CN105212944A - Intelligent watch, measure the method for blood glucose and blood sugar measuring system by intelligent watch - Google Patents

Abstract

Present invention is disclosed a kind of intelligent watch, measured method and the blood sugar measuring system of blood glucose by intelligent watch, the method wherein measuring blood glucose comprises: blood glucose measurement module is inserted by reagent paper and detects the unblanking that module obtains unlatching blood glucose measurement module, and blood glucose measurement module produces wrist-watch operational system module enabling signal and opens wrist-watch operational system module after opening; Measure blood sugar content reagent paper being tested blood, and by its measurement result of wrist-watch operational system module displays, wrist-watch operational system module by measurement result synchronized upload in server; Obtain testing end signal, send prompting and pull out reagent paper signal; Reagent paper inserts by reagent paper the signal at stop blood glucose measurement module detecting module generation closedown blood glucose measurement module after extracting, and blood glucose measurement module sends inverse signal makes wrist-watch operational system module return to main interface.Intelligent watch of the present invention has the function surveying blood glucose, is convenient for measuring blood glucose; Measurement data is more accurate; Measurement result uploads onto the server, and conveniently checks.

Description

Smart watch, method for measuring blood sugar through smart watch and blood sugar measuring system

Technical Field

The invention relates to the field of smart watches, in particular to a smart watch, a method for measuring blood sugar through the smart watch and a blood sugar measuring system.

Background

The existing intelligent watch can measure the motion condition and the sleep condition of a human body and can also measure the physiological conditions of the heart rate and the like of the human body. However, physiological parameters such as blood sugar and the like need to be measured by means of an external blood sugar measuring device, and then measurement data are wirelessly transmitted to the smart watch, so that the measurement is troublesome, steps such as wireless connection and the like are needed, and particularly, the measurement of blood sugar by old people is inconvenient. It is therefore desirable to provide a smart watch that can quickly measure blood glucose.

Disclosure of Invention

The invention mainly aims to provide an intelligent watch capable of quickly and simply measuring blood sugar, a method for directly measuring blood sugar through the intelligent watch and a blood sugar measuring system.

In order to achieve the above object, the present invention first provides a method for measuring blood sugar by a smart watch, the smart watch includes a body, and a watch operating system module, a blood sugar measuring module and a test paper insertion detection module which are arranged in the body; the method for measuring blood glucose comprises the following steps:

the test paper is inserted into the detection module to obtain a signal for starting the blood sugar measurement module to start the blood sugar measurement module, and the blood sugar measurement module generates a watch operation system module starting signal to start the watch operation system module after being started;

measuring the blood sugar content of the test blood on the test paper through a blood sugar measuring module, displaying the measuring result through a watch operating system module, and simultaneously uploading the measuring result to a server through the watch operating system module;

acquiring a test finishing signal of the blood glucose measuring module through the watch operating system module, and sending a test paper pulling reminding signal; after the test paper is pulled out, the test paper is inserted into the detection module to generate a signal for closing the blood glucose measurement module, and the blood glucose measurement module sends a return signal to enable the watch operation system module to return to the main interface.

Further, through the blood sugar content of blood test on the blood sugar measurement module measurement test paper to show its measuring result through wrist-watch operating system module, simultaneously through wrist-watch operating system module with the synchronous upload in the server of measuring result before the step, include:

and judging whether the test blood is dripped on the test paper or not, if the test blood is dripped, measuring the blood sugar, and if the test blood is not dripped, sending out the reminding information of the non-dripped blood.

Further, the step of sending out the reminding message of the non-dropped blood if the test blood is not dropped comprises:

and continuously detecting whether the test blood is dripped on the test paper within the designated time, and if the test blood is not detected within the designated time, sending out a reminding message of no blood dripping.

