CN113189339A - Blood glucose detector matched with mobile terminal, blood glucose detection equipment, use method of blood glucose detection equipment and blood glucose detection method - Google Patents

Abstract

The invention provides a blood sugar detector and blood sugar detection equipment matched with a mobile terminal, a use method of the blood sugar detection equipment and a blood sugar detection method. The blood sugar detector comprises a detection device, a terminal protection shell and a face cover, wherein the terminal protection shell is provided with an installation position and a terminal placing position which are sequentially arranged, and the face cover is detachably arranged on the terminal protection shell; detection device detachably fixes in the installation position, and detection device's terminal joint is followed first direction and is stretched into the terminal and place the position. The blood sugar detection equipment comprises a blood sugar detector and a mobile terminal. The using method comprises the steps of inserting a terminal connector of the detection device into a second interface of the mobile terminal; fixing the detection device and the mobile terminal to a terminal protection shell together; the face cover is mounted to the terminal protective case. The blood sugar detection method comprises the steps of obtaining an electric signal related to the blood sugar concentration of blood to be detected on the test paper through a blood sugar detector; and generating detection data according to the electric signals, and displaying the detection data on the interface. The invention is suitable for users with high blood sugar detection frequency.

Description

Blood glucose detector matched with mobile terminal, blood glucose detection equipment, use method of blood glucose detection equipment and blood glucose detection method

Technical Field

The invention relates to the technical field of medical equipment, in particular to a blood glucose detector matched with a mobile terminal, blood glucose detection equipment, a use method of the blood glucose detection equipment and a blood glucose detection method.

Background

The existing blood glucose detection device matched with the touch screen mobile phone comprises a block-shaped device main body, wherein a slot for inserting a blood glucose test paper and a connector for inserting a touch screen mobile phone interface are formed in the device main body. The blood sugar detection device has the characteristics of convenience in carrying and convenience in insertion and use due to small volume.

The existing blood sugar detection device has the problems that when a patient requires daily detection and daily detection needs more times, the small size and the convenient disassembly mode cause the problem of omission outside; if the mobile phone is inserted into the mobile phone all the time, the problem of loosening, losing and damaging is easily caused.

Disclosure of Invention

The first purpose of the invention is to provide a blood sugar detector which is suitable for being matched with a mobile terminal for use and has high blood sugar detection frequency.

A second object of the present invention is to provide a blood glucose detecting apparatus suitable for use in a blood glucose detecting apparatus having a high frequency of blood glucose detection.

A third object of the present invention is to provide a method for using a blood glucose test device that is suitable for use in blood glucose test devices with a high frequency of blood glucose tests.

A fourth object of the present invention is to provide a blood glucose detecting method suitable for a blood glucose detecting apparatus having a high blood glucose detecting frequency.

The invention provides a blood sugar detector matched with a mobile terminal for use, which comprises a detection device, wherein the detection device comprises a circuit board, a terminal joint and a test paper collection end, wherein the terminal joint and the test paper collection end are fixed on the circuit board; the blood sugar detector also comprises a protective shell assembly, wherein the protective shell assembly comprises a terminal protective shell and a face cover; the terminal protection shell is provided with an installation position and a terminal placement position which are sequentially arranged along a first direction, and the face cover is detachably arranged on the terminal protection shell and shields the installation position; the detection device is detachably fixed in the mounting position and limited between the terminal protection shell and the face cover, and the terminal joint extends into the terminal placing position along the first direction; the terminal protection shell or the face cover is provided with a test paper jack which is communicated to the position of the test paper collecting end.

According to the scheme, the blood sugar detector is arranged in the form of a mobile phone shell, the detection device is arranged at the bottom of the terminal protection shell, the position of the blood sugar detector is suitable for being matched with the interface position of most existing touch screen mobile phones, and the detection device and the touch screen mobile phones keep stable connection relation under the limitation of the terminal protection shell; in addition, the position of the detection device does not affect the operation of the thumb on the touch screen, and the main volume of the detection device is embodied on the circuit board of the control circuit module, and the circuit board can be a slender circuit board with a small volume, so that the total length of the terminal protection shell is reduced as much as possible, and the hidden design enables the visual and handheld feeling not to generate too large change as much as possible, so that the detection device is suitable for users with high blood sugar detection frequency.

