CN201481423U - Blood glucose real-time monitoring system, blood glucose detector and mobile phone terminal - Google Patents

Abstract

The utility model provides a blood glucose real-time monitoring system, a blood glucose detector and a mobile phone terminal. The blood glucose real-time monitoring system comprises the blood glucose detector and a blood glucose monitoring center server, wherein the blood glucose detector is used for acquiring blood glucose data of a user, transmitting the blood glucose data to the blood glucose monitoring center server, and receiving and displaying a diagnosis result fed back from the blood glucose monitoring center server.; and the blood glucose monitoring center server is used for receiving the blood glucose data transmitted by the blood glucose detector, storing the blood glucose data to a blood glucose information data base, analyzing blood glucose data information in a designated period when the blood glucose data information is stored in the blood glucose information data base to generate the diagnosis result, and feeding the diagnosis result back to the blood glucose detector. The blood glucose real-time monitoring system can acquire the blood glucose data at any time, and transmit the data to the blood glucose monitoring center server in real time to obtain the diagnosis result of the monitoring center so as to realize remote real-time monitoring on a patient.

Description

Blood sugar real-time monitoring system, blood-sugar detecting instrument and mobile phone terminal

Technical field

This utility model relates to medical instruments field, particularly relates to a kind of blood sugar real-time monitoring system, blood-sugar detecting instrument and mobile phone terminal.

Background technology

Up to the present, diabetes also do not have the thoroughly way of radical cure, but by effective Monitoring and Controlling diet, the Comprehensive Treatment of routing motion and medicine, the state of an illness can be controlled, and therefore, daily monitoring is very important to the long-term control blood sugar content with avoiding the danger of hypoglycemia.

In the prior art, can adopt two kinds of sample modes of wound and no wound to detect patient's blood glucose.Detect the wound that blood glucose brings to the patient for avoiding taking a blood sample, people have invented the non-invasive blood-sugar detecting instrument of being made up of luminescence unit, light-path unit, photoelectric conversion unit, electric pathway unit and display unit, adopt transmission or diffuse-reflectance mode to take a sample, obtain the concentration of blood glucose with the light spectrum analysis method, thereby detect patient's blood glucose value.Adopt control corresponding or treatment means according to this blood glucose value, undoubtedly diabetics is had certain help.

But patient's the diabetes state of an illness and the order of severity are not to be determined by single blood glucose value as a rule, often depend on a series of blood glucose level datas that different time, different parts collect, if do not take all factors into consideration various blood glucose level data, a kind of blood glucose value of independent measurement and only with this basis for estimation as the state of an illness, not only can not accurately judge, sometimes even can create a false impression, thereby incur loss through delay best occasion for the treatment, cause bigger injury to the patient; In addition, above-mentioned non-invasive blood-sugar detecting instrument also exists instrument heaviness, cost high and measure inconveniently, shortcoming such as can not monitor in real time.

The utility model content

Technical problem to be solved in the utility model provides a kind of blood sugar real-time monitoring system, can detect patient's blood glucose value whenever and wherever possible, and obtain Surveillance center easily based on diagnostic result and disposal suggestion that a series of blood glucose level datas obtain, realize that the noinvasive of blood glucose detects and remote diagnosis in real time.

In order to address the above problem, the utility model discloses a kind of blood sugar real-time monitoring system, comprise: blood-sugar detecting instrument, be used to gather user's blood glucose level data, and the blood glucose level data that collects is uploaded to blood sugar monitoring centre server, and reception also shows the diagnostic result that blood sugar monitoring centre server is returned; Blood sugar monitoring centre server, be used to receive the blood glucose level data that described blood-sugar detecting instrument is uploaded, be stored to the blood glucose information data base, and, analyze the interior blood glucose level data information of fixed time section that the blood glucose information data base preserves, form diagnostic result and abnormal alarm is provided, and described diagnostic result is returned described blood-sugar detecting instrument.