The invention also provides an intelligent watch which comprises a body, and a watch running system module, a blood sugar measuring module and a test paper insertion detection module which are arranged in the body;

the test paper insertion detection module is used for detecting the insertion and extraction of the test paper, and a signal for starting the blood glucose measurement module is generated when the test paper is inserted so as to start the blood glucose measurement module; when the test paper is pulled out, a signal for closing the blood glucose measuring module is generated to close the blood glucose measuring module;

the blood sugar measuring module is used for measuring the blood sugar content of the test blood and transmitting the measurement result to the watch operation system module; the watch running system module is used for generating a watch running system module starting signal to start the watch running system module after the blood sugar measuring module is started;

and the watch operation system module is used for receiving and displaying the measurement result of the blood glucose measurement module and synchronously uploading the measurement result to the server.

Further, the blood sugar measuring module comprises a judging module for judging whether test blood is dripped on the test paper, if the test blood is dripped, the blood sugar measurement is carried out, and if the test blood is not dripped, the reminding information of the non-dripped blood is sent.

Furthermore, the judging module comprises a judging and reminding sub-module for continuously detecting whether the test blood is dripped on the test paper in the specified time, and if the test blood is not detected in the specified time, sending reminding information of the non-dripped blood.

Further, the body comprises a dial plate, the dial plate comprises a panel, a middle frame shell and a bottom shell, one end of the middle frame shell is provided with the panel, and the other end of the middle frame shell is provided with the bottom shell to form an accommodating space; the watch operation system module, the blood sugar measuring module and the test paper insertion detection module are arranged in the accommodating space;

the blood glucose measuring module comprises a test paper insertion port, the test paper insertion detecting module is arranged at the test paper insertion port, and a test paper insertion hole corresponding to the test paper insertion port is formed in the side wall of the middle frame shell; or,

and test paper insertion holes corresponding to the test paper insertion holes are formed in the edges, close to the middle frame shell, of the panels.

Furthermore, the body comprises a watchband and a dial plate, the watchband is fixedly connected with the dial plate, and the watch operation system module is arranged in the dial plate;

one end of the watchband, which is connected with the dial plate, is a hard structure band, a containing cavity is arranged in the hard structure band, and the blood glucose measuring module and the test paper insertion detecting module are arranged in the containing cavity;

a through hole which enables the containing cavity to be communicated with the inside of the dial plate is formed between the watch band and the dial plate, and the watch operation system module is connected with the blood sugar measuring module through a lead which penetrates through the through hole; the blood glucose measuring module comprises a test paper insertion port, and the test paper insertion detection module is arranged at the test paper insertion port;

and a test paper insertion hole corresponding to the test paper insertion hole is formed in the side wall of the accommodating cavity along the thickness direction of the watchband.

Furthermore, the body comprises a watchband and a dial plate, the watchband is fixedly connected with the dial plate, and the watch operation system module is arranged in the dial plate;

one end of the watchband, which is connected with the dial plate, is a hard structure band, a containing cavity is arranged in the hard structure band, and the blood glucose measuring module and the test paper insertion detecting module are arranged in the containing cavity;

a through hole which enables the containing cavity to be communicated with the inside of the dial plate is formed between the watch band and the dial plate, and the watch operation system module is connected with the blood sugar measuring module through a lead which penetrates through the through hole; the blood glucose measuring module comprises a test paper insertion port, and the test paper insertion detection module is arranged at the test paper insertion port;

the side wall of the containing cavity corresponding to one side of the watchband far away from the wrist of the human body is provided with a test paper inserting hole corresponding to the test paper inserting hole.

Further, the test paper insertion hole is formed in the bent portion of the rigid structure belt.

The invention also provides a blood sugar measuring system, which comprises an intelligent watch, a client and a server;

the intelligent watch measures the blood sugar content of the test blood and synchronously uploads the measurement result to the server for storage; the server receives a blood sugar query command sent by the client and sends a measurement result to the client according to the blood sugar query command;

the intelligent watch comprises a body, and a watch running system module, a blood sugar measuring module and a test paper insertion detection module which are arranged in the body;

the test paper insertion detection module is used for detecting the insertion and extraction of the test paper, and a signal for starting the blood glucose measurement module is generated when the test paper is inserted so as to start the blood glucose measurement module; when the test paper is pulled out, a signal for closing the blood glucose measuring module is generated to close the blood glucose measuring module;

the blood sugar measuring module is used for measuring the blood sugar content of the test blood and transmitting the measurement result to the watch operation system module; the watch running system module is used for generating a watch running system module starting signal to start the watch running system module after the blood sugar measuring module is started;

and the watch operation system module is used for receiving and displaying the measurement result of the blood glucose measurement module and synchronously uploading the measurement result to the server.