The detection device further comprises a first interface for charging and interaction, wherein the first interface is fixedly arranged on the circuit board; the terminal protection shell or the face cover is provided with a joint jack which is communicated with the first interface.

Therefore, the second interface used for charging and discharging and interaction on the touch screen mobile phone is occupied by the blood glucose detector, and the blood glucose detector and the touch screen mobile phone keep a relatively fixed connection relation, so that the blood glucose detector is provided with the first interface replacing the second interface for charging and data interaction, and the integrity of the use function of the touch screen mobile phone is ensured.

In a further scheme, in the first direction, the first interface and the terminal joint are arranged oppositely.

Therefore, the position of the first interface is close to the position of the second interface on the touch screen mobile phone through the arrangement, so that the previous use habit of a user is adapted, and the comfort level is improved.

Further scheme is, in the first direction, on terminal protective housing or the face lid, the test paper jack setting is at the tip of keeping away from the terminal place position.

It is from top to bottom, this set up the bottom that makes the test paper jack be located the protective housing, reduce the influence to the protective housing outward appearance, its plug direction is the same with the plug direction that charges, has also adapted to user's suitable habit, promotes the comfort level.

The test paper inserting channel is formed by surrounding guide ribs which are arranged on the inner side of the terminal protection shell or the inner side of the surface cover; the test paper inserting passage is communicated between the test paper inserting hole and the test paper collecting end.

From top to bottom, this setting makes the plug of test paper obtain effectual direction, guarantees the effective connection after the test paper inserts, improves and detects the success rate.

The terminal protection shell is provided with a peripheral wall positioned at the periphery of a terminal placing position, and a first convex edge protrudes on the inner peripheral surface of the peripheral wall; the edge of the face cover is provided with a second convex edge; the first flange and the second flange form a peripheral confinement structure around the entrance of the terminal placement site.

Therefore, the peripheral limiting structure effectively limits the touch screen mobile phone in the terminal placing position, and accordingly the anti-falling function is achieved.

The blood sugar detection equipment provided by the second object of the invention comprises a blood sugar detector and a mobile terminal, wherein the mobile terminal is provided with a second interface for charging, discharging and interacting; the blood sugar detector adopts the blood sugar detector; the mobile terminal is placed in the terminal placing position, and the terminal joint is inserted into the second interface along the inserting direction; in the first direction, the mobile terminal is confined between the terminal protective case and the circuit board.

According to the scheme, the blood sugar detection device provided by the invention is designed for individual users or medical personnel with high use frequency. The blood glucose detector is arranged in the form of a mobile phone shell, after the face cover and the circuit board are detached, the touch screen mobile phone and the circuit board are inserted and connected and then are put into the protective shell together, and the upper face cover is installed again, so that the touch screen mobile phone and the blood glucose detector are combined into an integrated blood glucose detection device. The method comprises the steps that a detection device is arranged at the bottom of a terminal protection shell, the position is suitable for being matched with interface positions of most existing touch screen mobile phones, and the detection device and the touch screen mobile phones are kept in a stable connection relation under the limitation of the terminal protection shell; the position of the detection device does not influence the operation of a thumb on a touch screen, the width of the touch screen mobile phone is not increased, the detection device is mainly embodied on the circuit board of the control circuit module in size, and the circuit board can be a slender circuit board with small size, so that the total length of the terminal protection shell is reduced as much as possible, the hidden design ensures that the visual and handheld feeling does not generate overlarge change as much as possible, and when a user needs to detect for many times every day, the blood sugar detection device connects the blood sugar detector to the touch screen mobile phone in a relatively fixed form on the premise of not changing the size and the handheld feeling of the touch screen mobile phone as much as possible so as to meet the requirements of the user.

The use method of the blood sugar test device provided by the third object of the invention is applied to the blood sugar test device; the using method comprises the steps of inserting a terminal connector of the detection device into a second interface of the mobile terminal; fixing the detection device and the mobile terminal into a terminal protection shell; the face cover is mounted to the terminal protective case.

