CN110890152A - Medical treatment detects thing networking systems - Google Patents

Abstract

The invention discloses a medical detection Internet of things system which comprises a medical detection instrument, mobile equipment and a server, wherein the medical detection instrument comprises a detection module, a communication module, a power supply module, a microcontroller and an OLED display screen. According to the medical detection Internet of things system, detected data can be stored in a database of a server, various detection results of users are organized together to establish a file, the file can be remotely checked in real time, remote diagnosis of medical staff is facilitated, a medical detection instrument is operated through mobile equipment, keys and an OLED display screen can be omitted on the medical detection instrument, part of cost is reduced, the equipment is more miniaturized, and finally, various modes of obtaining user identities are provided, the detection results and information of testers are stored together, the two-dimensional code bar codes can be used in hospital scenes by scanning, user IDs can be directly input to be used in home scenes, the using effect is better, and better using prospects are brought.

Description

A medical detection IoT system

technical field

The invention relates to the fields of medical instruments, health detection and the Internet of Things, in particular to a medical detection Internet of Things system.

Background technique

Medical devices are undergoing a major transformation around the world, mostly based on wireless technology and the need to miniaturize devices. The aging population in China and the increasing number of patients with chronic diseases, patients need to detect certain physiological parameters on time, such as diabetic patients need to monitor blood sugar regularly, hypertensive patients need to constantly monitor blood pressure, so the market demand for portable medical monitors has also increased dramatically. .

The existing electronic medical detectors have certain drawbacks. First of all, most of the small electronic medical detectors can detect a parameter and output it on the instrument. Although the equipment has been miniaturized, the detection results can only be displayed on the local machine. If the patient uses it at home, the test results cannot be immediately reflected on the medical staff, and it is more inconvenient to establish electronic medical files. Therefore, remote diagnosis by medical staff and long-term preservation of personal data cannot be realized. Secondly, the existing small Medical testing instruments have screens and buttons to interact with users, while small medical testing instruments have a large demand and high production costs. Finally, the existing small medical testing instruments only store the test results in the local machine, without There is user information. If it is used by multiple people, it is impossible to determine which user each record corresponds to when viewing the data, which does not meet people's requirements. For this reason, we propose an Internet of Things system for medical detection.

SUMMARY OF THE INVENTION

The main purpose of the present invention is to provide an Internet of Things system for medical detection, which can effectively solve the problems in the background technology.

To achieve the above object, the technical scheme adopted in the present invention is:

A medical detection Internet of Things system, including a medical detection instrument, a mobile device and a server, the medical detection instrument includes a detection module, a communication module, a power supply module, a microcontroller and an OLED display screen, and the detection module communicates with the mobile device through the communication module. device connection, a wireless module is arranged inside the mobile device, and the mobile device is connected to the server through the wireless module;

The detection module: for detecting people's body data:

The communication module: used to transmit the physical data detected by the detection module to the mobile device:

The mobile device: used to display the data detected by the detection module and control the operation of the detection module;

The wireless module: used to transmit the detected data to the server.

Preferably, the power supply module includes a power supply and a power supply circuit, the power supply circuit adopts a voltage regulator circuit, the detection module includes but is not limited to a blood pressure sensor, a body temperature sensor, an electrocardiogram sensor and a heart rate sensor, and the communication module adopts Bluetooth module.

Preferably, the microcontroller is connected to the detection module and the Bluetooth module through a serial port or an IIC communication interface, and the microcontroller is connected to the OLED display screen through an IIC or SPI interface.

Preferably, the server includes but is not limited to a cloud platform and a server built in a local area network.

Preferably, the mobile device includes but is not limited to a mobile phone and a tablet computer, an APP is provided on the mobile device, the mobile device is connected to the Internet through wifi or a mobile data network, and a connection is established with the server in the APP.

Preferably, the mobile device is provided with a camera and a fingerprint sensor, and the APP can call the camera and the fingerprint sensor to perform user identification, and the identification methods include but are not limited to two-dimensional code identification, barcode identification, fingerprint identification and User input ID identification.