According to the intelligent watch, the method for measuring the blood sugar through the intelligent watch and the blood sugar measuring system, the watch operation system module, the blood sugar measuring module and the test paper are inserted into the detection module and arranged in the intelligent watch body, so that the intelligent watch has the function of measuring the blood sugar, and a user can measure the blood sugar conveniently; the watch operation system module and the blood sugar measuring module are in communication connection through a wire, so that signal transmission is stable and rapid, and the obtained measured data is more accurate; be provided with the test paper and insert the detection module, when inserting the test paper automatic start blood sugar measurement module and wrist-watch operating system module, easy operation is convenient.

Drawings

Fig. 1 is a flowchart of a method of measuring blood glucose by a smart watch according to an embodiment of the present invention;

FIG. 2 is a block diagram of a smart watch according to an embodiment of the invention;

FIG. 3 is a block diagram of a blood glucose measuring module according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a smart watch according to an embodiment of the invention;

FIG. 5 is a schematic diagram of a smart watch according to an embodiment of the invention;

FIG. 6 is a schematic diagram of a smart watch according to an embodiment of the invention;

FIG. 7 is a schematic diagram of a smart watch according to an embodiment of the invention;

FIG. 8 is a schematic diagram of a smart watch according to an embodiment of the invention;

fig. 9 is a block diagram of a blood glucose measuring system according to an embodiment of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, a method for measuring blood glucose by a smart watch according to an embodiment of the present invention is provided, in which the smart watch 1 includes a body 100, and a watch operating system module 200, a blood glucose measuring module 300 and a test strip insertion detection module 400 disposed in the body 100, the watch operating system module 200 and the blood glucose measuring module 300 are generally connected by a wire, and the blood glucose measuring module 300 is further generally connected with the test strip insertion detection module 400 by a wire; the method comprises the following steps:

s1, obtaining a signal for starting the blood sugar measuring module 300 through the test paper insertion detection module 400 to start the blood sugar measuring module 300, and generating a starting signal of the watch operating system module 200 to start the watch operating system module 200 after the blood sugar measuring module 300 is started;

s2, measuring the blood sugar content of the test blood on the test paper through the blood sugar measuring module 300, displaying the measurement result through the watch operating system module 200, and simultaneously uploading the measurement result to the server 2 synchronously through the watch operating system module 200;

s3, acquiring a test ending signal of the blood glucose measuring module 300 through the watch operating system module 200, and sending a test paper removal reminding signal; when the test paper is pulled out, the test paper is inserted into the detection module 400 to generate a signal for closing the blood glucose measuring module 300, so as to close the blood glucose measuring module 300, and the blood glucose measuring module 300 sends a return signal to return the watch operating system module 200 to the main interface.

As described in the step S1, the watch operating system module 200 is a conventional operating system module of the smart watch 1, and includes conventional system modules having functions of time display, making/receiving phone calls, receiving/sending short messages, positioning and/or step counting; the blood glucose measuring module 300 is a module capable of measuring blood glucose. The test strip insertion detection module 400 is a module for detecting whether test strips are inserted into the blood glucose measuring module 300, and generally performs measurement by detecting the level of the test strips, for example, when the test strips are inserted, the high level of the test strip insertion detection module 400 changes to a low level, a signal of the level change wakes up to start the blood glucose measuring module 300, and the blood glucose measuring module 300 sends a signal to wake up the watch operating system module 200. When measuring blood sugar, need not to open operation steps such as intelligent wrist-watch 1 and/or special blood glucose meter, improve convenience and the agility of measuring blood sugar.