Preferably, described blood-sugar detecting instrument comprises: the blood glucose acquisition module, be used to gather patient's blood glucose level data, described blood glucose acquisition module comprises the luminescence unit that is used to produce near infrared light, be used for the near infrared light that described luminescence unit produces is passed to user's skin, and collecting belt has the light-path unit of the optical signal of user's blood glucose information, be used for the optical signal that has user blood glucose information that described light-path unit is collected is converted to the photoelectric conversion unit of the signal of telecommunication, the signal of telecommunication that is used for described photoelectric conversion unit is produced is through filtering, amplify, form the electric pathway unit of blood glucose level data after analog digital conversion and the mathematical operation; Network communication module is used for the blood glucose level data that described blood glucose acquisition module collects is uploaded to described blood sugar monitoring centre server, and, receive the diagnostic result that described blood sugar monitoring centre server is returned; The storage display module is used to store and shows the blood glucose level data that described blood glucose acquisition module obtains, and, store and show the diagnostic result that described network communication module receives from blood sugar monitoring centre server.

Preferably, described blood-sugar detecting instrument also comprises: device control module is used to control described blood-sugar detecting instrument and periodically gathers user's blood glucose level data with default interval, and is uploaded to described blood sugar monitoring centre server; And/or data processing module is used to judge that blood glucose level data that described blood glucose acquisition module obtains is whether in default range of normal value; If described blood glucose level data exceeds range of normal value, then provide alarm by described storage display module.

Preferably, described luminescence unit is a quasiconductor near infrared light light-emitting component.

Preferably, described blood sugar monitoring centre server comprises data transmission module, blood glucose information data base and data analysis and alarm module: described data transmission module is used to receive the blood glucose level data that described blood-sugar detecting instrument is uploaded, and is stored to described blood glucose information data base; Be used for the diagnostic result of described data analysis and alarm module generation is returned described blood-sugar detecting instrument; Described blood glucose information data base is used to preserve the blood glucose level data that described blood-sugar detecting instrument is uploaded, and, preserve the diagnostic result that described data analysis and alarm module generate; Described data analysis and alarm module are used to analyze the interior blood glucose level data information of fixed time section that described blood glucose information data base preserves, generate diagnostic result, and, judge whether described diagnostic result has abnormal conditions, if then the alarm notification doctor carries out emergency action.

According to another preferred embodiment of the present utility model, a kind of blood-sugar detecting instrument is also disclosed, comprise: the blood glucose acquisition module, be used to gather user's blood glucose level data, described blood glucose acquisition module comprises the luminescence unit that is used to produce near infrared light, be used for the near infrared light that described luminescence unit produces is passed to user's skin, and collecting belt has the light-path unit of the optical signal of user's blood glucose information, be used for the optical signal that has user blood glucose information that described light-path unit is collected is converted to the photoelectric conversion unit of the signal of telecommunication, the signal of telecommunication that is used for described photoelectric conversion unit is produced is through filtering, amplify, form the electric pathway unit of blood glucose level data after analog digital conversion and the mathematical operation; Network communication module is used for the blood glucose level data that described blood glucose acquisition module collects is uploaded to blood sugar monitoring centre server, and, receive the diagnostic result that described blood sugar monitoring centre server is returned; The storage display module is used to store and shows the blood glucose level data that described blood glucose acquisition module obtains, and, store and show the diagnostic result that described network communication module receives from blood sugar monitoring centre server.

Preferably, described blood-sugar detecting instrument also comprises: device control module is used to control described blood-sugar detecting instrument and periodically gathers user's blood glucose level data with default interval, and is uploaded to described blood sugar monitoring centre server; And/or data processing module is used to judge that blood glucose level data that described blood glucose acquisition module obtains is whether in default range of normal value; If described blood glucose level data exceeds range of normal value, then provide alarm by described storage display module.

Preferably, described luminescence unit is a quasiconductor near infrared light light-emitting component.