Preferably, a method for using a medical detection instrument in a medical detection Internet of Things system includes the following steps:

(1) Select the corresponding detection module according to people's detection items, and contact the detection module with people's bodies;

(2) Open the APP on the mobile device, connect it with the medical detection instrument through Bluetooth, and start the detection module through the mobile device to measure people's physiological signals;

(3) The detection module converts the detected physiological signals into electrical signals, and transmits the data to the microprocessor;

(4) The microprocessor sends the detected data to the Bluetooth module and the OLED display screen, the OLED display screen displays the detected data, and the Bluetooth module transmits the data to the APP on the mobile device.

Preferably, a method for using an APP in a mobile device in a medical detection Internet of Things system includes the following steps:

①The user opens the APP, and the identity recognition method of the APP recognizes the user's identity and then enters the APP, activates the Bluetooth function of the mobile device, and connects the mobile device with the medical testing instrument;

②Control the operation of the medical testing instrument through the APP, and receive the testing data transmitted by the medical testing instrument;

③ The APP displays the data, and encapsulates the user identity, test items, test time and test results into JSON format;

④ The APP establishes a TCP connection with the server according to the server IP and port number, and sends the packaged JSON string to the server according to the server's transmission protocol.

Preferably, in step 4, the transmission protocol includes but is not limited to http, https and MQTT protocol, after the data enters the server, the server parses the JSON format data after receiving the data, and saves the received data in the database , each piece of data in the database contains the user ID number, test item, test result, test time content, and operate the database to filter out all the data of each user with the user ID number as the primary key, including multiple test results for each user , to create a profile for each user.

Compared with the prior art, the present invention provides an Internet of Things system for medical detection, which has the following beneficial effects:

1. Store the detected data in the database of the server, and organize the user's various test results together to create a file, which can be viewed remotely in real time, which is convenient for medical staff to diagnose remotely, and it is convenient for medical staff to understand the patient's situation in real time, and use and compare Convenience and the ability to facilitate long-term preservation of personal data;

2. The medical testing instrument is connected to the mobile device through Bluetooth, and the medical testing instrument is operated through the mobile device. The buttons and OLED display screen can be omitted on the medical testing instrument, which can reduce some costs and make the medical testing instrument more miniaturized;

3. There are various ways to obtain the user's identity. The test results and the tester's information are saved together. Scanning QR code barcodes can be used in hospital scenarios, and direct input of user IDs can be used in home scenarios. The use effect is better, and the entire medical test The operation of the Internet of Things system is convenient, the use effect is better than the traditional method, and it is more practical to meet people's use requirements.

The parts not involved in the device are the same as the prior art or can be implemented by using the prior art.

Description of drawings

1 is a schematic diagram of the overall structure of a medical detection Internet of Things system of the present invention;

2 is a structural diagram of a medical detection instrument in a medical detection Internet of Things system of the present invention;

3 is a flowchart of a method for using a medical detection instrument in a medical detection Internet of Things system of the present invention;

FIG. 4 is a flowchart of a method for using an APP in a mobile device in a medical detection Internet of Things system of the present invention.

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, but not all of the embodiments.

In the description of the present invention, it should be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inside", " The orientation or positional relationship indicated by "outside" is based on the orientation or positional relationship shown in the accompanying drawings, which is only for the convenience of describing the present invention and simplifying the description, rather than indicating or implying that the referred device or element must have a specific orientation, a specific orientation, and a specific orientation. The orientation configuration and operation of the device should not be construed as a limitation of the present invention.

Example

A medical inspection IoT system, as shown in Figure 1-2, includes medical inspection instruments, mobile devices and servers. The medical inspection instruments include a detection module, a communication module, a power supply module, a microcontroller and an OLED display screen. The detection module passes through The communication module is connected with the mobile device, a wireless module is arranged inside the mobile device, and the mobile device is connected with the server through the wireless module;

Detection module: used to detect people's body data:

Communication module: used to transmit the body data detected by the detection module to the mobile device:

Mobile device: used to display the data detected by the detection module and control the operation of the detection module;

Wireless module: used to transmit detected data to the server.

The power supply module includes a power supply and a power supply circuit, the power supply circuit adopts a voltage regulator circuit, the detection module includes but is not limited to a blood pressure sensor, a body temperature sensor, an electrocardiogram sensor and a heart rate sensor, and the communication module adopts a Bluetooth module.

The microcontroller is connected to the detection module and the Bluetooth module through the serial port or IIC communication interface, and the microcontroller is connected to the OLED display through the IIC or SPI interface.