As described in the above step S2, the measurement result is directly uploaded to the server 2, so that the measurement result is conveniently recorded, and when the measurement record needs to be checked, the measurement record can be called from the server 2. The server 2 may be a cloud server 2. The data uploading is carried out by the watch operation system module 200, the data uploading is carried out automatically without control, a user can be prevented from forgetting to upload measurement data to the server 2 and the like, the storage of a measurement result can be ensured, and when the measurement data result exceeds the range set on the APP, the server 2 can actively push the result to the client 3; when the measured data result is in the range set on the APP, the APP of the client 3 can send an inquiry instruction to the server 2, so that the server 2 sends the blood sugar measurement result to the client 3, and the client 3 associated with the smart watch 1 can conveniently inquire the measurement result of a user. The client 3 is generally an electronic device such as a smart phone or a tablet computer. In an embodiment, the smart watch 1 is used by an old, and the client 3 associated with the watch is used by a child or other relatives of the old, so that the child or other relatives can know the blood sugar condition of the old, determine whether the blood sugar is measured regularly, determine whether the blood sugar is normal, etc. through the client 3, manage and promote the blood sugar measurement of the old, and know the physical condition of the old, etc.

Like step S3 above, can send reminder signal to remind the user after the test, pull out the test paper, pull out the back when the test paper, can produce corresponding signal, close according to this signal blood sugar measurement module 300 to the main interface of the wrist-watch operating system module 200 of intelligent wrist-watch 1 is returned automatically, need not user control, facilitates the use, and especially old person uses, need not too much operation.

In this embodiment, the above-mentioned blood sugar content of testing blood on the test paper through blood sugar measuring module 300 to display its measuring result through wrist-watch operation system module 200, upload the measuring result in step S2 of server 2 through wrist-watch operation system module 200 in step S simultaneously, include:

s1', judging whether test blood is dripped on the test paper through the blood sugar measuring module 300, if the test blood is dripped, measuring the blood sugar, and if the test blood is not dripped, sending out reminding information of the non-dripping blood.

As described in the above step S1', after the test paper is inserted into the blood glucose measuring module 300, the blood glucose measuring module 300 will determine whether there is blood to be tested on the test paper, if so, the blood glucose measuring module will perform the measurement, and if not, a warning signal will be sent to remind the user to drop the blood, so as to complete the blood glucose measurement smoothly.

In this embodiment, if no test blood is dropped in step S1', the step of sending a reminder message of no blood drop includes:

and continuously detecting whether the test blood is dripped on the test paper within the designated time, and if the test blood is not detected within the designated time, sending out a reminding message of no blood dripping. Whether test blood drops on the test paper or not within a specified time can be continuously detected, so that blood sugar measurement can be carried out at the first time, the specified time is a limited time, namely if no test blood is detected within the limited time, the blood sugar measurement is considered to be free of test blood, and a reminding message needs to be sent to remind a user so as to smoothly complete the blood sugar measurement or stop the measurement and the like.

According to the method for measuring the blood sugar by the intelligent watch, the measurement result can be automatically uploaded to the server 2, redundant uploading operation is not needed, and the use is convenient; the watch running system module 200 and the blood sugar measurement module 300 of the intelligent watch 1 do not need to be awakened and started specially, and the intelligent watch can be used conveniently, and is particularly convenient for the old who is not familiar with electronic equipment; various corresponding reminding information such as voice reminding, display character reminding and the like can be sent to remind a user of problems in the operation process, so that the measurement can be smoothly carried out; the client 3 can also be used for calling the previous measurement result at any time to know the measurement condition of the user, and the use is convenient.

Referring to fig. 2, the smart watch 1 according to an embodiment of the present invention includes a main body 100, and a watch operation system module 200, a blood glucose measurement module 300, and a test paper insertion detection module 400 disposed in the main body 100, wherein the watch operation system module 200 and the blood glucose measurement module 300 are generally connected by a wire, and the blood glucose measurement module 300 is further generally connected with the test paper insertion detection module 400 by a wire; the test paper insertion detection module 400 is used for detecting insertion and extraction of test paper, and when the test paper is inserted, a signal for starting the blood glucose measurement module 300 is generated, so that the blood glucose measurement module 300 is started; when the test paper is pulled out, a signal for closing the blood glucose measuring module 300 is generated to close the blood glucose measuring module 300; the blood sugar measuring module 300 is configured to measure the blood sugar content of the test blood and transmit the measurement result to the watch operating system module 200; meanwhile, the start module is used for generating a start signal of the watch operating system module 200 to start the watch operating system module 200 after the blood sugar measuring module 300 is started; the watch operation system module is used for receiving and displaying the measurement result of the blood sugar measurement module 300, and simultaneously uploading the measurement result to the server 2 synchronously.

