WO2017140116A1

WO2017140116A1 - Non-invasive auxiliary device for detecting blood glucose concentration

Info

Publication number: WO2017140116A1
Application number: PCT/CN2016/103044
Authority: WO
Inventors: 张贯京
Original assignee: 深圳市前海安测信息技术有限公司
Priority date: 2016-02-20
Filing date: 2016-10-24
Publication date: 2017-08-24
Also published as: CN105548065A

Abstract

A non-invasive auxiliary device for detecting blood glucose concentration, comprising control lines, a transmitting member, a spring (4), a rotating shaft (5), a receiving member and a controller (14). The control line comprises a transmission control line (1) and a reception control line (13); the transmitting member comprises a transmitting holder (2), a transmitting holder cover (3) and a transmitting triode (8). The receiving member comprises a receiving holder (11), a receiving holder cover (12) and a receiving triode (9). The transmitting holder (2) is connected with the receiving holder (11) by means of the rotating shaft (5). Muscles or tissues of a user are tightly clamped by means of the spring (4), transmitting holder (2) and receiving holder (11), thereby facilitating the user's operations. The auxiliary device provide assistance in determining a current blood glucose level of the user.

Description

Title of Invention: Non-invasive blood glucose concentration detection aid

Technical field

[0001] The present invention relates to the technical field of life health, and in particular, to a non-invasive blood glucose concentration detecting auxiliary device.

Background technique

[0002] Diabetes is a group of metabolic diseases characterized by hyperglycemia. Hyperglycemia is caused by defects in insulin secretion or its biological effects, or both. Hyperglycemia, which is persistent in people with diabetes, causes chronic damage and dysfunction in various tissues, especially the eyes, kidneys, heart, blood vessels, and nerves. At present, a more effective way to control the treatment of diabetes is to strictly control the blood glucose concentration by frequently detecting blood sugar levels and injecting insulin, thereby suppressing complications caused by diabetes and alleviating the suffering of diabetic patients. Therefore, it is very important to regularly check the blood glucose level of patients.

[0003] Current methods of detecting blood glucose are divided into invasive, minimally invasive, and non-invasive methods. Both invasive and minimally invasive methods have varying degrees of tissue invasiveness, and blood glucose testing is a continuous measurement within a day, which causes greater pain to the patient and carries the risk of infection, and The detection cost is higher, so the limitation is greater.

[0004] Therefore, it is necessary to design a non-invasive blood glucose concentration detection auxiliary device, which realizes non-invasive blood glucose monitoring by photoelectric signals, and is non-invasive, thereby reducing user suffering, and can monitor blood sugar changes and improve users' Healthy body.

technical problem

[0005] A primary object of the present invention is to provide a non-invasive blood glucose concentration detecting auxiliary device, which aims to solve the problem of user's monitoring of blood sugar in a non-invasive state.

Problem solution

Technical solution

In order to achieve the above object, the present invention provides a non-invasive blood glucose concentration detecting auxiliary device comprising a control line, a transmitting portion, a spring, a rotating shaft, a receiving portion and a controller, wherein:

[0007] The control line includes a transmission control line and a reception control line; [0008] The transmitting portion includes a transmitting clip, a launching clip cover and a transmitting triode, and the transmitting clip cover covers the transmitting clip;

[0009] The receiving portion includes a receiving clip, a receiving clip cover and a receiving transistor, and the receiving clip cover covers the receiving clip;

[0010] the launching clip and the receiving clip are connected by the rotating shaft;

[0011] the spring is disposed between the launching clamp and the receiving clamp;

[0012] the controller sends a signal through the emission control line to control the emission of the infrared light emitted by the emission transistor in the muscle tissue of the user, and the infrared light transmitted from the blood of the muscle tissue according to the receiving transistor The ratio of the infrared light emitted by the emission transistor calculates the absorption rate of the blood of the muscle tissue, and the blood sugar content in the blood of the muscle tissue of the user is obtained according to the absorbance of the blood of the muscle tissue.

[0013] Preferably, the transmitting portion further includes an emitting PCB board disposed between the transmitting clip and the launching clip cover.

[0014] Preferably, the emission PCB is provided with the emission transistor, and the emission transistor is vertically disposed on the emission PCB.