According to the scheme, the mobile terminal such as the touch screen mobile phone is fixed in the shell type protective shell of the mobile phone in a relatively fixed mode, the blood sugar detector is combined with the touch screen mobile phone into a whole detection device in a relatively hidden mode, the detection device is convenient for a user with high use frequency to carry every day, the user does not need to search and plug again for each use, and the problem that the detection cannot be carried out due to going out or forgetting to carry the detection device outside is avoided.

The fourth object of the present invention is a blood glucose test method for a blood glucose test device, which is applied to the blood glucose test device; the blood sugar detection method comprises the steps of obtaining an electric signal related to the blood sugar concentration of blood to be detected on the test paper through a blood sugar detector; and generating detection data according to the electric signals, and displaying the detection data on the interface.

According to the scheme, after the blood glucose test paper is inserted into the blood glucose detector, the display screen prompts the blood to drop; when enough blood is dripped, the control circuit of the circuit board sends the generated electric signal to the touch screen mobile phone and displays the electric signal on the display screen. The blood detector is used as an external device without arranging a display screen, a power supply and the like, so that the blood detector has a small size, the hidden type integrated device is combined with the touch screen mobile phone under the premise of reducing the handheld feeling of the touch screen mobile phone as much as possible, and the touch screen mobile phone is used as a control terminal to facilitate operation.

The further scheme is that after the step of obtaining the electric signal related to the blood glucose concentration of the blood to be detected on the test paper by the blood glucose detector, whether the electric signal reaches a preset value is judged, and if not, the too low blood volume reminding information is displayed on an interface. And judging whether the electric signal reaches a preset value, if so, executing the steps of generating detection data according to the electric signal and displaying the detection data on an interface.

From top to bottom, when the blood volume that drops into the test paper is not enough, touch screen cell-phone then makes the judgement and sends the reminder signal on the display screen according to the signal of telecommunication.

Drawings

FIG. 1 is a block diagram of an embodiment of a blood glucose testing device of the present invention.

FIG. 2 is an exploded view of an embodiment of the blood glucose test device of the present invention.

FIG. 3 is an exploded view of the blood glucose meter of the present invention.

FIG. 4 is a diagram of a circuit board of an embodiment of the blood glucose meter of the present invention.

Fig. 5 is a structural diagram of a terminal protection shell in an embodiment of the blood glucose monitor of the present invention.

FIG. 6 is a diagram illustrating a face cap according to an embodiment of the blood glucose monitor of the present invention.

FIG. 7 is a block diagram of an embodiment of the blood glucose meter of the present invention.

FIG. 8 is a cross-sectional view of an embodiment of a blood glucose testing device of the present invention.

Fig. 9 is an enlarged view of a portion a in fig. 8.

FIG. 10 is a diagram of an initial interface of a test function in an embodiment of the blood glucose test method of the present invention.

FIG. 11 is a diagram illustrating a history query interface according to an embodiment of the blood glucose detecting method of the present invention.

FIG. 12 is a diagram illustrating a dialog box according to an embodiment of the blood glucose detecting method of the present invention.

Detailed Description

Blood glucose test device embodiment

Referring to fig. 1 and 2, the present invention provides a blood glucose detecting apparatus, which is constructed by coupling a blood glucose detector to a mobile terminal in a manner that is more concealed, has less influence on the volume, and has less influence on the feeling of holding a touch screen by the mobile terminal, based on the mobile terminal used by a user on a daily basis.

The blood glucose detecting device of the embodiment comprises a blood glucose detector 1 and a touch screen mobile phone 9, wherein the blood glucose detector 1 is the blood glucose detector provided by the invention, the touch screen mobile phone 9 is the mobile terminal provided by the invention, and the blood glucose detector 1 is designed into a mobile phone shell form adapted to the touch screen mobile phone 9. The blood sugar detector 1 is provided with a terminal placing position 201 for placing the touch screen mobile phone 9. The touch screen mobile phone 9 has a second interface 901 for charging and discharging and interaction.