According to another preferred embodiment of the present utility model, a kind of mobile phone terminal is also disclosed, described mobile phone terminal includes the blood sugar test parts, described blood sugar test parts comprise: the blood glucose acquisition module, the blood glucose level data that is used for noinvasive collection user, described blood glucose acquisition module comprises the luminescence unit that is used to produce near infrared light, be used for the near infrared light that described luminescence unit produces is passed to user's skin, and collecting belt has the light-path unit of the optical signal of user's blood glucose information, be used for the optical signal that has user blood glucose information that described light-path unit is collected is converted to the photoelectric conversion unit of the signal of telecommunication, the signal of telecommunication that is used for described photoelectric conversion unit is produced is through filtering, amplify, form the electric pathway unit of blood glucose level data after analog digital conversion and the mathematical operation; Wireless communication module is used for the blood glucose level data that described blood glucose acquisition module collects is uploaded to described blood sugar monitoring centre server, and, the diagnostic result that described reception blood sugar monitoring centre server is returned; The storage display module is used to store and shows the blood glucose level data that described blood glucose acquisition module obtains, and, store and show the diagnostic result that described wireless communication module receives from blood sugar monitoring centre server.

Preferably, described mobile phone terminal also comprises: device control module is used to control user blood glucose data upload that whether described wireless communication module collect the blood glucose acquisition module to described blood sugar monitoring centre server; And/or data processing module is used to judge that blood glucose level data that described blood glucose acquisition module obtains is whether in default range of normal value; If described blood glucose level data exceeds range of normal value, then provide alarm by described storage display module.

Compare with existing blood-sugar detecting instrument, this utility model has following advantage:

At first, this utility model blood-sugar detecting instrument can be gathered patient's blood glucose level data at any time, and is sent to blood sugar monitoring centre server in real time, to obtain the diagnostic result of Surveillance center, realizes the remote real-time monitoring to the patient;

Secondly, noinvasive is gathered blood glucose, and no pain does not have wound, makes things convenient for the patient to obtain blood glucose value whenever and wherever possible;

Once more, based on blood sugar real-time monitoring system of the present utility model, after patient's blood glucose level data is sent to blood sugar monitoring centre server, for the patient who the blood glucose value ANOMALOUS VARIATIONS occurs, can dispose rapidly by the medical expert of Surveillance center, make each patient can both obtain medical expert's service, save limited medical resource.

Description of drawings

Fig. 1 is a kind of blood sugar real-time monitoring system example structure of this utility model block diagram;

Fig. 2 is a kind of mobile phone terminal example structure block diagram that carries out blood sugar real-time monitoring of this utility model;

Fig. 3 is the method embodiment flow chart of this utility model based on the blood-sugar detecting instrument supervisory user blood glucose situation of special use;

Fig. 4 is the method embodiment flow chart of this utility model based on mobile phone terminal supervisory user blood glucose situation.

The specific embodiment

For above-mentioned purpose of the present utility model, feature and advantage can be become apparent more, this utility model is described in further detail below in conjunction with the drawings and specific embodiments.

With reference to Fig. 1, show a kind of blood sugar real-time monitoring system example structure of this utility model block diagram, specifically comprise blood-sugar detecting instrument 11 and blood sugar monitoring centre server 12: blood-sugar detecting instrument 11 is used to gather user's blood glucose level data, and the blood glucose level data that collects is uploaded to blood sugar monitoring centre server 12, and reception also shows the diagnostic result that blood sugar monitoring centre server 12 is returned.Blood sugar monitoring centre server 12 is used to receive the blood glucose level data that blood-sugar detecting instrument 11 sends, and is stored to local blood glucose information data base; Be used for blood glucose situation, generate diagnostic result, and above-mentioned diagnostic result is back to blood-sugar detecting instrument 11 according to the blood glucose level data analysis patient in the fixed time section that is kept at local blood glucose information data base.