[0015] Preferably, one end of the emission control line is connected to the emission PCB, and the other end of the emission control line is connected to the controller.

[0016] Preferably, the receiving portion further comprises a receiving PCB board, and the receiving PCB board is disposed between the receiving clip seat and the receiving clip cover.

[0017] Preferably, the receiving transistor is disposed on the receiving PCB.

[0018] Preferably, one end of the receiving control line is connected to the receiving PCB, and the other end of the receiving control line is connected to the controller.

[0019] Preferably, the emitting portion further includes a rubber sleeve, and the rubber sleeve is disposed on the launching clip cover.

[0020] Preferably, the shape of the spring is a U-shaped constriction.

Advantageous effects of the invention

Beneficial effect

[0021] Compared with the prior art, the non-invasive blood glucose concentration detecting auxiliary device of the invention has a simple structure and is convenient to use. The device can clamp the muscle or tissue of the user through the spring, the launching clamp and the receiving clamp, and is convenient to use. The operation of the person; through the rubber sleeve, the external infrared light is blocked, reducing the influence of the infrared light on the final blood sugar content measurement; through the controller and the emission control line, the emission transistor emits specific infrared light, which can be transparent Through the muscle or tissue of the user, part of the infrared light is absorbed by the blood sugar of the user's muscles or tissues, part of the infrared light is sent to the receiving transistor, and the receiving transistor is converted by the photoelectric signal, and the obtained electrical signal is transmitted to the receiving control line to The controller, the controller processes the blood glucose, and finally obtains the blood sugar level in the blood of the user's muscle or tissue, and assists in determining the current blood sugar level of the user.

Brief description of the drawing

DRAWINGS

1 is a schematic plan view showing a preferred embodiment of the non-invasive blood glucose concentration detecting auxiliary device of the present invention;

2 is a side view showing the structure of a casing of the non-invasive blood glucose concentration detecting auxiliary device of the present invention.

[0024]

[0025] The implementation, functional features, and advantages of the present invention will be further described with reference to the accompanying drawings.

Embodiments of the invention

The specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

1 and 2, FIG. 1 is a schematic plan view showing a preferred embodiment of the non-invasive blood glucose concentration detecting assisting device of the present invention; and FIG. 2 is a schematic side view showing the housing of the non-invasive blood glucose concentration detecting assisting device of the present invention.

[0028] In the embodiment, the non-invasive blood glucose concentration detecting auxiliary device includes a control line, a transmitting portion, and a spring 4

, the shaft 5, the receiving portion and the controller 14, wherein:

[0029] The control line includes a transmission control line 1 and a reception control line 13;

[0030] the transmitting portion includes a transmitting clip 2, a launching clip cover 3 and a transmitting triode 8, and the transmitting clip cover 3 is covered on the launching clip 2;

[0031] The receiving portion includes a receiving clip 11, a receiving clip cover 12 and a receiving transistor 9, and the receiving clip cover 12 is covered on the receiving clip 11;

[0032] the launching clamp 2 and the receiving clamp 11 are connected by the rotating shaft 5, [0033] the spring 4 is disposed between the launching clamp 2 and the receiving clamp 11;

[0034] The controller 14 sends a signal through the emission control line 1 to control the emission transistor 8 to emit infrared light to illuminate the muscle tissue blood of the user, and transmits the blood from the muscle tissue according to the receiving transistor 9. The ratio of the infrared light to the infrared light emitted from the emitter transistor 8 calculates the absorption rate of the blood of the muscle tissue, and the blood sugar level in the blood tissue of the user is obtained according to the absorbance of the blood of the muscle tissue.

[0035] In the embodiment, the non-invasive blood glucose concentration detecting auxiliary device includes a control line, a transmitting portion, a spring 4, a rotating shaft 5, a receiving portion, and a controller 14. It should be noted that the numbers of the control line, the transmitting portion and the receiving portion are not shown in Fig. 1.

[0036] The control line includes a transmission control line 1 and a reception control line 13. The transmitting portion comprises three parts, namely a transmitting clip holder 2, a launching clip cover 3 and a transmitting triode 8. The emitting clip cover 3 covers the transmitting clip holder 2 to form a cavity, and the transmitting PCB board 7 is fixed at the emission. On the cavity between the holder 2 and the emitter cover 3, the emission control line 1 passes through the cavity between the emitter holder 2 and the emitter cover 3 to the emission PCB board 7, and the emission PCB board 7 is provided with a transmitting transistor 8. The transmitting transistor 8 is vertically disposed on the transmitting PCB board 7.