Referring to fig. 3 and 4, the blood glucose meter 1 includes a test device 4 and a protective housing assembly. The protective case assembly includes a terminal protective case 2, a face cover 3, screws, and hole plugs (not shown in the drawings). The detection device 4 comprises a circuit board 41, a terminal connector 42, a test paper collecting end 43 and a first interface 44. The terminal connector 42, the test paper collecting end 43 and the first interface 44 are all fixed on the circuit board 41. The circuit board 41 is elongated, and the circuit board 41 is elongated in the y-axis direction. The terminal connector 42 is used for inserting into the touch screen mobile phone 9, so as to supply power to the circuit board 41 and realize signal interaction with the touch screen mobile phone 9. The first interface 44 is used for charging and interaction, the terminal connector 42 extends out of the circuit board 41 along the x-axis positive direction, and the first interface 44 is arranged opposite to the terminal connector 42 in the x-axis direction, i.e. the inlet direction of the first interface 44 is the x-axis positive direction. The test paper collection end 43 includes a plurality of pogo pin contacts, and the test paper collection end 43 is provided on the circuit board 41 near the edge of the end portion in the negative x-axis direction. Wherein the x-axis direction is the first direction of the present application.

Referring to fig. 5, the terminal protection case 2 includes a back wall 21, a peripheral wall 22, a lower stopper 23, a through-hole pillar 24, a positioning protrusion 25, a lower snap structure 26, a first flange 27, and a key protrusion 28. The back wall 21 is a main shielding structure, and the overall contour of the back wall 21 is a rectangle with rounded corners, the x-axis direction is the length direction of the back wall 21, and the y-axis direction is the width direction of the back wall 21. The peripheral wall 22 protrudes forward along the z-axis from the edges of the left and right sides and the front side of the back wall 21, and an inner space 200 of the terminal protective case 2 is formed between the peripheral wall 22 and the back wall 21 in a shape of a "door".

With reference to fig. 2 and fig. 3, according to different functions, the internal space 200 is divided into an installation position 202 and a terminal placement position 201, which are sequentially connected along the x-axis forward direction, where the installation position 202 is used for installing the detection apparatus 4, and the terminal placement position 201 is used for placing the touch screen mobile phone 9.

At the outer periphery of the terminal placement position 201, the first flange 27 protrudes from the inner wall surface of the peripheral wall 22, and the first flange 27 is located on the left and right sides of the entrance of the terminal placement position 201. The key protrusions 28 are provided on the peripheral wall 22 on one side of the terminal placement position 201. At the bottom of the terminal placement site 201, a camera through hole 210 is provided on the back wall 21.

The lower limiting structure 23, the through-hole column 24, the positioning protrusion 25 and the lower snap structure 26 are all arranged at the mounting position 202. The lower buckle structure 26 includes a lower end buckle 261 and a lower side buckle 262, the lower end buckle 261 is disposed at the edge of the end of the back wall 21 in the negative direction of the x-axis, the lower side buckle 262 is disposed at the inner side of the peripheral wall 22, and both the lower end buckle 261 and the lower side buckle 262 have buckling holes.

The lower limit structure 23 includes a lower limit rib 231 protruding from the back wall 21 in the positive z-axis direction and extending in the y-axis direction to be long, and a lower limit protrusion 232 protruding from the end edge of the back wall 21 in the negative x-axis direction. Two through hole columns 24 are arranged on the back wall 21 and are respectively connected to the extending two ends of the lower limiting rib plate 231, and the through hole columns 24 are provided with through holes for bolts to pass through. On both sides of the mounting position 202, positioning projections 25 are provided depending on the peripheral wall 22, and the fitting ends of the positioning projections 25 are provided toward the z-axis positive direction.

