CN221044947U - Noninvasive blood glucose detection data storage module - Google Patents

Abstract

The utility model discloses a noninvasive blood glucose detection data storage module, which relates to the technical field of blood glucose detection and aims to solve the problems that when in use, skin is required to be pierced through a blood taking needle, and blood flowing out is stuck on blood glucose measurement paper, so that pain is caused to a user and infection danger exists. The utility model discloses when using, go up casing and lower casing and can carry out the centre gripping to the user's finger, infrared photoelectric transmitter module sends infrared, near infrared ray, after the finger reflection, transmits infrared photoelectric sensor module, and infrared photoelectric sensor module receives reflected ray, converts the optical signal into the electrical signal through handling, and transmission data arrives control module, and control module receives the electrical signal that infrared photoelectric sensor module transmitted, and on display module was exported to the treater to the storage is in the control module inside.

Description

Noninvasive blood glucose detection data storage module

Technical Field

The utility model relates to the field of blood glucose detection, in particular to a noninvasive blood glucose detection data storage module.

Background

The utility model discloses a portable diabetes blood glucose measuring device, which comprises a blood glucose measuring instrument main body, a portable hanging ring structure, a sterilizing bottle structure, a blood taking needle structure, blood glucose measuring paper, a blood glucose measuring probe, a display screen, a measuring socket, a clamping ring, a host, a switch, a holding sleeve and a lithium battery, wherein the portable hanging ring structure is connected with the middle position of the upper surface of the blood glucose measuring instrument main body in a shaft way; the disinfection bottle structure is glued at the lower left part of the main body of the blood glucose meter; the blood taking needle structure is inserted into the clamping ring; the blood sugar measuring paper is inserted into the right side of the measuring socket.

In carrying out the present utility model, the inventors have found that there is at least a problem in this technique in that, when in use, it is necessary to pierce the skin with a lancet, adhere the discharged blood to blood glucose measuring paper, cause pain to the user, and there is a risk of infection, and therefore, a noninvasive blood glucose test data storage module has been proposed.

Disclosure of utility model

In order to improve the problems that when in use, the skin needs to be pierced by a blood taking needle, and the flowing blood is stuck on blood glucose measuring paper, so that pain is caused to a user and infection is dangerous, the utility model provides a noninvasive blood glucose detection data storage module.

The utility model provides a noninvasive blood glucose detection data storage module, which adopts the following technical scheme:

The noninvasive blood glucose detection data storage module comprises an intelligent handheld device and a detection device, wherein the detection device comprises an upper shell and a detection storage module, the upper shell is connected with a lower shell through a torsion spring, a display module and a Bluetooth module are arranged on the upper shell, the detection storage module comprises a control module, a processor, an infrared photoelectric emitter module and an infrared photoelectric sensor module, the control module and the processor are arranged inside the upper shell, and the infrared photoelectric emitter module and the infrared photoelectric sensor module are arranged inside the lower shell;

The utility model discloses a hand-held device, including the shell, the shell is equipped with the inside fixed mounting of spring, the top of intelligent hand-held device set up with the storage tank of inferior valve looks adaptation, the inside fixed mounting of intelligent hand-held device has the spring, the one end fixed mounting of spring has the movable block, the gag lever post is worn to be equipped with to the inside of movable block is fixed, the inside of inferior valve set up with the spacing groove of gag lever post looks adaptation.

Through adopting above-mentioned technical scheme, when using, go up casing and lower casing and can carry out the centre gripping to user's finger, infrared photoemitter module sends 1610nm, 660nm, 940nm three kinds of wavelength infrared, near infrared ray, after the finger reflection, transmit to infrared photoemitter module, infrared photoemitter module receives reflected light, convert the optical signal into the electrical signal through processing, transmit data to control module, control module receives the electrical signal that infrared photoemitter module transmitted, output to display module through the treater, and store in control module the inside, intelligent handheld device is through bluetooth module pairing connection after the test equipment, can read measuring result and the history record of storage, thereby reduce the user need be pricked skin by the blood sampling needle when measuring blood sugar and cause pain, and there is the dangerous condition of infection.

