CN105868567A - Health management system with electrocardiogram monitoring function - Google Patents

Abstract

The invention discloses a health management system with an electrocardiogram monitoring function. The health management system with the electrocardiogram monitoring function comprises an electrocardiogram monitoring component, a blood oxygen monitoring component, a safety indicating component, a six-axis motion sensor, a transmission component, a battery pack, a processor and a data storage module, wherein the electrocardiogram monitoring component, the blood oxygen monitoring component, the six-axis motion sensor and the battery pack are connected to the processor and the data storage module, and the processor and the data storage module are connected with the safety indicating component and the transmission component. The health management system with the electrocardiogram monitoring function has the advantages that difficulty in electrocardiogram monitoring is overcome, the problem that patients with cardiovascular diseases cannot be warned in case of abnormities such as irregular heart rate, cardiac arrhythmia, bradycardia and tachyrhythmia is solved; driver's electrocardiogram state detection is combined with judging analysis based on a fatigue driving algorithm, and a warning stimulation mode is adopted, so that accidents caused by fatigue driving is reduced; with recording and analyzing driver's electrocardiogram data during driving, driving habits are optimized and driving risks are reduced.

Description

A kind of cardioelectric monitor is health management system arranged

Technical field

The present invention relates to medical treatment detection, health management arts, be specifically related to a kind of cardioelectric monitor health management system arranged.

Background technology

Science and technology makes health of people level and quality of life be improved constantly in the application of medical field with development, cardiovascular and cerebrovascular disease has become the number one killer that human death's cause of disease is the highest, traditional aspectant Diagnosis-treat Model can not meet people to healthy, the great demand that health care is growing, development along with science and technology, the Internet tele-medicine progresses into medical health field, accepted extensively by people, it is capable of the health status to patient to implement to monitor in real time, help health care professional that patient remotely diagnoses and treats the Monitoring Data providing important, in conjunction with Internet technology and allow remote online diagnosis be possibly realized.

In recent years, the all ends that appears in the newspapers of driver's news of heart attack in driving procedure, the popular attention rate to health of heart is strengthened further, for reducing driver's sickness rate in driving procedure, and have developed the electrocardio of vehicle steering or direction indicators cover, the oxygen saturation monitor system of being embedded in, driving procedure carries out the monitoring of cardiomotility electro-physiological signals state, the monitoring rhythm of the heart and the change of heart rate, for there being the patient of electrocardio-activity exception, there is important use value, provide premise for safety traffic.

nullChina's Publication No. 204698548U，Publication date is 2015-10-14，The utility model patent of entitled " portable cardiac monitor system "，Including the collecting unit gathering body surface electrocardiosignal、3-axis acceleration sensor unit、The signal processing unit that data are processed、Internal Flash memory element、The bluetooth wireless radio-frequency emission unit of data information and mobile phone，Described collecting unit is connected with signal processing unit by crosslinking electrode and cardiac diagnosis lead interface，The described 3-axis acceleration sensor unit of Real-time Collection user exercise data is connected with signal processing unit，Described signal processing unit is connected with the Flash memory element of storage electrocardiogram (ECG) data and exercise data，Described signal processing unit is also connected with the bluetooth wireless radio-frequency emission unit being driven，Got in touch with mobile communication by bluetooth wireless radio-frequency emission unit；This utility model solution employing smart mobile phone is as Electrocardiographic show media, and detector volume is little, low in energy consumption and stores the technical problems such as electrocardiogram (ECG) data amount is big, but fails to carry out the electrocardiogram (ECG) data of storage data analysis, it is provided that suggestion is optimized.

Summary of the invention

For defect and the problem of prior art, it is an object of the invention to provide a kind of cardioelectric monitor health management system arranged, it is achieved that before heart rate, cardiac arrhythmia, bradycardia, the abnormal generation such as overrun, obtain the purpose of early warning, thus reduce the generation of contingency.

For solving the problems referred to above, the technical scheme is that and include cardioelectric monitor assembly, oxygen saturation monitor assembly, safety instruction assembly, six axis movement sensors, transmission assembly, battery component and processor, data memory module, described cardioelectric monitor assembly, described oxygen saturation monitor assembly, described six axis movement sensors, described battery component are connected to described processor, data memory module, and processor, data memory module are connected with described safety instruction assembly, described transmission assembly respectively.

More preferably, described cardioelectric monitor assembly includes that modular converter is analyzed in detecting electrode and detection, and described detecting electrode is connected to described detection by the singly mode of leading and analyzes modular converter.

More preferably, described oxygen saturation monitor assembly includes photoelectric sensing and blood oxygen detection module, and described photoelectric sensing is connected to described blood oxygen detection module.

More preferably, described safety instruction assembly includes that voltage processing module and contact, described voltage processing module are connected to described contact.

More preferably, described transmission assembly includes bluetooth communication module, smart mobile phone, cloud platform, and described bluetooth communication module is connected with described smart mobile phone by wireless signal, and smart mobile phone is connected with cloud platform by the Internet.