[0037] The receiving portion also includes three parts, a receiving holder 11, a receiving cover 12 and a receiving transistor 9. The receiving clip cover 12 covers the receiving holder 11 to form a cavity, and the receiving control line 13 passes through the receiving holder 11 and receives the cavity formed by the clip cover 12 to the receiving PCB 10. A receiving PCB board 10 is fixed in the cavity, and a receiving transistor 9 is disposed on the receiving PCB board 10. The transmitting transistor 8 and the receiving transistor 9 may be disposed opposite to each other or may be disposed on the same horizontal plane.

[0038] The launching clamp 2 and the receiving clamp 11 are connected by the rotating shaft 5, and the spring 4 is disposed between the transmitting clamp 2 and the receiving clamp 11, and the number of the springs 4 may be two. The spring 4 can be arranged in a U-shaped neck shape to improve the stability of the non-invasive blood sugar concentration detecting auxiliary device. The two springs 4 are respectively caught in the slots of the lower portion of the transmitting holder 2 and the receiving holder 11, which are not shown in the drawings. When the user performs non-invasive detection of blood glucose concentration by using the non-invasive blood glucose concentration detecting auxiliary device, the upper end of the transmitting holder 2 and the receiving holder 11 can clamp the muscle or tissue of the user under the action of the spring 4, the tissue It can be the position of the tiger's mouth in the hand, or it can be the earlobe.

[0039] One end of the emission control line 1 is connected to the transmitting PCB board 7, and the other end of the transmitting control line 1 is connected to the controller 14 for transmitting an electrical signal sent by the controller 14. To the launching department . One end of the receiving control line 13 is connected to the receiving PCB board, and the other end of the receiving control line 13 is connected to the controller 14 for converting the received infrared light through the photoelectric signal to obtain electricity. The signal is then sent to the controller 14 via the receive control line 13. Specifically, after the upper end of the transmitting holder 2 and the receiving holder 11 can clamp the muscle or tissue of the user, the controller 14 transmits a signal to the transmitting transistor of the transmitting portion through the emission control line 1 to cause the transmitting transistor 8 to emit a specific Infrared light, the wavelength of the infrared light is set in the infrared wavelength range, and the specific infrared light can pass through the muscle or tissue of the user. In this embodiment, since a part of the infrared light is absorbed by the blood sugar of the muscle or tissue of the user, another part of the transmitted infrared light is sent to the receiving transistor 9, and when the blood glucose concentration of the muscle or tissue is high, the absorption transistor 8 is absorbed. The stronger the ability of the emitted infrared light, the lower the intensity of the infrared light received by the receiving transistor 9 is. When the blood glucose concentration of the muscle or tissue is low, the ability to emit infrared light from the transistor 8 is weaker. The intensity of the received infrared light from the receiving transistor 9 is high. In this embodiment, the controller 14 sends a signal through the emission control line 1 to control the emission transistor 8 to emit infrared light to illuminate the muscle tissue blood of the user, and according to the receiving transistor 9, blood from the muscle tissue. The ratio of the transmitted infrared light to the infrared light emitted from the emitter transistor 8 calculates the absorption rate of the muscle tissue blood. The controller 14 obtains the blood sugar level in the blood of the muscle tissue of the user based on the absorbance of the muscle tissue blood to achieve an effect of assisting in determining the current blood sugar level of the user.

[0040] In this embodiment, since the rubber cover 6 is further disposed on the emitting portion, the rubber sleeve 6 is disposed on the launching cover 3, and the external infrared light is blocked by the rubber sleeve 6 after use, thereby reducing The effect of infrared light on the error in the final determination of blood glucose levels. The rubber sleeve 6 is made of soft rubber, which improves the comfort of the user. Further, the top of the rubber sleeve 6 is provided with a mouthpiece which is sized to match the firing holder 2, so that the use of sputum does not affect the measurement of blood sugar of the muscle or tissue.