Servers include but are not limited to servers built in cloud platforms and local area networks.

Mobile devices include but are not limited to mobile phones and tablet computers. An APP is set on the mobile device. The mobile device is connected to the Internet through wifi or a mobile data network, and a connection is established with the server in the APP.

The mobile device is provided with a camera and a fingerprint sensor, and the APP can call the camera and fingerprint sensor for user identification. Identification methods include but are not limited to two-dimensional code identification, barcode identification, fingerprint identification and user input ID identification.

As shown in Figure 3, a method for using a medical detection instrument in a medical detection Internet of Things system includes the following steps:

(1) Select the corresponding detection module according to people's detection items, and contact the detection module with people's bodies;

(2) Open the APP on the mobile device, connect it with the medical detection instrument through Bluetooth, and start the detection module through the mobile device to measure people's physiological signals;

(3) The detection module converts the detected physiological signals into electrical signals, and transmits the data to the microprocessor;

(4) The microprocessor sends the detected data to the Bluetooth module and the OLED display screen, the OLED display screen displays the detected data, and the Bluetooth module transmits the data to the APP on the mobile device.

As shown in Figure 4, a method for using an APP in a mobile device in a medical detection Internet of Things system includes the following steps:

①The user opens the APP, and the identity recognition method of the APP recognizes the user's identity and then enters the APP, activates the Bluetooth function of the mobile device, and connects the mobile device with the medical testing instrument;

②Control the operation of the medical testing instrument through the APP, and receive the testing data transmitted by the medical testing instrument;

③ The APP displays the data, and encapsulates the user identity, test items, test time and test results into JSON format;

④ The APP establishes a TCP connection with the server according to the server IP and port number, and sends the encapsulated JSON string to the server according to the server's transmission protocol. The transmission protocol includes but is not limited to http, https and MQTT protocols. After the data enters the server, the server After receiving the data, parse the JSON format data, save the received data in the database, each data in the database contains the user ID number, test item, test result, test time content, and operate the database, with the user ID number as the primary key Filter out all data of each user, including multiple detection results of each user, and create a file for each user.

It should be noted that the present invention is an Internet of Things system for medical detection. When the APP performs identity identification, the APP obtains the user identity information by calling the camera to scan the two-dimensional code/barcode. Barcode paper bracelet, this method can be used in hospital mobile nurse station) to get a string of character data as user ID, or directly input user ID in the text input control on APP (can be used for home use), user ID can be character and a combination of numbers;

When using a mobile device to view historical records, after the APP connects to the server, it can send a database connection request to the server, and the server reads the database to query the data. The server returns the data to the client, and the APP on the mobile device parses the data. , the APP on the mobile device calls the graphics library, displays the user test result data in the form of graphs on the interface, and draws a trend graph, which is convenient for users or medical staff to view;

The server has a fixed IP address, and database software is installed on the server. When the server is connected to the APP, the server listens to the port and waits to establish a connection with the client. After the connection is successful, if the detection result data is sent, the server will respond to the JSON format after receiving the data. The data is parsed, and the received data is stored in the database. Each piece of data in the database contains the user ID number, test item, test result, and test time content. The database is operated, and the user ID number is used as the primary key to filter out all user IDs. Data, which contains multiple test results of each user, and establishes a file for each user; if the server receives a request from the client to connect to the database, it will log in to the database, query the data, and encapsulate the queried data and return it to the client ;

When the medical detection instrument is connected to the mobile device, the Bluetooth module inside the medical detection instrument acts as a slave to initiate a broadcast. After the mobile device is paired and connected, after the pairing is successful, the message sent by the mobile device APP is received according to the Bluetooth protocol and sent to the microcontroller. At the same time, after receiving the data sent by the microcontroller, it is sent to the APP of the mobile device according to the Bluetooth protocol;

When in use, this patent can store the detected data in the database of the server, and organize various test results of the user to create a file, which can be viewed remotely in real time, which is convenient for medical staff to diagnose remotely, and it is convenient for medical staff to understand the patient's condition in real time. It is more convenient to use, and it is convenient for people to save personal data for a long time;

In this patent, the medical testing instrument is connected to the mobile device through Bluetooth, and the medical testing instrument is operated through the mobile device. The buttons and OLED display screen can be omitted on the medical testing instrument (the test data can be viewed directly through the mobile phone APP), which reduces part of the cost and enables Medical testing instruments are more miniaturized;

This patent has multiple ways to obtain the user's identity. The test results are stored together with the tester's information. Scanning QR code barcodes can be used in hospital scenarios. Direct input of user IDs can be used in home scenarios. The use effect is better, and the entire medical test The operation of the Internet of Things system is convenient, the use effect is better than the traditional method, and it is more practical to meet people's use requirements.

