CN103637511B - Wristband capable of intelligently monitoring human health status and method thereof - Google Patents

Abstract

The invention discloses a wristband capable of intelligently monitoring human health status, the wristband comprises a wristband body, an intelligent hand-held device and a cloud server, the intelligent hand-held device enables data communication with the cloud server through network, a pulse detection assembly and a microcontroller are provided in the wristband body, the pulse detection assembly is composed of a minisize pneumatic device and a pressure transducer; an A/D converting unit, a D/A converting unit, a communication interface and a CPU are provided in the microcontroller, a control signal output end of the CPU is connected to an input end of the minisize pneumatic device through the D/A converting unit, a signal input end of the CPU is connected to an output end of the pressure transducer through the A/D converting unit, and the CPU enables data communication with the intelligent hand-held device through the communication interface and network. According to the invention, the pulse condition can be detected by the wristband, subcutaneous tissue detection can be realized, so that monitor efforts of the wristband is enhanced, and the wristband enables comprehensive monitoring to human health status.

Description

Bracelet and method capable of intelligently monitoring human health status

technical field

The invention relates to a jewelry item, in particular to a bracelet capable of intelligently monitoring the health status of a human body and a method thereof. the

Background technique

With the rapid development of the market economy, people's pace of life is getting faster and faster. People are often busy with various jobs and entertainment, which leads to excessive mental stress and irregular lifestyles, resulting in sub-healthy human body, various Latency of chronic disease. With the gradual acceleration of the incidence of various diseases, people pay more and more attention to their own health status. In the prior art, the technology for real-time monitoring of human health status has been formed. the

Chinese patent application number: 201220438596.X discloses a human health monitoring system based on a mobile phone cloud computing platform, which includes a cloud computing platform and medical information sensors, and the medical information sensors include biometric information sensors, sensor data storage and zigbee In the transmitting module, the biometric information sensor includes a heart rate sensor, a body temperature sensor, a blood pressure sensor, an electrocardiogram sensor and a respiration sensor. The collected human heart rate, body temperature, blood pressure and ECG data are stored in the sensor data memory through the biometric information sensor worn by the human body, and then transmitted to the cloud computing platform through the zigbee transmission module, and the cloud computing platform will receive the data A health report is obtained after processing and analysis, thereby realizing real-time monitoring of human health status. However, this invention needs to integrate multiple sensors in the biometric information sensor, resulting in a complex structure of the entire system. the

Chinese patent application number: 201310110565.0 discloses a health monitoring and warning system and method, which includes a wireless electronic measuring watch device at the sending end, a cloud computing center and a smart phone at the receiving end. , pulse and other data are collected and transmitted to the cloud computing center, and after being processed by the cloud computing center, each data is transmitted to the receiving smartphone. This invention can help people prevent and discover various diseases remotely, timely and effectively. However, the The invention can only monitor the pulse of the human body, but it cannot reflect the subcutaneous tissue of the human body in a timely and effective manner, and the monitoring is low; at the same time, the invention only detects and records one pulse, and cannot detect and record the responses of different pulses at the wrist . the

Contents of the invention

The purpose of the present invention is to overcome the deficiencies of the prior art, to provide a wristband and method for intelligently monitoring the health of the human body, through the pressure sensor integrated in the wristband and the biochip capacitive sensor to analyze the pulse condition change information of the human body and the subcutaneous tissue information respectively. Detection and collection are carried out to enhance the monitoring of the wristband, and the whole system has a simple structure and high reliability. the

The object of the present invention is achieved through the following technical solutions: a wristband capable of intelligently monitoring human health conditions, which includes a bracelet body, a smart handheld device and a cloud server, and data is exchanged between the smart handheld device and the cloud server through a network. Communication, the wristband body is equipped with a pulse detection component and a microcontroller. The pulse detection component is composed of a micro-pneumatic device and a pressure sensor. The micro-pneumatic device exerts different pressures on different parts of the bracelet to stimulate The reaction of different pulse conditions, the pressure sensor detects the changes of pulse conditions according to the collected pressure value;

The microcontroller has a built-in A/D conversion unit, D/A conversion unit, communication interface and CPU, the control signal output end of the CPU and the input end of the micro pneumatic equipment are connected through the D/A conversion unit, and the signal of the CPU The input end and the output end of the pressure sensor are connected through the A/D conversion unit, and the data communication between the CPU and the smart handheld device is carried out through the communication interface and the network;