Optionally, the outer wall of intelligent handheld device is seted up flutedly, the gag lever post runs through to the recess inside and fixedly connected with pull ring.

By adopting the technical scheme, the pull ring can facilitate the user to pull the limit rod.

Optionally, rubber cushions are fixedly arranged on the outer surfaces of the upper shell and the lower shell.

By adopting the technical scheme, the rubber cushion can reduce the pain of the upper shell and the lower shell when the upper shell and the lower shell clamp the fingers of a user.

Optionally, an inclined surface facing upwards is formed at one end of the limiting rod away from the pull ring.

Through adopting above-mentioned technical scheme, after using, lower casing accessible inclined plane promotes the gag lever post and removes to make down the storage tank quick connect on casing and the intelligent handheld device, make things convenient for unified receipts of detection device and intelligent handheld device to put.

Optionally, the inner wall of the recess of seting up inside the intelligent handheld device is provided with rubber seal pad, rubber seal pad's lateral surface is provided with the hand piece.

By adopting the technical scheme, the rubber sealing gasket can reduce the influence of the external environment on the internal structure of the groove.

Optionally, a positioning block is fixedly installed at the bottom of the lower shell, a positioning groove communicated with the groove is formed in the intelligent handheld device, and the positioning block is matched with the positioning groove.

Through adopting above-mentioned technical scheme, locating piece and constant head tank can increase the area of contact of casing and intelligent handheld device down, can make the casing be connected more firm with intelligent handheld device down.

Optionally, the slider is all fixed mounting in the opposite sides of movable block, the inside of intelligent handheld device seted up with slider looks adaptation spout.

Through adopting above-mentioned technical scheme, slider and spout can restrict the movable range of movable block, can make the movable block remove more steadily simultaneously.

Optionally, an elastic rope is fixedly installed on the inner wall of the groove formed in the intelligent handheld device, and one end of the elastic rope is connected with the rubber sealing gasket.

Through adopting above-mentioned technical scheme, after opening the rubber seal pad, the elastic rope can tie up the rubber seal pad, reduces the condition that the rubber seal pad appears losing.

In summary, the utility model has the following beneficial effects:

1. When the intelligent handheld device is used, the upper shell and the lower shell can clamp fingers of a user, the infrared photoelectric emitter module emits infrared light rays with three wavelengths of 1610nm, 660nm and 940nm, the infrared light rays are reflected by the fingers and then transmitted to the infrared photoelectric sensor module, the infrared photoelectric sensor module receives reflected light rays, the reflected light rays are processed to convert optical signals into electric signals, the electric signals are transmitted to the control module, the control module receives the electric signals transmitted by the infrared photoelectric sensor module, the electric signals are output to the display module through the processor and are stored in the control module, and after the intelligent handheld device is connected with the upper test device in a pairing mode through the Bluetooth module, the measured result and the stored history record can be read, so that the situation that the user needs to puncture skin by a blood sampling needle when blood sugar is measured is reduced, and the situation of infection danger exists;

2. after the intelligent handheld device is used, the lower shell can push the limiting rod to move through the inclined plane, so that the lower shell is quickly connected with the storage groove on the handheld device, the unified retraction of the detecting device and the intelligent handheld device is facilitated, and when the intelligent handheld device is used next time, only the pull ring is required to be pulled, and the pull ring can control the limiting rod to be separated from the limiting groove, so that the detecting device is quickly separated from the intelligent handheld device.

Drawings

Fig. 1 is a schematic cross-sectional elevation view of the present utility model.

Fig. 2 is an enlarged schematic view of the structure of fig. 1a according to the present utility model.

Fig. 3 is a schematic view of the structure of the stop lever of the present utility model.

