CN106264549A - A kind of Wearable non-invasive glucose monitor and application system thereof - Google Patents

Abstract

The invention discloses a kind of Wearable non-invasive glucose monitor and application system thereof, belong to electronic device field, Intelligent hardware field and mobile Internet field.The core of the present invention is, traditional blood sugar detecting method based on skin blood sampling is changed into Noninvasive Blood Glucose Detection Methods, and make its wearableization, pass through communication, in Wearable non-invasive glucose monitor, Wireless Telecom Equipment, and establish data exchange channels between mobile Internet three, and based on mobile Internet, the big technology such as data and cloud computing provides the user the round-the-clock monitoring of blood glucose, and data are analyzed, offer health guidance is advised, thus provide the user mobile Internet propagation and be served by, and provide basic support data to portable medical and tele-medicine.

Description

A kind of Wearable non-invasive glucose monitor and application system thereof

Technical field

The present invention is about a kind of intelligent wireless device for monitoring air ambient and application system thereof, is that a kind of software and hardware combines equipment, belongs to electronic device field, Intelligent hardware field and mobile Internet field.

Background technology

In recent years, the Intelligent hardware relevant to mobile Internet gradually grows up, and wherein relevant to health Intelligent hardware at home and abroad receives much concern.But, current blood sugar monitoring instrument is nearly all to rely on the method for finger tip blood sampling, this misery brought to user and many inconvenience, the obstacle therefore brought round-the-clock real-time monitoring.And just because of the present situation of invasive monitoring, cause existing blood sugar monitor to accomplish wearable.Therefore, Wearable non-invasive glucose monitor is up to the present the most blank.

Summary of the invention

The invention provides Wearable blood sugar monitoring instrument based on Woundless blood sugar monitoring method and application system thereof；With radio communication function, communication link and data interaction can be set up with mobile communication terminals such as mobile phones；And provide the user the round-the-clock monitoring of blood glucose based on technology such as mobile Internet, big data and cloud computings, and data are analyzed, it is provided that health guidance is advised.Therefore, the present invention also can provide the user mobile Internet propagation be served by.

The above-mentioned purpose of the present invention is achieved by the following technical solutions:

1. As it is shown in figure 1, Wearable non-invasive glucose monitor includes " Woundless blood sugar monitoring modular 2-1 ", " processor 2-2 ", " wireless communication module 2-3 ", " antenna 2-4 ", " operating system 2-5 ", " software 2-6 ", " screen 2-7 ", " other sensors and functional module 2-8 ".

2. as it is shown in figure 1, described " Woundless blood sugar monitoring modular 2-1 " is connected with described " processor 2-2 ", carrying out bidirectional data interaction, " Woundless blood sugar monitoring modular 2-1 " is controlled by " processor 2-2 ".

3. as it is shown in figure 1, described " wireless communication module 2-3 " is connected with described " processor 2-2 ", carrying out bidirectional data interaction, " processor 2-2 " is to " " wireless communication module 2-3 " is controlled.

4., as it is shown in figure 1, described " antenna 2-4 " is connected with described " wireless communication module 2-3 ", carry out radiofrequency signal bi-directional.

5., as it is shown in figure 1, described " antenna 2-4 " communicates wirelessly with " wireless communication terminal " in Fig. 2, carry out bidirectional data interaction.

6. as it is shown in figure 1, described " screen 2-7 " is connected with described " processor 2-2 ", carrying out bidirectional data interaction, " wireless communication module 2-3 " is controlled by " processor 2-2 ".

7. as it is shown in figure 1, glucose monitor data is shown by described " screen 2-7 ", and showing other data, other data include but are not limited to time, date, position, battery electric quantity, running status, blood sugar condition, health prompt etc..

8. as it is shown in figure 1, described " other sensors and functional module 2-8 " is connected with described " processor 2-2 ", carrying out bidirectional data interaction, " other sensors and functional module 2-8 " is controlled by " processor 2-2 ".