Referring to fig. 6, the surface cover 3 includes a top wall 31, a side wall 32, an upper limit structure 33, a threaded post 34, a positioning groove 35, an upper snap structure 36 and a second protruding strip 37. The face cover 3 is used to shield the mounting site 202 and the detection device 4 mounted in the mounting site 202, and therefore the face cover 3 has a substantially rectangular outline and extends in the y-axis direction. The side wall 32 protrudes from the edge of the top wall 31 in the x-axis direction, and a test paper insertion hole 301 and a connector insertion hole 302 penetrating in the x-axis direction are formed in the side wall 32. The upper limiting structure 33 comprises a limiting rib plate 331 and a guiding rib strip 332 protruding from the top wall 31 along the negative direction of the z axis, the limiting rib plate 331 extends along the direction of the y axis, and a test paper inserting channel 303 communicated with the test paper inserting hole 301 is formed between the two guiding rib strips 332. The two screw hole columns 34 protrude from the top wall 31 along the negative direction of the z axis, the two screw hole columns 34 are respectively connected to two extending ends of the limiting rib plate 331, each screw hole column 34 is provided with a screw hole, and each screw hole is a blind hole.

In the y-axis direction, the opposite ends of the top wall 31 are provided with positioning grooves 35, the inner contour of the positioning groove 35 is funnel-shaped and has a guiding function, and the positioning groove 35 has a guiding inclined plane 351 between the bottom surface and the inlet. The upper catch structure 36 includes an upper end catch 361 provided on the side wall 32 and an upper side catch 362 protruding from the top wall 31, and each of the upper end catch 361 and the upper side catch 362 has a catch projection. The second rib 37 is located at the edge of the top wall 31.

Referring to fig. 1 to 6, the detection device 4 is mounted in the mounting position 202, and the face cover 3 covers the mounting position 202 and the detection device 4 in the mounting position 202. When the face cover 3 is matched with the terminal protection shell 2, the positioning protrusion 25 is guided and inserted into the positioning groove 35, so that initial positioning is realized; then, the lower buckling structure 26 is buckled with the upper buckling structure 36, so that the relative fixation of the face cover 3 and the terminal protection shell 2 is completed; then, screws (not shown) are inserted through the through-hole posts 24 and the circuit board 41 to be engaged with the screw posts 34, thereby completing the assembly of the terminal protection case 2, the detection device 4 and the face cover 3. In addition, the first flange 27 and the second flange 37 constitute a peripheral restriction structure around the entrance of the terminal placement position 201 at this time.

Referring to fig. 7 again, after the detecting device 4 is fixed to the mounting position 202, the circuit board 41 is limited between the lower limiting structure 23 and the upper limiting structure 33, the terminal connector 42 extends to the terminal placing position 201 along the x-axis direction, the test paper inserting channel 303 is communicated between the test paper inserting hole 301 and the test paper collecting end 43, and the connector inserting hole 302 is communicated with the first interface 44 along the x-axis direction.

Referring to fig. 8 and 9, after the touch screen mobile phone 9 is placed in the terminal placing position 201, the terminal connector 42 is inserted into the second interface 901 to achieve electrical connection, and the first convex edge 27 and the second convex edge 37 are in limit fit with the edge 91 of the screen of the touch screen mobile phone 9.

The blood sugar detector 1 is arranged in the form of a mobile phone shell, the detection device 4 is arranged at the bottom of the terminal protection shell 2, the position is suitable for being matched with the interface position of most of the existing touch screen mobile phones 9, and the detection device 4 and the touch screen mobile phones 9 keep stable connection relation under the limitation of the terminal protection shell 2. When detection is needed, the test paper 8 is inserted through the test paper insertion hole 301, and the test paper collection end 43 is connected; when the touch screen mobile phone 9 needs to be charged, the charging line is electrically connected with the first interface 44 through the connector jack 302.

In addition, the position of the detection device 4 does not affect the operation of the thumb on the touch screen, and the main volume of the detection device 4 is embodied on the circuit board 41 of the control circuit module, and the circuit board 41 is a slender circuit board with a small volume, so that the total length of the terminal protection shell 2 is reduced as much as possible, and the hidden design ensures that the visual and handheld feeling does not generate too large change as much as possible, so that the detection device is suitable for users with high blood sugar detection frequency.