Reference numerals illustrate:

1. An intelligent handheld device; 2. an upper housing; 3. a torsion spring; 4. a lower housing; 5. a display module; 6. a control module; 7. a processor; 8. an infrared photoelectric emitter module; 9. an infrared photoelectric sensor module; 10. a spring; 11. a moving block; 12. a limit rod; 13. a pull ring; 14. a rubber cushion; 15. an inclined plane; 16. a rubber gasket; 17. a positioning block; 18. a slide block; 19. an elastic rope; 20. and a Bluetooth module.

Detailed Description

The application is described in further detail below with reference to fig. 1-3.

Referring to fig. 1, the noninvasive blood glucose detection data storage module comprises an intelligent handheld device 1 and a detection device, the detection device comprises an upper shell 2 and a detection storage module, the upper shell 2 is connected with a lower shell 4 through a torsion spring 3, a display module 5 and a bluetooth module 20 are arranged on the upper shell 2, the detection storage module comprises a control module 6, a processor 7, an infrared photoelectric emitter module 8 and an infrared photoelectric sensor module 9, the control module 6 and the processor 7 are arranged inside the upper shell 2, and the infrared photoelectric emitter module 8 and the infrared photoelectric sensor module 9 are arranged inside the lower shell 4. The outer surfaces of the upper shell 2 and the lower shell 4 are fixedly provided with rubber cushions 14, and the rubber cushions 14 can reduce the pain of the upper shell 2 and the lower shell 4 when clamping fingers of a user.

Referring to fig. 1, a positioning block 17 is fixedly installed at the bottom of the lower housing 4, a positioning slot communicated with the groove is formed in the intelligent handheld device 1, and the positioning block 17 is adapted to the positioning slot. The contact area between the lower shell 4 and the intelligent handheld device 1 can be increased by the positioning block 17 and the positioning groove, so that the connection between the lower shell 4 and the intelligent handheld device 1 is more stable.

Referring to fig. 1 and 2, a storage groove adapted to the lower housing 4 is formed in the top of the smart handheld device 1, a spring 10 is fixedly installed in the smart handheld device 1, a moving block 11 is fixedly installed at one end of the spring 10, a limiting rod 12 is fixedly arranged in the moving block 11 in a penetrating manner, and a limiting groove adapted to the limiting rod 12 is formed in the lower housing 4. The outer wall of the intelligent handheld device 1 is provided with a groove, the limiting rod 12 penetrates into the groove and is fixedly connected with a pull ring 13, and the pull ring 13 can facilitate a user to pull the limiting rod 12.

Wherein, the inner wall of the inside recess of seting up of intelligent handheld device 1 is provided with rubber seal 16, and the lateral surface of rubber seal 16 is provided with the hand piece, and rubber seal 16 reducible external environment is to the influence of recess inner structure. The inner wall fixed mounting of the inside recess of seting up of intelligent handheld device 1 has elastic rope 19, and the one end of elastic rope 19 is connected with rubber seal 16, and after opening rubber seal 16, elastic rope 19 can restrict rubber seal 16, reduces the condition that rubber seal 16 appears losing.

Referring to fig. 2 and 3, an inclined surface 15 with an upward inclination is provided at one end of the stop lever 12 far away from the pull ring 13, and after the use is completed, the lower housing 4 can push the stop lever 12 to move through the inclined surface 15, so that the lower housing 4 is quickly connected with the storage slot on the intelligent handheld device 1, and the unified retraction of the detection device and the intelligent handheld device 1 is facilitated. The sliding blocks 18 are fixedly arranged on the two opposite sides of the moving block 11, sliding grooves matched with the sliding blocks 18 are formed in the intelligent handheld device 1, the sliding blocks 18 and the sliding grooves can limit the moving range of the moving block 11, and meanwhile the moving block 11 can move more stably.