The basic principles and main features of the present invention and the advantages of the present invention have been shown and described above. Those skilled in the art should understand that the present invention is not limited by the above-mentioned embodiments, and the descriptions in the above-mentioned embodiments and the description are only to illustrate the principle of the present invention. Without departing from the spirit and scope of the present invention, the present invention will have Various changes and modifications fall within the scope of the claimed invention. The claimed scope of the invention is defined by the appended claims and their equivalents.

Claims (9)

1. A medical detection Internet of things system is characterized in that: the medical detection instrument comprises a detection module, a communication module, a power module, a microcontroller and an OLED display screen, wherein the detection module is connected with the mobile device through the communication module, a wireless module is arranged in the mobile device, and the mobile device is connected with the server through the wireless module;

the detection module: for detecting physical data of a person:

the communication module: for transmitting to the mobile device the body data detected by the detection module:

the mobile device: the data display module is used for displaying the data detected by the detection module and controlling the operation of the detection module;

the wireless module: for transmitting the detected data to the server.

2. The medical detection internet of things system of claim 1, wherein: the power supply module comprises a power supply and a power supply circuit, the power supply circuit adopts a voltage stabilizing circuit, the detection module comprises but is not limited to a blood pressure sensor, a body temperature sensor, an electrocardio sensor and a heart rate sensor, and the communication module adopts a Bluetooth module.

3. The medical detection internet of things system of claim 1, wherein: the microcontroller is connected with the detection module and the Bluetooth module through a serial port or an IIC communication interface, and the microcontroller is connected with the OLED display screen through an IIC or SPI interface.

4. The medical detection internet of things system as claimed in claim 2, wherein: the server includes, but is not limited to, a cloud platform and a server built in a local area network.

5. The medical detection internet of things system of claim 3, wherein: the mobile device comprises but is not limited to a mobile phone and a tablet computer, an APP is arranged on the mobile device, the mobile device is accessed to the Internet through wifi or a mobile data network, and connection is established with the server in the APP.

6. The medical detection internet of things system of claim 1, wherein: be provided with camera and fingerprint sensor on the mobile device, APP can call camera and fingerprint sensor and carry out user identification, the identification mode includes but not limited to two-dimensional code identification, bar code identification, fingerprint identification and user input ID discernment.

7. A use method of a medical detection instrument in a medical detection Internet of things system is characterized by comprising the following steps:

(1) selecting a corresponding detection module according to the detection items of people, and contacting the detection module with the body of people;

(2) opening an APP on the mobile equipment, connecting the APP with a medical detection instrument through Bluetooth, starting a detection module through the mobile equipment, and measuring physiological signals of people;

(3) the detection module converts the detected physiological signals into electric signals and transmits data to the microprocessor;

(4) on microprocessor sent bluetooth module and OLED display screen with the data that detect, the OLED display screen shows detection data, during bluetooth module transmits data transmission for APP on the mobile device.

8. A method for using APP in mobile equipment in a medical detection Internet of things system is characterized by comprising the following steps:

① the user opens APP, the user identity is identified by the APP identity identification mode and enters the APP, the Bluetooth function of the mobile device is started, and the mobile device is connected with the medical detection instrument;

② controlling the operation of the medical detection instrument through APP and receiving the detection data transmitted by the medical detection instrument;

③ APP displays the data and packages the user identity, test items, test time and test results into JSON format;

④ the APP establishes TCP connection with the server according to the server IP and the port number, and sends the packaged JSON string to the server according to the transmission protocol of the server.

9. The system of claim 8, wherein in step ④, the transmission protocols include, but are not limited to, http, https, and MQTT protocols, the server parses JSON-format data after receiving the data, stores the received data in a database, each piece of data in the database includes a user identity number, a test item, a test result, and a test time content, and operates the database to screen out all pieces of data of each user using the user identity number as a primary key, wherein the data includes a plurality of test results of each user, and creates a profile for each user.

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