More preferably, described six axis movement sensors are made up of three-axis gyroscope and three axis accelerometer.

More preferably, the treatment mechanism that a kind of cardioelectric monitor is health management system arranged comprises the following steps:

A: six axis movement sensors sense motion, transfer signals to processor, data memory module；

After B: processor, data memory module receive motor message, start system work；

C: cardioelectric monitor assembly and oxygen saturation monitor assembly start detection, and the electrocardio detected, blood oxygen signal are sent to processor, data memory module；

Electrocardio, oximetry data are sent to smart mobile phone by D: processor, data memory module, and smart mobile phone carries out historical data chart by the way of APP or wechat public's account and presents, and cloud platform is according to historical data intelligent comparison, analysis, coupling association detection people；

E: processor, data memory module send the signal of telecommunication after combining tired algorithm by electrocardiosignal, and voltage processing module amplifies voltage to contact after receiving the signal of telecommunication.

It is an advantage of the current invention that: by being embedded in the electrocardio of vehicle steering or direction indicators cover, oxygen saturation monitor system, driving procedure carry out the monitoring of cardiomotility electro-physiological signals state to driver, the problem mainly solving following four aspects:

1, solve the problem that the monitoring in cardioelectric monitor is difficult, solve to wear uncomfortable, inconvenient problem during cardioelectric monitor monitoring of equipment, it is not necessary to specific scene and environment simultaneously, there is stronger practical value.

2, solving cardiovascular patient cannot be in heart rate, cardiac arrhythmia, and bradycardia, the abnormal conditions such as overrun obtain the problem of early warning before occurring, can prevent and reduce the generation of emergency risk in time.

3, by detecting the electrocardio state of driver, in conjunction with fatigue driving algorithm discriminatory analysis, with early warning stimulation mode, reduce because fatigue driving causes the generation of contingency.

4, pass through cardioelectric monitor and record analysis to driver in driving procedure, it is provided that suggestion, optimize driving habits, reduce and drive risk.

Accompanying drawing explanation

In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in describing below is only some embodiments of the present invention, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the structured flowchart of the present invention.

Detailed description of the invention

It is an advantage of the current invention that: by being embedded in the electrocardio of vehicle steering or direction indicators cover, oxygen saturation monitor system, driving procedure carry out the monitoring of cardiomotility electro-physiological signals state to driver, the problem mainly solving following four aspects:

1, solve the problem that the monitoring in cardioelectric monitor is difficult, solve to wear uncomfortable, inconvenient problem during cardioelectric monitor monitoring of equipment, it is not necessary to specific scene and environment simultaneously, there is stronger practical value.

2, solving cardiovascular patient cannot be in heart rate, cardiac arrhythmia, and bradycardia, the abnormal conditions such as overrun obtain the problem of early warning before occurring, can prevent and reduce the generation of emergency risk in time.

3, by detecting the electrocardio state of driver, in conjunction with fatigue driving algorithm discriminatory analysis, with early warning stimulation mode, reduce because fatigue driving causes the generation of contingency.

4, pass through cardioelectric monitor and record analysis to driver in driving procedure, it is provided that suggestion, optimize driving habits, reduce and drive risk.

Below in conjunction with the accompanying drawing in the present invention, the technical scheme in the present invention is clearly and completely described, it is clear that described is only a part of embodiment of the present invention rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art are obtained on the premise of not making creative work, broadly fall into the scope of protection of the invention.

As shown in Figure 1, a kind of cardioelectric monitor is health management system arranged, including cardioelectric monitor assembly, oxygen saturation monitor assembly, safety instruction assembly, six axis movement sensors, transmission assembly, battery component and processor, data memory module, described cardioelectric monitor assembly, described oxygen saturation monitor assembly, described six axis movement sensors, described battery component are connected to described processor, data memory module, and processor, data memory module are connected with described safety instruction assembly, described transmission assembly respectively.

Cardioelectric monitor assembly includes that modular converter is analyzed in detecting electrode and detection, and described detecting electrode is connected to described detection by the singly mode of leading and analyzes modular converter.Oxygen saturation monitor assembly includes photoelectric sensing and blood oxygen detection module, and described photoelectric sensing is connected to described blood oxygen detection module.Safety instruction assembly includes that voltage processing module and contact, described voltage processing module are connected to described contact.Transmission assembly includes bluetooth communication module, smart mobile phone, cloud platform, described bluetooth communication module is connected with described smart mobile phone by wireless signal, smart mobile phone is connected with cloud platform by the Internet, and described six axis movement sensors are made up of three-axis gyroscope and three axis accelerometer.