Wherein:

Blood-sugar detecting instrument 11 comprises five parts such as blood glucose acquisition module 111, storage display module 112, network communication module 113, data processing module 114 and device control module 115, describes respectively below:

Blood glucose acquisition module 111: the blood glucose level data that is used to gather the user; Be the misery of avoiding the user to have wound to detect, and make things convenient for the user to gather blood glucose level data, this utility model blood glucose acquisition module 111 adopts the noinvasive detection technique to realize, specifically comprise four unit: semiconductor light emitting unit 1111, light-path unit 1112, photoelectric conversion unit 1113 and electric pathway unit 1114, wherein, semiconductor light emitting unit 1111 produces required near-infrared light beam, and 1112 transmit through the light-path unit, expose to user's skin; The infrared signal that has blood glucose level data information that process user skin reflex is returned is collected in light-path unit 1112 then; The infrared signal that has blood glucose level data information that photoelectric conversion unit 1113 is collected above-mentioned light-path unit 1112 is converted to the signal of telecommunication; At last, filtering, integration, amplification and the analog digital conversion of the signal of telecommunication finished in electric pathway unit 1114, forms digital signal, and to the above-mentioned digital signal formation blood glucose concentration value that performs mathematical calculations.

Semiconductor light emitting unit 1111 is made up of power supply, switch and semiconductor light-emitting elements, and power supply can be the 5V battery, also can use the 220V civil power; Semiconductor light-emitting elements be for can producing the electronic component of near infrared light, as the quasiconductor pulsed laser diode etc.;

Light-path unit 1112 is made up of optical fiber, probe and grating, the near-infrared light beam that sends from semiconductor light-emitting elements enters probe through fiber coupler, vertically inject human skin tissue then, will be divided into monochromatic light through the polychromatic light that the tissue diffuse scattering is returned by grating;

The optical signal that has user blood glucose information that photoelectric conversion unit 1113 is collected light-path unit 1112 converts the signal of telecommunication to;

Electric pathway unit 1114 is made up of preamplifier, digital to analog converter (A/D converter) and mathematical operator, the signal of telecommunication is after filtering, amplification and the Integral Processing of preamplifier, make signal reach the degree that to discern, by after the A/D conversion, form digital signal then; At last, relatively extrapolate blood glucose concentration value by mathematical operator and master pattern.

Storage display module 112: be used to store and show the blood glucose level data that blood glucose acquisition module 111 collects; Be used to store the diagnostic result that receives from blood sugar monitoring centre server 12 with display network communication module 113;

In addition, storage display module 112 not only can show the blood glucose level data of this collection and up-to-date diagnostic result, can also inquire about and show the historical data of preservation, as diagnostic result in blood sugar concentration maximum, minima, meansigma methods, change curve and the fixed time section of recent collection etc.

Network communication module 113: be used for the blood glucose level data that blood glucose acquisition module 111 collects is uploaded to blood sugar monitoring centre server 12, and, be used to receive the diagnostic result that blood sugar monitoring centre server 12 is returned;

Network communication module 113 can adopt wired or wireless communication mode and blood sugar monitoring centre server 12 to connect, wherein, communication comprises GPRS (general packet radio service) (GPRS, General PacketRadio Service), CDMA (CDMA, Code Division Multiple Access) or WLAN (WLAN, Wireless Local Area Networks) etc.

Gather and upload blood glucose level data for the convenience of the user whenever and wherever possible, this utility model embodiment preferably adopts cordless communication network.

Data processing module 114: be used to judge that blood glucose level data that blood glucose acquisition module 111 obtains is whether in default range of normal value; If the blood glucose level data of above-mentioned collection exceeds range of normal value, then provide alarm by storage display module 112;

For different users, because the vital sign difference, the range of normal value of setting also should be distinguished to some extent.

Type of alarm can be auditory tone cues, light prompt, or " hypoglycemia ", " impaired glucose tolerance " or text prompt such as " hyperglycemia ".

Device control module 115: the opportunity that is used for the blood glucose level data of blood sugar control acquisition module 111 collections;

This device control module 115 can adopt switch or other controls to realize, also can adopt the mode of self-timing to realize; For the self-timing mode, blood glucose level data collection and the interval of uploading can be set to 1 minute, 10 minutes or 1 hour etc. according to patient's situation.