9. as it is shown in figure 1, described " other sensors and functional module 2-8 " includes but are not limited to GPS locating module, rhythm of the heart module, monitoring of pulse module, oxygen saturation monitor module, monitoring of blood pressure module, cardioelectric monitor module, respiratory frequency monitoring modular, USB charging module, wireless charging module, lithium battery module etc..

10. as it is shown in figure 1, described " wireless communication module 2-3 " includes one or more of which but be not limited only to bluetooth module, GPRS mobile communication module, 3G mobile communication module, 4G mobile communication module, WiFi module, NFC module etc..

11. as it is shown in figure 1, described " Woundless blood sugar monitoring modular 2-1 " includes but are not limited to noinvasive electrode module, bio electricity generation module, Bioelectrical impedance analysis module, analog-digital converter, digital to analog converter etc..

12. as it is shown in figure 1, described " operating system 2-5 " is arranged on " processor 2-2 ", and controls each module by " processor 2-2 " and obtain data；" software 2-6 " is arranged in " operating system 2-5 ", and controls each module by " operating system 2-5 " and obtain data.

13. as in figure 2 it is shown, " application system of Wearable non-invasive glucose monitor " includes described " the Wearable non-invasive glucose monitor 1 of band radio communication function ", " wireless communication terminal 2 ", " mobile Internet 3 ".

14. as shown in Figure 2, described " the Wearable non-invasive glucose monitor 1 of band radio communication function " is connected with " wireless communication terminal 2 " by radio communication channel, carry out bidirectional data transfers, the data such as the blood glucose that " the Wearable non-invasive glucose monitor 1 of band radio communication function " gathers to " wireless communication terminal 2 " transmission, " wireless communication terminal 2 " transmits control instruction to " the Wearable non-invasive glucose monitor 1 of band radio communication function "；Described wireless communication terminal 2 " it is connected with " mobile Internet 3 " by radio communication channel, carry out bidirectional data transfers.

The principle of the present invention

The principle of the present invention is, by using Noninvasive Blood Glucose Detection Methods and module, it is that blood sugar test is without piercing through human body skin blood sampling, and make wearable, such as Wrist watch type, such that it is able to blood sugar for human body to be carried out round-the-clock real-time monitoring, and by using wireless communication module, this equipment being can set up communication link and data interaction with mobile communication terminals such as smart mobile phones, thus the blood glucose level data of the above-mentioned collection being enters in mobile Internet, such that it is able to provide a user with the propagation service of diversified mobile Internet.

Advantages of the present invention

It is an advantage of the current invention that, traditional blood sugar detecting method based on skin blood sampling is changed into Noninvasive Blood Glucose Detection Methods, and make its wearableization, pass through communication, between Wearable non-invasive glucose monitor, Wireless Telecom Equipment and mobile Internet three, establish data exchange channels, therefore there is advantage widely:

1. Consumer's Experience is good；

2. Application service is many；

3. Based on Wireless Telecom Equipment (such as mobile phone etc.) and the powerful software and hardware resources of mobile Internet cloud server, computing capability, data-handling capacity, the disposal ability of sensing data can be obviously improved；

4. Data sharing, data interaction, data network；

5. Basic data support is provided for portable medical and tele-medicine.

Accompanying drawing explanation

Fig. 1: Wearable non-invasive glucose monitor schematic diagram；

Fig. 2: the schematic diagram of the application system of Wearable non-invasive glucose monitor；

Fig. 3: the schematic diagram of the specific embodiment of Wearable non-invasive glucose monitor；

Specific implementation method

The specific embodiment of Wearable non-invasive glucose monitor as shown in Figure 3: described " the Wearable non-invasive glucose monitor 1 of band radio communication function " is connected with " mobile phone 2 " by radio communication channel, carry out bidirectional data transfers, the data such as the blood glucose that " the Wearable non-invasive glucose monitor 1 of band radio communication function " gathers to " mobile phone 2 " transmission, " mobile phone 2 " can control instruction to " the Wearable non-invasive glucose monitor 1 of band radio communication function " transmission；" mobile phone 2 " is connected with " mobile Internet 3 " by radio communication channel, carries out bidirectional data transfers；" medical institutions' network terminal 4 " is connected with " mobile Internet 3 " by radio communication channel, carries out the data such as bidirectional data transfers, the blood glucose of acquisition user；Described " medical institutions' network terminal 4 " includes but are not limited to mobile phone, panel computer, notebook computer, the armarium etc. of band network communication function.