Method embodiment for using blood sugar detection equipment

Referring to fig. 1 to 3, a method of using the blood glucose measuring apparatus includes a method of mounting a mobile terminal to a blood glucose meter. The method comprises the following steps: firstly, the face cover 3 and the detection device 4 are detached from the terminal protection shell 2, then the installation connection between the detection device 4 and the touch screen mobile phone 9 is carried out, namely, the terminal connector 43 of the detection device 4 is inserted into the second interface 901 of the touch screen mobile phone 9, then the detection device 4 and the touch screen mobile phone 9 are fixed into the terminal protection shell 2 together, and the face cover 3 is installed on the terminal protection shell 2 again.

Blood sugar detection method embodiment of blood sugar detection equipment

The blood sugar detection method is applied to the mobile terminal in the blood sugar detection device.

Referring to fig. 1, 2, 3, and 10, after installing software on the touch-screen mobile phone 9, a user may enter the software and perform user registration and login in the software. The user may then enter the initial interface 1000 for detection function by making a touch click on the touch screen. The initial interface 1000 for the detection function includes a device status information bar 1001, a strip status display pattern 1002, a blood status display pattern 1003, a test result display area 1004, an alarm or prompt information display area 1005, a return home page virtual key 1006, a record inquiry virtual key 1007, and an entry setting interface virtual key 1008.

The device status information bar 1001 is used for displaying whether the current touch screen mobile phone 9 and the detection device 4 are in a connection state; the test paper state display pattern 1002 is used for displaying image information of whether the test paper 8 is inserted into the blood glucose detector 1; the blood status display pattern 1003 is used to display image information indicating whether the amount of blood dropped into the test strip 8 is sufficient, the test result display area 1004 is used to display the test result, the alarm or prompt information display area 1005 is used to display the alarm or prompt information generated during the process, the return home page virtual button 1006 is used to return to the software home page, the record inquiry virtual button 1007 is used to read the past test record, and the enter setting interface virtual button 1008 is used to enter the setting interface.

When the touch-screen mobile phone 9 is not installed in the blood glucose monitor 1, the terminal connector 43 of the detection device 4 is not inserted into the second interface 901 of the touch-screen mobile phone 9, and the system does not obtain the relevant electric signal, the device status information column 1001 displays "device not connected". Further, the display color of "device not connected" is red.

When the touch-screen phone 9 is installed in the blood glucose meter 1, the terminal connector 43 of the detection device 4 is inserted into the second interface 901 of the touch-screen phone 9, and the system obtains the relevant electric signal, the device status information column 1001 displays "device connected". Further, the display color of "device connected" is green.

When the test paper 8 is not inserted, the system judges that the test paper 8 is not connected because the system acquires an electric signal related to the test paper through the detection device 4, and the test paper state display pattern 1002 is displayed in a flashing manner; when the test strip 8 is inserted into the blood glucose meter 1 and connected to the test strip collecting end 43, the system determines that the test strip 8 is connected by obtaining an electrical signal of the test strip, and the test strip status display pattern 1002 is displayed in a normally bright manner.

When the test paper 8 is inserted, but the blood is not dripped into the test paper 8 or the blood volume dripped into the blood is insufficient, the system judges that the electric signal related to the blood glucose concentration of the blood to be detected on the test paper 8 does not reach the preset value, the blood state display pattern 1003 is extinguished or flickered to display, and meanwhile, the warning or prompting information display area 1005 displays the reminding information of the low blood volume. If the blood volume is enough, the system judges that the related electrical signal reaches the preset value, the blood state display pattern 1003 is displayed in a normally bright mode, and the system generates detection data according to the electrical signal and displays the detection data in the detection result display area 1004.

After the user clicks the record query virtual button 1007, the history interface 1070 may be accessed to check the past detection data. After the inspection is complete, the system collates the inspection data and forms bar chart 1071 and graph 1072, which are displayed in historian interface 1070. The bar chart 1071 and the graph 1072 both count the blood sugar test results of three times a day in the morning, at noon and in the evening in the last days, the user can clearly compare the blood sugar test results of three times a day in the morning, at noon and in the evening in the bar chart 1071, and the user can compare the blood sugar test results of continuous days in the graph.

