the vital signs data collected by the portable vital signs monitoring device is transmitted to the upper computer through the transmission component, and the upper computer is configured to display monitored values, graphs and health status.