Claims (3)

1. a Wearable non-invasive glucose monitor, its step includes:

1) Wearable non-invasive glucose monitor includes " Woundless blood sugar monitoring modular 2-1 ", " processor 2-2 ", " wireless communication module 2-3 ", " antenna 2-4 ", " operating system 2-5 ", " software 2-6 ", " screen 2-7 ", " other sensors and functional module 2-8 "；

2) " Woundless blood sugar monitoring modular 2-1 " described in is connected with described " processor 2-2 ", carries out bidirectional data interaction, and " Woundless blood sugar monitoring modular 2-1 " is controlled by " processor 2-2 "；

3) " the wireless communication module 2-3 " described in is connected with described " processor 2-2 ", carries out bidirectional data interaction, and " processor 2-2 " is to " " wireless communication module 2-3 " is controlled；

4) " the antenna 2-4 " described in is connected with described " wireless communication module 2-3 ", carries out radiofrequency signal bi-directional；

5) " antenna 2-4 " described in communicates wirelessly with " wireless communication terminal " in Fig. 2, carries out bidirectional data interaction；

6) " the screen 2-7 " described in is connected with described " processor 2-2 ", carries out bidirectional data interaction, and " wireless communication module 2-3 " is controlled by " processor 2-2 "；

7) glucose monitor data is shown by " screen 2-7 " described in, and shows other data, and other data include but are not limited to time, date, position, battery electric quantity, running status, blood sugar condition, health prompt etc.；

8) " other sensors and functional module 2-8 " described in is connected with described " processor 2-2 ", carries out bidirectional data interaction, and " other sensors and functional module 2-8 " is controlled by " processor 2-2 "；

9) " other sensors and functional module 2-8 " described in includes but are not limited to GPS locating module, rhythm of the heart module, monitoring of pulse module, oxygen saturation monitor module, monitoring of blood pressure module, cardioelectric monitor module, respiratory frequency monitoring modular, USB charging module, wireless charging module, lithium battery module etc.；

10) " wireless communication module 2-3 " described in includes one or more of which but is not limited only to bluetooth module, GPRS mobile communication module, 3G mobile communication module, 4G mobile communication module, WiFi module, NFC module etc.；

11) " Woundless blood sugar monitoring modular 2-1 " described in includes but are not limited to noinvasive electrode module, bio electricity generation module, Bioelectrical impedance analysis module, analog-digital converter, digital to analog converter etc.；

12) " operating system 2-5 " described in is arranged on " processor 2-2 ", and controls each module by " processor 2-2 " and obtain data；" software 2-6 " is arranged in " operating system 2-5 ", and controls each module by " operating system 2-5 " and obtain data.

2. including an application system for the Wearable non-invasive glucose monitor of " the Wearable non-invasive glucose monitor " described in right 1 requirement, its step includes:

1) " application system of Wearable non-invasive glucose monitor " includes described " the Wearable non-invasive glucose monitor 1 of band radio communication function ", " wireless communication terminal 2 ", " mobile Internet 3 "；

2) " the Wearable non-invasive glucose monitor 1 of band radio communication function " described in is connected with " wireless communication terminal 2 " by radio communication channel, carry out bidirectional data transfers, the data such as the blood glucose that " the Wearable non-invasive glucose monitor 1 of band radio communication function " gathers to " wireless communication terminal 2 " transmission, " wireless communication terminal 2 " transmits control instruction to " the Wearable non-invasive glucose monitor 1 of band radio communication function "；Described wireless communication terminal 2 " it is connected with " mobile Internet 3 " by radio communication channel, carry out bidirectional data transfers.

3. can be as described in claim 2 " wireless communication terminal 2 ", the equipment with radio communication function such as mobile phone, panel computer, notebook computer, wireless router.