The conventional operation system module of the intelligent watch 1 comprises a conventional system module with the functions of time display, phone making/answering, short message receiving/sending, positioning function and/or step counting and the like; the blood glucose measuring module 300 is a module capable of measuring blood glucose. The test strip insertion detection module 400 is a module for detecting whether test strips are inserted into the blood glucose measuring module 300, and generally performs measurement by detecting the level of the test strips, for example, when the test strips are inserted, the high level of the test strip insertion detection module 400 changes to a low level, a signal of the level change wakes up to start the blood glucose measuring module 300, and the blood glucose measuring module 300 sends a signal to wake up the watch operating system module 200. When measuring blood sugar, need not to open operation steps such as intelligent wrist-watch 1 and/or special blood glucose meter, improve convenience and the agility of measuring blood sugar.

Referring to fig. 3, in the present embodiment, the blood glucose measuring module 300 includes a determining module 310, configured to determine whether test blood is dropped on the test paper, if the test blood is dropped, the blood glucose measurement will be performed, and if the test blood is not dropped, a reminding message that the blood is not dropped is sent. After the test paper is inserted into the detection module 400, the judgment module 310 of the blood glucose measurement module 300 can judge whether there is test blood on the test paper, if there is test blood, the test blood is measured, if there is no test blood, a reminding signal is sent to remind the user to drip blood, so as to smoothly complete the blood glucose measurement

In this embodiment, the determining module 310 includes a determining and reminding sub-module 311, configured to continuously detect whether the test blood is dropped on the test paper within a specified time, and send out a reminding message that the test blood is not dropped if the test blood is not detected within the specified time. The reminding sub-module 311 determines whether the test blood is dropped on the test paper within a predetermined time, so that the blood glucose measurement can be performed at the first time, where the predetermined time is a limited time, that is, if there is no test blood detected within the limited time, it is determined that there is no test blood, and a reminding message needs to be sent to remind the user, so as to complete the blood glucose measurement smoothly, or to perform the re-measurement.

Referring to fig. 4, in one embodiment, the body 100 includes a dial 110, the dial 110 includes a panel 111, a middle casing 112 and a bottom casing 113, one end of the middle casing 112 is mounted on the panel 111, and the other end is mounted on the bottom casing 113 to form a receiving space; the watch operation system module 200, the blood sugar measuring module 300 and the test paper insertion detection module 400 are arranged in the accommodating space; the blood glucose measuring module 300 comprises a test paper insertion port, and the test paper insertion detection module 400 is arranged at the test paper insertion port; a strip insertion hole 114 corresponding to the strip insertion hole is provided on a side wall of the middle frame case 112. Set up test paper patchhole 114 on center shell 112, test paper patchhole 114 conveniently sets up, and stable in structure need not to take off the wrist with intelligent wrist-watch 1 when measuring blood sugar, direct measurement, and the person of facilitating the use measures blood sugar. Referring to fig. 5, in another embodiment, a strip insertion hole 114 corresponding to the strip insertion hole is formed on the edge of the panel 111 near the middle frame 112. The test paper insertion hole 114 is formed in the edge of the panel 111, so that when the blood sugar is measured, the intelligent watch 1 does not need to be taken off the wrist for direct measurement, and a user can conveniently measure the blood sugar; when a user measures blood sugar, the dial 110 is usually placed on the back side of the wrist to make the panel 111 far away from the ground, so that the test paper is vertical, and the test blood quickly enters the blood sugar measuring module 300 along the test paper, thereby shortening the time for measuring blood sugar.