The implementation principle of the utility model is as follows: when the intelligent handheld device is used, fingers of a user can be clamped by the upper shell 2 and the lower shell 4, infrared light rays with three wavelengths of 1610nm, 660nm and 940nm are emitted by the infrared photoelectric emitter module 8, reflected by the fingers and transmitted to the infrared photoelectric sensor module 9, the infrared photoelectric sensor module 9 receives reflected light rays, the reflected light rays are processed to convert optical signals into electric signals, the electric signals are transmitted to the control module 6, the control module 6 receives the electric signals transmitted by the infrared photoelectric sensor module 9, the electric signals are output to the display module 5 through the processor 7 and stored in the control module 6, and after the intelligent handheld device 1 is connected with an upper testing device in a matched mode through the Bluetooth module 20, the measured result and the stored history record can be read, so that the situation that the user needs to puncture skin by a blood sampling needle when blood sugar is measured is reduced, and the user has risk of infection; when the detection device is required to be taken down for use, a user only needs to open the rubber sealing gasket 16 to pull the pull ring 13, the pull ring 13 can drive the limiting rod 12 to move, and the limiting rod 12 can drive the movable block 11 to squeeze the spring 10 and separate from the limiting groove, so that a worker can take down the detection device for use quickly.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (8)

1. Noninvasive blood glucose detection data storage module, including intelligent handheld device (1) and detection device, its characterized in that: the detection device comprises an upper shell (2) and a detection storage module, wherein the upper shell (2) is connected with a lower shell (4) through a torsion spring (3), a display module (5) and a Bluetooth module (20) are arranged on the upper shell (2), the detection storage module comprises a control module (6), a processor (7), an infrared photoelectric emitter module (8) and an infrared photoelectric sensor module (9), the control module (6) and the processor (7) are arranged inside the upper shell (2), and the infrared photoelectric emitter module (8) and the infrared photoelectric sensor module (9) are arranged inside the lower shell (4);

The intelligent handheld device is characterized in that a storage groove matched with the lower shell (4) is formed in the top of the intelligent handheld device (1), a spring (10) is fixedly installed in the intelligent handheld device (1), a moving block (11) is fixedly installed at one end of the spring (10), a limiting rod (12) is fixedly arranged in the moving block (11) in a penetrating mode, and a limiting groove matched with the limiting rod (12) is formed in the lower shell (4).

2. The non-invasive blood glucose test data storage module of claim 1, wherein: the outer wall of the intelligent handheld device (1) is provided with a groove, and the limiting rod (12) penetrates through the groove and is fixedly connected with a pull ring (13).

3. The non-invasive blood glucose test data storage module of claim 1, wherein: rubber cushions (14) are fixedly arranged on the outer surfaces of the upper shell (2) and the lower shell (4).

4. The non-invasive blood glucose test data storage module of claim 2, wherein: one end of the limiting rod (12) far away from the pull ring (13) is provided with an inclined surface (15) which is inclined upwards.

5. The non-invasive blood glucose test data storage module of claim 2, wherein: the intelligent handheld device is characterized in that a rubber sealing pad (16) is arranged on the inner wall of a groove formed in the intelligent handheld device (1), and a hand pulling piece is arranged on the outer side face of the rubber sealing pad (16).

6. The non-invasive blood glucose test data storage module of claim 2, wherein: the bottom of the lower shell (4) is fixedly provided with a positioning block (17), a positioning groove communicated with the groove is formed in the intelligent handheld device (1), and the positioning block (17) is matched with the positioning groove.

7. The non-invasive blood glucose test data storage module of claim 1, wherein: sliding blocks (18) are fixedly mounted on two opposite sides of the moving block (11), and sliding grooves matched with the sliding blocks (18) are formed in the intelligent handheld device (1).

8. The non-invasive blood glucose test data storage module of claim 5, wherein: the intelligent handheld device is characterized in that an elastic rope (19) is fixedly arranged on the inner wall of a groove formed in the intelligent handheld device (1), and one end of the elastic rope (19) is connected with a rubber sealing gasket (16).