Wherein:

Blood sugar monitoring centre server 12 comprises data transmission module 121, blood glucose information data base 122 and three parts such as data analysis and alarm module 123, is elaborated respectively below:

Data transmission module 121: be used to receive the blood glucose level data that blood-sugar detecting instrument 11 is uploaded, and be stored among the blood glucose information data base 122; Be used for the diagnostic result of data analysis and alarm module 123 generations is back to blood-sugar detecting instrument 11;

Blood glucose information data base 122: be used to preserve that data transmission module 121 receives, the blood glucose level data of being uploaded by blood-sugar detecting instrument 11; Be used to preserve the diagnostic result of data analysis and alarm module 123 generations;

Data analysis and alarm module 123: be used to analyze the interior blood glucose level data information of fixed time section that blood glucose information data base 122 preserves, generate diagnostic result; When patient's blood glucose concentration value substantial deviation range of normal value, adopt modes such as sound or light to remind doctor's fast reaction, so that carry out emergency action.

In this utility model system embodiment, because the semiconductor light emitting unit 1111 of blood-sugar detecting instrument 11 adopts semi-conducting material to make, so volume is small and exquisite, is easy to carry; Blood-sugar detecting instrument 11 adopts the noinvasive acquisition technique, can gather user's blood glucose level data easily, and be sent to blood sugar monitoring centre server 12 in real time, obtains the diagnostic result of Surveillance center, thereby, realize remote real-time monitoring to the user.When user's blood glucose situation occurs obtaining the doctor's of Surveillance center help rapidly when unusual.

Need to prove that the semiconductor light emitting unit further adopts other near-infrared light sources such as halogen tungsten lamp.

In addition, blood-sugar detecting instrument 11 can be independent portable glucose meter, is worn on patient's wrist or other positions at the blood glucose monitoring period, finishes the collection and the upload procedure of blood glucose automatically; Also blood-sugar detecting instrument 11 can be integrated in the electronic equipment such as mobile phone terminal, utilize the wireless network of mobile phone terminal itself or the mixed-media network modules mixed-media transfer data information of configuration separately.

With reference to Fig. 2, show a kind of mobile phone terminal example structure block diagram that carries out blood sugar real-time monitoring of this utility model, dispose the blood sugar test parts in this mobile phone terminal, specifically comprise with lower module:

Blood glucose acquisition module 211: the blood glucose level data that is used to gather the user;

Storage display module 212: be used to store and show the blood glucose level data that blood glucose acquisition module 211 obtains; Be used to store the diagnostic result that receives from blood sugar monitoring centre server 22 with display radio communication module 213;

Wireless communication module 213: be used for the blood glucose level data that blood glucose acquisition module 211 collects is uploaded to blood sugar monitoring centre server 22; And, be used to receive the diagnostic result that blood sugar monitoring centre server 22 is returned;

In this utility model embodiment, the wireless network that wireless communication module 213 can adopt mobile phone terminal itself to use connects with blood sugar monitoring centre server 22 as GPRS, CDMA etc., and also configuring wireless network unit separately is as WLAN etc.

Data processing module 214: be used to judge that blood glucose level data that blood glucose acquisition module 211 obtains is whether in default range of normal value; If blood glucose level data exceeds range of normal value, then provide alarm by storage display module 212;

Device control module 215: the opportunity that is used for the blood glucose level data of blood sugar control acquisition module 211 collections;

This device control module 115 can adopt switch or other controls to realize, by the harvester collection of user's start-up by hand blood glucose and upload blood glucose level data.

In this utility model mobile phone terminal embodiment, Woundless blood sugar detects and data transmission module is integrated in the mobile phone terminal, small and exquisite except that having volume, outside the advantages such as non-invasive measurement, also be convenient for carrying, can gather user's blood glucose level data whenever and wherever possible, and utilize the wireless network of mobile phone terminal itself or the radio network unit of configuration separately to be uploaded to blood sugar monitoring centre, obtain the diagnostic result of blood sugar monitoring centre server in real time.