The health management system arranged treatment mechanism of a kind of cardioelectric monitor comprises the following steps:

A: six axis movement sensors sense motion, transfer signals to processor, data memory module；

After B: processor, data memory module receive motor message, start system work；

C: cardioelectric monitor assembly and oxygen saturation monitor assembly start detection, and the electrocardio detected, blood oxygen signal are sent to processor, data memory module；

Electrocardio, oximetry data are sent to smart mobile phone by D: processor, data memory module, and smart mobile phone carries out historical data chart by the way of APP or wechat public's account and presents, and cloud platform is according to historical data intelligent comparison, analysis, coupling association detection people；

E: processor, data memory module send the signal of telecommunication after combining tired algorithm by electrocardiosignal, and voltage processing module amplifies voltage to contact after receiving the signal of telecommunication.

Treatment mechanism: six axis movement sensors are made up of three axis accelerometer and three-axis gyroscope, three axis accelerometer is in order to monitor the acceleration change on tri-axis of orientations of X, Y, Z；Three-axis gyroscope is to monitor the angular velocity change in X, Y, Z-direction.When six axis movement sensors sense motion change, after processor, data memory module receive the signal of six axis movement sensors, start correlation module work, meanwhile, start bluetooth communication module and carry out with smart mobile phone being actively connected；nullThe electrocardio of driver is monitored by detecting electrode，The signal of telecommunication detected is transferred to detection with the form singly led and analyzes modular converter，Simultaneously，The blood oxygen of driver is monitored by photoelectric sensing，The signal detected is transferred to blood oxygen detection module，Modular converter is analyzed in detection、Blood oxygen detection module conveys data to processor、Data memory module，Processor、Data are stored by data memory module，As detected, bluetooth communication module is in connection status with smart mobile phone，Processor、The data of storage can be sent to smart mobile phone by data memory module，Smart mobile phone carries out historical data chart by the way of APP or wechat public number and presents，Cloud platform is according to historical data intelligent comparison、Analyze，Coupling association detection people，Filter invalid data，Therefrom unusual circumstance，According to setting exceptional value scope，Remind、Notice，Long term monitoring data can give health control and do auxiliary reference；Power management module, the effect of battery module are responsible for battery charging, managing electric quantity, and product work is powered；Electrocardiosignal is combined after tired algorithm judges driver's fatigue state and sends the signal of telecommunication by voltage processing module, voltage processing module amplifies voltage to contact after receiving instruction, stimulate driver by Millisecond transient voltage, reduce because fatigue driving causes occurring unexpectedly.

Above content is to combine concrete preferred implementation further description made for the present invention, it is impossible to assert the present invention be embodied as be confined to these explanations.For general technical staff of the technical field of the invention, without departing from the inventive concept of the premise, it is also possible to make some simple deduction or replace, all should be considered as belonging to protection scope of the present invention.

Claims (7)

1. a cardioelectric monitor is health management system arranged, it is characterized in that, including cardioelectric monitor assembly, oxygen saturation monitor assembly, safety instruction assembly, six axis movement sensors, transmission assembly, battery component and processor, data memory module, described cardioelectric monitor assembly, described oxygen saturation monitor assembly, described six axis movement sensors, described battery component are connected to described processor, data memory module, and processor, data memory module are connected with described safety instruction assembly, described transmission assembly respectively.

A kind of cardioelectric monitor the most according to claim 1 is health management system arranged, it is characterised in that described cardioelectric monitor assembly includes that modular converter is analyzed in detecting electrode and detection, and described detecting electrode is connected to described detection by the singly mode of leading and analyzes modular converter.

A kind of cardioelectric monitor the most according to claim 1 is health management system arranged, it is characterised in that described oxygen saturation monitor assembly includes photoelectric sensing and blood oxygen detection module, and described photoelectric sensing is connected to described blood oxygen detection module.

A kind of cardioelectric monitor the most according to claim 1 is health management system arranged, it is characterised in that described safety instruction assembly includes that voltage processing module and contact, described voltage processing module are connected to described contact.

A kind of cardioelectric monitor the most according to claim 1 is health management system arranged, it is characterized in that, described transmission assembly includes bluetooth communication module, smart mobile phone, cloud platform, described bluetooth communication module is connected with described smart mobile phone by wireless signal, and smart mobile phone is connected with cloud platform by the Internet.

A kind of cardioelectric monitor the most according to claim 1 is health management system arranged, it is characterised in that described six axis movement sensors are made up of three-axis gyroscope and three axis accelerometer.

A kind of cardioelectric monitor the most according to claim 1 is health management system arranged, it is characterised in that treatment mechanism comprises the following steps:

A: six axis movement sensors sense motion, transfer signals to processor, data memory module；

After B: processor, data memory module receive motor message, start system work；

C: cardioelectric monitor assembly and oxygen saturation monitor assembly start detection, and the electrocardio detected, blood oxygen signal are sent to processor, data memory module；

Electrocardio, oximetry data are sent to smart mobile phone by D: processor, data memory module, and smart mobile phone carries out historical data chart by the way of APP or wechat public's account and presents, and cloud platform is according to historical data intelligent comparison, analysis, coupling association detection people；

E: processor, data memory module send the signal of telecommunication after combining tired algorithm by electrocardiosignal, and voltage processing module amplifies voltage to contact after receiving the signal of telecommunication.