Referring to fig. 6, in an embodiment, the body 100 includes a watchband 120 and a watch face 110, the watchband 120 is fixedly connected to the watch face 110, and the watch operating system module 200 is disposed in the watch face 110; one end of the watchband 120, which is connected with the dial 110, is a hard structure band 121, a containing cavity is arranged in the hard structure band 121, and the blood glucose measuring module 300 and the test paper insertion detection module 400 are arranged in the containing cavity; a through hole for communicating the accommodating cavity with the inside of the dial 110 is formed between the watch band 120 and the dial 110, and the watch operating system module 200 is connected with the blood sugar measuring module 300 through a lead penetrating through the through hole; the side wall of the housing cavity in the thickness direction of wristband 120 is provided with a strip insertion hole 114 corresponding to the strip insertion port. The watchband 120 is fixedly connected with the dial 110, one end of the joint is a hard structure band 121, a containing cavity is arranged in the hard structure band 121, and the blood glucose measuring module 300 is arranged in the containing cavity, so that the volume of the dial 110 can be greatly reduced, and the integration requirement of each electronic device in the dial 110 is lowered. The test paper insertion hole 114 corresponding to the test paper insertion hole is formed in the side wall of the containing cavity in the thickness direction of the watchband 120, so that when blood sugar is measured, a user can measure the blood sugar directly without taking off the wrist of the intelligent watch 1. Referring to fig. 7, in another embodiment, a strip insertion hole 114 corresponding to the strip insertion hole is formed in a side wall of the band 120 corresponding to a side of the wrist. When measuring blood sugar, also need not to take off the wrist with intelligent wrist-watch 1, direct measurement, the person of facilitating the use measures the blood sugar. Referring to fig. 8, in the present embodiment, the test strip insertion hole 114 is disposed at a bending portion of the rigid structure band 121, the bending portion generally corresponds to the back and the side of the wrist of the human body, so that the test strip can be conveniently inserted and the test result can be conveniently checked when measuring blood glucose, and the user does not need to aim at the test strip insertion hole 114, etc., so that the blood glucose can be conveniently and rapidly tested.

In this embodiment, in the smart watch 1, the watch operating system module 200 and the blood sugar measuring module 300 are disposed in the body 100, so that the smart watch 1 has a blood sugar measuring function, and a user can measure blood sugar conveniently; the watch operation system module 200 and the blood sugar measuring module 300 are in communication connection through a wire, so that signal transmission is stable and fast, and the obtained measured data is more accurate; be provided with the test paper and insert detection module 400, make automatic start blood sugar measurement module 300 and wrist-watch operating system module 200 when inserting the test paper, easy operation is convenient.

Referring to fig. 9, the present invention further provides a blood glucose measuring system, including a smart watch 1, a client 3 and a server 2;

the intelligent watch 1 measures the blood sugar content of the test blood, synchronously uploads the measurement result to the server 2 for storage, and when the measurement data result exceeds the range set on the APP, the server 2 actively pushes the result to the client 3; when the measurement data result is within a range set on the APP; the server 2 receives a blood sugar query command sent by the client 3 and sends a measurement result to the client 3 according to the blood sugar query command;

the smart watch 1 comprises a body 100, a watch operation system module 200, a blood glucose measurement module 300 and a test paper insertion detection module 400 which are arranged in the body 100, wherein the watch operation system module 200 and the blood glucose measurement module 300 are generally connected through a wire, and the blood glucose measurement module 300 is also generally connected with the test paper insertion detection module 400 through a wire; the test paper insertion detection module 400 is used for detecting insertion and extraction of test paper, and a signal for starting the blood glucose measurement module 300 is generated when the test paper is inserted so as to start the blood glucose measurement module 300; when the test paper is pulled out, a signal for closing the blood glucose measuring module 300 is generated to close the blood glucose measuring module 300; the blood sugar measuring module 300 is configured to measure the blood sugar content of the test blood and transmit the measurement result to the watch operating system module 200; meanwhile, the start module is used for generating a start signal of the watch operating system module 200 to start the watch operating system module 200 after the blood sugar measuring module 300 is started; the watch operation system module is used for receiving and displaying the measurement result of the blood sugar measurement module 300, and simultaneously uploading the measurement result to the server 2 synchronously.