In addition, the history interface 1070 further displays a doctor order information display field 1073, the doctor order information display field 1073 is an interactive field, a user can pop up a dialog box 1730 after clicking the doctor order information display field 1073, the user can fill in the doctor order information in the key-in field 1731 of the dialog box 1730, the dialog box 1730 exits after clicking and confirming, and the doctor order information is displayed in the doctor order information display field 1073 of the history interface 1070.

Finally, it should be emphasized that the above-described preferred embodiments of the present invention are merely examples of implementations, rather than limitations, and that many variations and modifications of the invention are possible to those skilled in the art, without departing from the spirit and scope of the invention.

Claims (10)

1. The blood sugar detector matched with the mobile terminal comprises a detection device, wherein the detection device comprises a circuit board, a terminal joint and a test paper collection end, wherein the terminal joint and the test paper collection end are fixed on the circuit board;

the method is characterized in that:

the blood glucose detector also comprises a protective shell assembly, wherein the protective shell assembly comprises a terminal protective shell and a face cover;

the terminal protection shell is provided with an installation position and a terminal placement position which are sequentially arranged along a first direction, and the face cover is detachably installed on the terminal protection shell and shields the installation position;

the detection device is detachably fixed in the installation position and limited between the terminal protection shell and the face cover, and the terminal joint extends into the terminal placement position along the first direction;

and the terminal protection shell or the face cover is provided with a test paper jack which is communicated to the position of the test paper collecting end.

2. The blood glucose monitor of claim 1, wherein:

the detection device further comprises a first interface for charging and interaction, and the first interface is fixedly arranged on the circuit board;

the terminal protection shell or the face cover is provided with a joint jack, and the joint jack is communicated with the first interface.

3. The blood glucose monitor of claim 2, wherein:

in the first direction, the first interface and the terminal joint are arranged oppositely.

4. The blood glucose monitor according to any one of claims 1 to 3, wherein:

in the first direction, the terminal protection shell or the face cover is provided with the test paper jack which is arranged at the end part far away from the terminal placing position.

5. The blood glucose monitor according to any one of claims 1 to 3, wherein:

guide ribs are arranged on the inner side of the terminal protection shell or the inner side of the face cover, and the guide ribs surround to form a test paper insertion channel;

the test paper inserting passage is communicated between the test paper inserting hole and the test paper collecting end.

6. The blood glucose monitor according to any one of claims 1 to 3, wherein:

the terminal protection shell is provided with a peripheral wall positioned at the periphery of the terminal placing position, and a first convex edge protrudes on the inner peripheral surface of the peripheral wall;

the edge of the face cover is provided with a second convex edge;

the first flange and the second flange constitute a peripheral limiting structure around an entrance of the terminal placement site.

7. The blood sugar detection equipment comprises a blood sugar detector and a mobile terminal, and the mobile terminal is provided with a second interface for charging, discharging and interaction;

the method is characterized in that:

the blood sugar detector adopts the blood sugar detector of any one of the claims 1 to 6;

the mobile terminal is placed in the terminal placing position, and the terminal joint is inserted into the second interface along the insertion direction;

in the first direction, the mobile terminal is confined between the terminal protective case and the circuit board.

8. The use method of the blood sugar detection device is characterized in that:

use of the blood glucose test device of claim 7;

the using method comprises the following steps:

inserting the terminal connector of the detection device into the second interface of the mobile terminal;

fixing the detection device and the mobile terminal into the terminal protection shell;

mounting the face cover to the terminal protective case.

9. A blood glucose detection method of a blood glucose detection device is characterized in that:

use of the blood glucose test device of claim 7;

the blood sugar detection method comprises the following steps:

acquiring an electric signal related to the blood glucose concentration of blood to be detected on the test paper by the blood glucose detector;

and generating detection data according to the electric signals, and displaying the detection data on an interface.

10. The blood glucose detecting method according to claim 9, wherein:

after the step of obtaining the electric signal related to the blood glucose concentration of the blood to be detected on the test paper by the blood glucose detector, the method comprises the following steps:

and judging whether the electric signal reaches a preset value, if not, displaying the reminding information of the too low blood volume on the interface.

And judging whether the electric signal reaches a preset value, if so, executing the steps of generating detection data according to the electric signal and displaying the detection data on an interface.

Images