With reference to Fig. 3, show the method embodiment flow chart of this utility model based on the blood-sugar detecting instrument supervisory user blood glucose situation of special use, specifically comprise the steps:

Step 31: the user configures the time collection period of blood-sugar detecting instrument, and on one's body being worn to, as wrist etc.;

Step 32: blood-sugar detecting instrument judges whether default data acquisition time; If then execution in step 33; Otherwise, change step 32;

Step 33: blood-sugar detecting instrument is gathered user's blood glucose level data, and is uploaded to blood sugar monitoring centre server;

Collecting flowchart is: the luminescence unit that triggers blood-sugar detecting instrument automatically produces required near-infrared light beam, transmits through the light-path unit, exposes near the fixedly skin of blood-sugar detecting instrument; Then, collect the infrared signal that has blood glucose level data information that process user skin reflex is returned by the light-path unit; Then, photoelectric conversion unit is converted to the signal of telecommunication with the above-mentioned infrared signal that has blood glucose level data information; At last, signal filtering, integration, amplification, analog digital conversion are finished in the electric pathway unit, form digital signal, and to the above-mentioned digital signal formation blood glucose concentration value that performs mathematical calculations.

Step 34: blood sugar monitoring centre server receives the blood glucose level data that blood-sugar detecting instrument is uploaded automatically, upgrades local blood glucose information data base;

Step 35: blood sugar monitoring centre server is carried out analytical judgment to the blood glucose level data in the fixed time section of blood glucose information data base preservation, and generates diagnostic result;

In the data base of blood sugar real-time monitoring system central server, preserve all blood glucose level datas that the user uploads, according to these historical datas and the blood glucose level data newly uploaded, but the Changing Pattern of the blood glucose concentration value of analysis user, other vital sign information with reference to the user, can make judgement to user's the state of an illness, and provide treatment or health care suggestion.

Step 36: blood sugar monitoring centre server judges whether above-mentioned diagnostic result has abnormal conditions, if then change step 37; Otherwise, change step 38;

Step 37: blood sugar monitoring centre server reminds the doctor to carry out emergency action;

Doctor's the emergency action of carrying out has two kinds of forms: the one, and the treatment or the health care suggestion of renewal diagnostic result change step 38 then; The 2nd, carry out other disposal, promptly get in touch patient or other contact persons as the contact method of reserving according to the user, directly carry out artificial interchange or processing;

Step 38: blood sugar monitoring centre server is back to blood-sugar detecting instrument with diagnostic result;

Step 39: blood-sugar detecting instrument receives the diagnostic result that blood sugar monitoring centre server is returned, and is saved in the local data base;

By calling the data message that is kept in the blood-sugar detecting instrument local data base, the user can check own change of blood sugar trend and doctor's diagnostic result, thus the control of diabetes state of an illness better.

Automatically finish because of whole collection and observation process, do not need user intervention, be fit to very much handicapped diabetes patient and wear monitoring, and in time obtain monitoring central server and doctor's thereof help.

With reference to Fig. 4, show the method embodiment flow chart of this utility model based on mobile phone terminal supervisory user blood glucose situation, specifically comprise the steps:

Step 41: the user uses the blood sugar test parts of mobile phone terminal to gather blood glucose level data;

Collecting flowchart is: open the switch of blood sugar test parts on the mobile phone terminal, luminescence unit produces required near-infrared light beam, transmits through the light-path unit, exposes to user's skin; Then, collect the infrared signal that has blood glucose level data information that process user skin reflex is returned by the light-path unit; Then, photoelectric conversion unit is converted to the signal of telecommunication with the above-mentioned infrared signal that has blood glucose level data information; At last, signal filtering, integration, amplification, analog digital conversion are finished in the electric pathway unit, form digital signal, and to the above-mentioned digital signal formation blood glucose concentration value that performs mathematical calculations.

Step 42: the blood sugar test parts of mobile phone terminal judge that the blood glucose level data of above-mentioned collection is whether in default range of normal value; If then change step 44; Otherwise, change step 43;

Step 43: in the screen of mobile phone terminal, provide alarm;

Wherein, can also be attended by sound or vibration prompt information;

Step 44: the blood sugar test parts of mobile phone terminal are uploaded to blood sugar monitoring centre server with above-mentioned blood glucose level data;

Step 45: blood sugar monitoring centre server receives the blood glucose level data that mobile phone terminal is uploaded, and upgrades local blood glucose information data base;

Step 46: blood sugar monitoring centre server is carried out analytical judgment to the blood glucose level data in the fixed time section of local blood glucose information data base's preservation, and generates diagnostic result;

In the data base of blood sugar real-time monitoring system central server, preserve all blood glucose level datas that the user uploads, according to these historical datas and the blood glucose level data newly uploaded, but the Changing Pattern of the blood glucose concentration value of analysis user, other vital sign information with reference to the user, can make judgement to user's the state of an illness, and provide treatment or health care suggestion.