The conventional operation system module of the intelligent watch 1 comprises a conventional system module with the functions of time display, phone making/answering, short message receiving/sending and/or step counting; the blood glucose measuring module 300 is a module capable of measuring blood glucose. The test strip insertion detection module 400 is a module for detecting whether test strips are inserted into the blood glucose measuring module 300, and generally performs measurement by detecting the level of the test strips, for example, when the test strips are inserted, the high level of the test strip insertion detection module 400 changes to a low level, a signal of the level change wakes up to start the blood glucose measuring module 300, and the blood glucose measuring module 300 sends a signal to wake up the watch operating system module 200. When measuring blood sugar, need not to open steps such as intelligent wrist-watch 1, improve convenience and the agility of measuring blood sugar. The client 3 is generally an electronic device such as a smart phone or a tablet computer.

The blood sugar measuring system of this embodiment directly uploads the measuring result of intelligent wrist-watch 1 to server 2, conveniently records the measuring result, when the measuring record is looked over to needs, can transfer the measuring record in server 2. The server 2 may be a cloud server 2. The data is uploaded by the watch operation system module 200, automatic uploading is achieved without control, users can be prevented from forgetting to upload measurement data to the server 2, storage of measurement results can be guaranteed, and when the measurement data results exceed a range set on the APP, the server 2 can actively push the results to the client 3; when the measured data result is in the range set on the APP, the measured result uploaded to the server 2 can be transmitted to the server 2 through the APP of the client 3, so that the server 2 transmits the blood sugar measured result to the client 3, and the client 3 associated with the smart watch 1 can conveniently query the measured result of the user. In an embodiment, the smart watch 1 is used by an old, and when the client 3 associated with the watch is used by children and other relatives of the old, the children and other relatives can know the blood sugar condition of the old through the client 3, determine whether to measure the blood sugar regularly, manage and promote the blood sugar measurement of the old, and know the physical condition of the old.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. The method for measuring the blood sugar through the intelligent watch is characterized in that the intelligent watch comprises a body, and a watch running system module, a blood sugar measuring module and a test paper insertion detection module which are arranged in the body; the method for measuring blood glucose comprises the following steps:

the test paper is inserted into the detection module to obtain a signal for starting the blood sugar measurement module to start the blood sugar measurement module, and the blood sugar measurement module generates a watch operation system module starting signal to start the watch operation system module after being started;

measuring the blood sugar content of the test blood on the test paper through a blood sugar measuring module, displaying the measuring result through a watch operating system module, and simultaneously uploading the measuring result to a server through the watch operating system module;

acquiring a test finishing signal of the blood glucose measuring module through the watch operating system module, and sending a test paper pulling reminding signal; after the test paper is pulled out, the test paper is inserted into the detection module to generate a signal for closing the blood glucose measurement module, and the blood glucose measurement module sends a return signal to enable the watch operation system module to return to the main interface.

2. The method for measuring blood sugar by a smart watch according to claim 1, wherein the step of measuring the blood sugar content of the blood on the test paper by the blood sugar measuring module, displaying the measurement result by the watch operating system module, and synchronously uploading the measurement result to the server by the watch operating system module comprises the steps of:

whether test blood drips on the test paper is judged through the blood sugar measuring module, if test blood drips, blood sugar measurement is carried out, and if test blood does not drip, reminding information of the non-dripping blood is sent.

3. The method for measuring blood glucose by means of a smart watch according to claim 2, wherein the step of issuing a reminder of no blood drip if no test blood is dripped comprises:

and continuously detecting whether the test blood is dripped on the test paper within the designated time, and if the test blood is not detected within the designated time, sending out a reminding message of no blood dripping.

4. An intelligent watch is characterized by comprising a body, a watch running system module, a blood sugar measuring module and a test paper insertion detection module, wherein the watch running system module, the blood sugar measuring module and the test paper insertion detection module are arranged in the body;

the test paper insertion detection module is used for detecting the insertion and extraction of the test paper, and a signal for starting the blood glucose measurement module is generated when the test paper is inserted so as to start the blood glucose measurement module; when the test paper is pulled out, a signal for closing the blood glucose measuring module is generated to close the blood glucose measuring module;

the blood sugar measuring module is used for measuring the blood sugar content of the test blood and transmitting the measurement result to the watch operation system module; the watch running system module is used for generating a watch running system module starting signal to start the watch running system module after the blood sugar measuring module is started;

and the watch operation system module is used for receiving and displaying the measurement result of the blood glucose measurement module and synchronously uploading the measurement result to the server.