The cloud server is used for data conversion, analysis and mining of collected information, to obtain health detection information, generate health reports, and feed back to smart handheld devices. the

The bracelet body also includes a biochip capacitive sensor for detecting subcutaneous tissue image information, and the output terminal of the biochip capacitive sensor is connected to the signal input terminal of the CPU. the

A method for realizing a wristband capable of intelligently monitoring human health conditions, comprising the following steps:

S1: Wear the wristband on the wrist, send a driving signal to the CPU through the cloud server, and the CPU transmits the received driving signal to the micro-pneumatic device through the D/A conversion unit to make the micro-pneumatic device work;

S2: Different pressures are applied to different parts of the wrist through micro-pneumatic equipment to stimulate the response of different pulse conditions at the wrist;

S3: The pressure sensor detects the change of the pulse condition according to the collected pressure value, and transmits the collected detection information to the CPU;

S4: After the CPU performs preliminary classification and statistics on the pulse detection information, it is sent to the cloud server through the network through the smart handheld device;

S5: The cloud server further analyzes and mines the pulse detection information, compares it with the expert database, generates a health report, and feeds it back to the smart handheld device, so that the wearer can keep abreast of his health status.

The bracelet that can intelligently monitor the health status of the human body also includes a subcutaneous tissue detection step, and the subcutaneous tissue detection step includes: 

S401: Use the biochip capacitive sensor to detect and image the subcutaneous tissue, and transmit the collected detection information and image information to the CPU;

S402: After the CPU performs preliminary classification and statistics on the detection information of the subcutaneous tissue, the information is sent to the cloud server through the network via the smart handheld device;

S403: The cloud server further analyzes and excavates the subcutaneous tissue detection information, compares it with the expert database, obtains health detection information, and feeds it back to the smart handheld device, so that the wearer can keep abreast of his health status. the

The beneficial effects of the present invention are:

1) The wristband not only integrates a pressure sensor for pulse detection, but also contains a biochip capacitive sensor for detection of subcutaneous tissue, which can not only monitor the pulse condition, but also monitor the subcutaneous tissue, thereby enhancing the The monitoring strength of the wristband;

2) Use micro-pneumatic equipment to stimulate different pulse responses at the wrist, which can monitor the health status of the human body in an all-round way;

3) Carry out comprehensive and multi-directional intelligent analysis of the detection results of the wristband through the cloud server, and compare the analysis results with the expert database, so that the health monitoring results are highly reliable;

4) The entire system can realize the collection of human pulse and subcutaneous tissue structure data through pressure sensors and biochip capacitive sensors, which simplifies the system structure. the

Description of drawings

Fig. 1 is a structural schematic block diagram of the present invention;

Fig. 2 is a block diagram of the implementation method of the present invention;

Fig. 3 is a block diagram of the subcutaneous tissue detection process of the present invention;

Fig. 4 is a schematic diagram of the composition of the wristband capable of intelligently monitoring the health status of the human body according to the present invention.

Detailed ways

The technical solution of the present invention will be further described in detail below in conjunction with the accompanying drawings, but the protection scope of the present invention is not limited to the following description. the

As shown in Figure 1 and Figure 4, a bracelet that can intelligently monitor human health conditions includes a bracelet body, a smart handheld device and a cloud server, and data communication is performed between the smart handheld device and the cloud server through a network. The body of the wristband is equipped with a pulse detection component and a microcontroller. The pulse detection component is composed of a micro-pneumatic device and a pressure sensor. The micro-pneumatic device applies different pressures to different parts of the wristband to stimulate the response of different pulse conditions at the wrist. , the pressure sensor detects the change of the pulse condition according to the collected pressure value;

The microcontroller has a built-in A/D conversion unit, D/A conversion unit, communication interface and CPU, the control signal output end of the CPU and the input end of the micro pneumatic equipment are connected through the D/A conversion unit, and the signal of the CPU The input end and the output end of the pressure sensor are connected through the A/D conversion unit, and the data communication between the CPU and the smart handheld device is carried out through the communication interface and the network;

The cloud server is used for data conversion, analysis and mining of collected information, to obtain health detection information, generate health reports, and feed back to smart handheld devices. the

The bracelet body also includes a biochip capacitive sensor for detecting subcutaneous tissue image information, and the output terminal of the biochip capacitive sensor is connected to the signal input terminal of the CPU. the

As shown in Figure 2, a kind of implementation method of the wristband that can intelligently monitor the health condition of human body, it comprises the following steps:

S1: Wear the wristband on the wrist, send a driving signal to the CPU through the cloud server, and the CPU transmits the received driving signal to the micro-pneumatic device through the D/A conversion unit to make the micro-pneumatic device work;

S2: Different pressures are applied to different parts of the wrist through micro-pneumatic equipment to stimulate the response of different pulse conditions at the wrist;

S3: The pressure sensor detects the change of the pulse condition according to the collected pressure value, and transmits the collected detection information to the CPU;

S4: After the CPU performs preliminary classification and statistics on the pulse detection information, it is sent to the cloud server through the network through the smart handheld device;

S5: The cloud server further analyzes and mines the pulse detection information, compares it with the expert database, generates a health report, and feeds it back to the smart handheld device, so that the wearer can keep abreast of his health status.

As shown in Figure 3, the smart bracelet for monitoring human health also includes a subcutaneous tissue detection step. The subcutaneous tissue detection step includes:

S401: Use the biochip capacitive sensor to detect and image the subcutaneous tissue, and transmit the collected detection information and image information to the CPU;

S402: After the CPU performs preliminary classification and statistics on the detection information of the subcutaneous tissue, the information is sent to the cloud server through the network via the smart handheld device;

S403: The cloud server further analyzes and excavates the subcutaneous tissue detection information, compares it with the expert database, obtains health detection information, and feeds it back to the smart handheld device, so that the wearer can keep abreast of his health status.

The above description is only the preferred embodiment of the invention, it should be understood that the invention is not limited to the form disclosed herein, should not be regarded as excluding other embodiments, but can be used in various other combinations, modifications and environments, and can be used in It is within the scope of the ideas described herein, with modification by the above teachings or skill or knowledge in the relevant art. However, changes and changes made by those skilled in the art do not depart from the spirit and scope of the present invention, and should all be within the protection scope of the appended claims of the present invention. the

Claims (2)

1. one kind can the bracelet of intelligent monitoring human health status, it is characterized in that: it comprises bracelet body, intelligent handheld device and Cloud Server, data communication is carried out by network between intelligent handheld device and Cloud Server, pulse condition detection components and microcontroller is provided with in described bracelet body, described pulse condition detection components is made up of minitype pneumatic equipment and pressure sensor, minitype pneumatic equipment applies different pressures to bracelet different parts, in order to excite the reaction of the different pulse condition in wrist place, pressure sensor detects according to the change of gathered force value to pulse condition,

The built-in A/D converting unit of described microcontroller, D/A converting unit, communication interface and CPU, connected by D/A converting unit between the control signal output of CPU and the input of minitype pneumatic equipment, connected by A/D converting unit between the signal input part of CPU and the output of pressure sensor, between CPU and intelligent handheld device, carry out data communication by communication interface and network;

Described Cloud Server is used for carrying out data transformations, analysis and excavation to Information Monitoring, draws health detection information, generates statement-of-health, feeds back to intelligent handheld device;

Described bracelet body also comprises the biochip capacitance sensor for detecting hypodermis image information, and the described output of biochip capacitance sensor is connected with the signal input part of CPU.

2. can the implementation method of bracelet of intelligent monitoring human health status, it is characterized in that: it comprises the following steps:

S1: bracelet is worn in wrist, sends drive singal by Cloud Server to CPU, the drive singal received is sent to minitype pneumatic equipment through D/A converting unit by CPU, makes the work of minitype pneumatic equipment;

S2: apply different pressures everywhere to wrist by minitype pneumatic equipment, to excite the reaction of the different pulse condition in wrist place;

S3: pressure sensor detects according to the change of gathered force value to pulse condition, and the Detection Information collected is sent to CPU;

S4:CPU is sent to Cloud Server by network through intelligent handheld device after carrying out preliminary classification and statistics to pulse condition Detection Information;

S5: Cloud Server is further analyzed pulse condition Detection Information and excavates, contrasts itself and expert database, generates statement-of-health, and feeds back to intelligent handheld device, make wearer understand the health status of oneself in time;

It also comprises a hypodermis detecting step, and described hypodermis detecting step comprises:

S401: hypodermis is detected and IMAQ by biochip capacitance sensor, and the Detection Information collected and image information are sent to CPU;

S402:CPU is sent to Cloud Server by network through intelligent handheld device after carrying out preliminary classification and statistics to hypodermis Detection Information;

S403: Cloud Server is further analyzed hypodermis Detection Information and excavates, contrasts itself and expert database, draws health detection information, and feeds back to intelligent handheld device, makes wearer understand the health status of oneself in time.