Step 47: blood sugar monitoring centre server judges whether above-mentioned diagnostic result has abnormal conditions, if then change step 48; Otherwise, change step 49;

Step 48: blood sugar monitoring centre server reminds the doctor to carry out emergency action;

Step 49: blood sugar monitoring centre server is back to mobile phone terminal with diagnostic result;

Step 50: mobile phone terminal receives the diagnostic result that blood sugar monitoring centre server is returned, and is saved in the local data base of mobile phone terminal;

Utilize the blood sugar test parts of mobile phone terminal configuration, can gather and upload blood glucose level data whenever and wherever possible, quasi real time obtain diagnostic result; In addition, by being kept at the data message in the mobile phone terminal local data base, the user can check own change of blood sugar trend and doctor's diagnostic result, thus the control of diabetes state of an illness better.

Each embodiment in this description all adopts the mode of going forward one by one to describe, and what each embodiment stressed all is and the difference of other embodiment that identical similar part is mutually referring to getting final product between each embodiment.

More than a kind of blood sugar real-time monitoring system provided by the utility model, blood-sugar detecting instrument and mobile phone terminal are described in detail, used specific case herein principle of the present utility model and embodiment are set forth, the explanation of above embodiment just is used for helping to understand method of the present utility model and core concept thereof; Simultaneously, for one of ordinary skill in the art, according to thought of the present utility model, the part that all can change in specific embodiments and applications, in sum, this description should not be construed as restriction of the present utility model.

Claims (10)

1. a blood sugar real-time monitoring system is characterized in that, comprising:

Blood-sugar detecting instrument is used to gather user's blood glucose level data, and the blood glucose level data that collects is uploaded to blood sugar monitoring centre server, and reception also shows the diagnostic result that blood sugar monitoring centre server is returned;

Blood sugar monitoring centre server is used to receive the blood glucose level data that described blood-sugar detecting instrument is uploaded, and is stored to the blood glucose information data base; And, analyze the interior blood glucose level data information of fixed time section that the blood glucose information data base preserves, form diagnostic result and also provide abnormal alarm, described diagnostic result is returned described blood-sugar detecting instrument.

2. the system as claimed in claim 1 is characterized in that, described blood-sugar detecting instrument comprises:

The blood glucose acquisition module is used to gather patient's blood glucose level data; Described blood glucose acquisition module comprises the luminescence unit that is used to produce near infrared light, be used for the near infrared light that described luminescence unit produces is passed to user's the skin and the light-path unit of the optical signal that collecting belt has user's blood glucose information, be used for the optical signal that has user blood glucose information that described light-path unit is collected is converted to the photoelectric conversion unit of the signal of telecommunication, be used for the signal of telecommunication that described photoelectric conversion unit produces is formed the electric pathway unit of blood glucose level data after filtering, amplification, analog digital conversion and mathematical operation;

Network communication module is used for the blood glucose level data that described blood glucose acquisition module collects is uploaded to described blood sugar monitoring centre server, and, receive the diagnostic result that described blood sugar monitoring centre server is returned;

The storage display module is used to store and shows the blood glucose level data that described blood glucose acquisition module obtains, and, store and show the diagnostic result that described network communication module receives from blood sugar monitoring centre server.

3. system as claimed in claim 2 is characterized in that, described blood-sugar detecting instrument also comprises:

Device control module is used to control described blood-sugar detecting instrument and periodically gathers user's blood glucose level data with default interval, and is uploaded to described blood sugar monitoring centre server; And/or

Data processing module is used to judge that blood glucose level data that described blood glucose acquisition module obtains is whether in default range of normal value; If described blood glucose level data exceeds range of normal value, then provide alarm by described storage display module.

4. system as claimed in claim 2 is characterized in that, described luminescence unit is a quasiconductor near infrared light light-emitting component.