5. The smart watch of claim 4, wherein the blood glucose measuring module comprises a judging module for judging whether the test blood is dropped on the test paper, if the test blood is dropped, the blood glucose measurement is performed, and if the test blood is not dropped, a reminding message that the blood is not dropped is sent.

6. The smart watch of claim 5, wherein the determining module comprises a determination reminding sub-module for continuously detecting whether the test blood is dropped on the test paper within a specified time, and sending a reminding message of the blood not dropped if the test blood is not detected within the specified time.

7. The smart watch of claim 4, wherein the body comprises a dial plate, the dial plate comprises a panel, a middle frame shell and a bottom shell, one end of the middle frame shell is provided with the panel, and the other end of the middle frame shell is provided with the bottom shell to form an accommodating space; the watch operation system module, the blood sugar measuring module and the test paper insertion detection module are arranged in the accommodating space;

the blood glucose measuring module comprises a test paper insertion port, the test paper insertion detecting module is arranged at the test paper insertion port, and a test paper insertion hole corresponding to the test paper insertion port is formed in the side wall of the middle frame shell; or,

and test paper insertion holes corresponding to the test paper insertion holes are formed in the edges, close to the middle frame shell, of the panels.

8. The intelligent watch of claim 4, wherein the body comprises a watchband and a watch face, the watchband is fixedly connected with the watch face, and the watch operation system module is arranged in the watch face;

one end of the watchband, which is connected with the dial plate, is a hard structure band, a containing cavity is arranged in the hard structure band, and the blood glucose measuring module and the test paper insertion detecting module are arranged in the containing cavity;

a through hole which enables the containing cavity to be communicated with the inside of the dial plate is formed between the watch band and the dial plate, and the watch operation system module is connected with the blood sugar measuring module through a lead which penetrates through the through hole; the blood glucose measuring module comprises a test paper insertion port, and the test paper insertion detection module is arranged at the test paper insertion port;

and a test paper insertion hole corresponding to the test paper insertion hole is formed in the side wall of the accommodating cavity along the thickness direction of the watchband.

9. The intelligent watch of claim 4, wherein the body comprises a watchband and a watch face, the watchband is fixedly connected with the watch face, and the watch operation system module is arranged in the watch face;

one end of the watchband, which is connected with the dial plate, is a hard structure band, a containing cavity is arranged in the hard structure band, and the blood glucose measuring module and the test paper insertion detecting module are arranged in the containing cavity;

a through hole which enables the containing cavity to be communicated with the inside of the dial plate is formed between the watch band and the dial plate, and the watch operation system module is connected with the blood sugar measuring module through a lead which penetrates through the through hole; the blood glucose measuring module comprises a test paper insertion port, and the test paper insertion detection module is arranged at the test paper insertion port;

the side wall of the containing cavity corresponding to one side of the watchband far away from the wrist of the human body is provided with a test paper inserting hole corresponding to the test paper inserting hole.

10. A system for measuring blood sugar is characterized by comprising a smart watch, a client and a server;

the intelligent watch measures the blood sugar content of the test blood and synchronously uploads the measurement result to the server for storage; the server receives a blood sugar query command sent by the client and sends a measurement result to the client according to the blood sugar query command;

the intelligent watch comprises a body, and a watch running system module, a blood sugar measuring module and a test paper insertion detection module which are arranged in the body;

the test paper insertion detection module is used for detecting the insertion and extraction of the test paper, and a signal for starting the blood glucose measurement module is generated when the test paper is inserted so as to start the blood glucose measurement module; when the test paper is pulled out, a signal for closing the blood glucose measuring module is generated to close the blood glucose measuring module;

the blood sugar measuring module is used for measuring the blood sugar content of the test blood and transmitting the measurement result to the watch operation system module; the watch running system module is used for generating a watch running system module starting signal to start the watch running system module after the blood sugar measuring module is started;

and the watch operation system module is used for receiving and displaying the measurement result of the blood glucose measurement module and synchronously uploading the measurement result to the server.