5. the system as claimed in claim 1 is characterized in that, described blood sugar monitoring centre server comprises data transmission module, blood glucose information data base and data analysis and alarm module:

Described data transmission module is used to receive the blood glucose level data that described blood-sugar detecting instrument is uploaded, and is stored to described blood glucose information data base, and the diagnostic result that described data analysis and alarm module are generated returns described blood-sugar detecting instrument;

Described blood glucose information data base is used to preserve the blood glucose level data that described blood-sugar detecting instrument is uploaded, and, preserve the diagnostic result that described data analysis and alarm module generate;

Described data analysis and alarm module are used to analyze the interior blood glucose level data information of fixed time section that described blood glucose information data base preserves, generate diagnostic result, and, judge whether described diagnostic result has abnormal conditions, if then the alarm notification doctor carries out emergency action.

6. a blood-sugar detecting instrument is characterized in that, comprising:

The blood glucose acquisition module, be used to gather user's blood glucose level data, described blood glucose acquisition module comprises the luminescence unit that is used to produce near infrared light, be used for the near infrared light that described luminescence unit produces is passed to user's skin, and collecting belt has the light-path unit of the optical signal of user's blood glucose information, be used for the optical signal that has user blood glucose information that described light-path unit is collected is converted to the photoelectric conversion unit of the signal of telecommunication, the signal of telecommunication that is used for described photoelectric conversion unit is produced is through filtering, amplify, form the electric pathway unit of blood glucose level data after analog digital conversion and the mathematical operation;

Network communication module is used for the blood glucose level data that described blood glucose acquisition module collects is uploaded to blood sugar monitoring centre server, and, receive the diagnostic result that described blood sugar monitoring centre server is returned;

The storage display module is used to store and shows the blood glucose level data that described blood glucose acquisition module obtains, and, store and show the diagnostic result that described network communication module receives from blood sugar monitoring centre server.

7. blood-sugar detecting instrument as claimed in claim 6 is characterized in that, also comprises:

Device control module is used to control described blood-sugar detecting instrument and periodically gathers user's blood glucose level data with default interval, and is uploaded to described blood sugar monitoring centre server; And/or

Data processing module is used to judge that blood glucose level data that described blood glucose acquisition module obtains is whether in default range of normal value; If described blood glucose level data exceeds range of normal value, then provide alarm by described storage display module.

8. blood-sugar detecting instrument as claimed in claim 6 is characterized in that, described luminescence unit is a quasiconductor near infrared light light-emitting component.

9. a mobile phone terminal is characterized in that, described mobile phone terminal includes the blood sugar test parts, and described blood sugar test parts comprise:

The blood glucose acquisition module, the blood glucose level data that is used for noinvasive collection user, described blood glucose acquisition module comprises the luminescence unit that is used to produce near infrared light, be used for the near infrared light that described luminescence unit produces is passed to user's skin, and collecting belt has the light-path unit of the optical signal of user's blood glucose information, be used for the optical signal that has user blood glucose information that described light-path unit is collected is converted to the photoelectric conversion unit of the signal of telecommunication, the signal of telecommunication that is used for described photoelectric conversion unit is produced is through filtering, amplify, form the electric pathway unit of blood glucose level data after analog digital conversion and the mathematical operation;

Wireless communication module is used for the blood glucose level data that described blood glucose acquisition module collects is uploaded to described blood sugar monitoring centre server, and, receive the diagnostic result that described blood sugar monitoring centre server is returned;

The storage display module is used to store and show the blood glucose level data that described blood glucose acquisition module obtains; Be used to store and show the diagnostic result that described wireless communication module receives from blood sugar monitoring centre server.

10. mobile phone terminal as claimed in claim 9 is characterized in that, also comprises:

Device control module is used to control user blood glucose data upload that whether described wireless communication module collect the blood glucose acquisition module to described blood sugar monitoring centre server; And/or

Data processing module is used to judge that blood glucose level data that described blood glucose acquisition module obtains is whether in default range of normal value; If described blood glucose level data exceeds range of normal value, then provide alarm by described storage display module.

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