[0041]

[0042] The non-invasive blood glucose concentration detecting auxiliary device of the invention can clamp the muscle or tissue of the user through the spring, the launching clamp and the receiving clamping seat, and is convenient for the user to operate; the external infrared light is blocked by the rubber sleeve, and the operation is reduced. Due to the influence of infrared light on the final measurement of blood sugar content; through the controller and the emission control line, the transmitting transistor emits specific infrared light, which can pass through the user's muscles or tissues, and part of the infrared light is absorbed by the user's muscles. Or tissue blood glucose absorption, part of the infrared light is sent to the receiving triode The receiving transistor is converted by the photoelectric signal, and the obtained electric signal is transmitted to the controller through the receiving control line, and the controller processes the electric blood signal to finally obtain the blood sugar content in the blood of the user's muscle or tissue, and assists in judging the current user's current Blood sugar levels.

[0043]

The above is only a preferred embodiment of the present invention, and is not intended to limit the scope of the invention, and the equivalent structure or equivalent function changes made by the description of the present invention and the contents of the drawings, or directly or indirectly applied to other related The technical field is equally included in the scope of patent protection of the present invention.

Industrial applicability

[0045] Compared with the prior art, the non-invasive blood glucose concentration detecting auxiliary device of the invention has a simple structure and is convenient to use. The device can clamp the muscle or tissue of the user through the spring, the launching clamp and the receiving clamp to facilitate the user's operation; the external infrared light is blocked by the rubber sleeve, and the final blood sugar content is determined by infrared light. The influence of the error; through the controller and the emission control line, the transmitting transistor emits specific infrared light, which can pass through the muscle or tissue of the user, and part of the infrared light is absorbed by the blood sugar of the user's muscle or tissue, and part of the infrared The light is sent to the receiving transistor, and the receiving transistor is converted by the photoelectric signal, and the obtained electrical signal is transmitted to the controller through the receiving control line, and the controller processes the blood sugar, thereby finally obtaining the blood sugar content in the blood of the user's muscle or tissue, and assisting Determine the user's current blood sugar level. =.

Claims

Claim

[Claim 1] A non-invasive blood glucose concentration detecting auxiliary device, wherein the non-invasive blood glucose concentration detecting auxiliary device includes a control line, a transmitting portion, a spring, a rotating shaft, a receiving portion, and a controller, wherein: the control line includes a transmitting control line and a receiving control line; the transmitting portion includes a transmitting clip holder, a launching clip cover and a transmitting triode, the transmitting clip cover covering the transmitting clip holder; the receiving portion comprises a receiving clip holder and a receiving clip cover And receiving a triode, the receiving clip cover covering the receiving clip, the transmitting clip and the receiving clip being connected by the rotating shaft; the spring is disposed between the transmitting holder and the receiving holder The controller sends a signal through the emission control line to control the emission of the infrared light emitted by the emission transistor in the muscle tissue of the user, according to the infrared light transmitted by the receiving transistor from the blood of the muscle tissue and the Calculating the absorption rate of the blood of the muscle tissue by the ratio of the infrared light emitted from the transmitting transistor, and according to the muscle group The absorbance of the woven blood obtains the blood sugar level in the blood of the user's muscle tissue.

[Claim 2] The non-invasive blood glucose concentration detecting auxiliary device according to claim 1, wherein the transmitting portion further comprises an emitting PCB board, and the transmitting PCB board is disposed between the transmitting clip holder and the launching clip cover .

[Claim 3] The non-invasive blood glucose concentration detecting auxiliary device according to claim 2, wherein the emission PCB is provided with the emission transistor, and the emission transistor is vertically disposed on the emission PCB.

[Claim 4] The non-invasive blood glucose concentration detecting auxiliary device according to claim 3, wherein one end of the emission control line is connected to the transmitting PCB board, and the other end of the emission control line is The controllers are connected.

[Claim 5] The non-invasive blood glucose concentration detecting auxiliary device according to claim 1, wherein the receiving portion further comprises a receiving PCB board, and the receiving PCB board is disposed between the receiving clip holder and the receiving clip cover .

[Claim 6] The non-invasive blood glucose concentration detecting assisting device according to claim 5, wherein the receiving transistor is disposed on the receiving PCB.

[Claim 7] The non-invasive blood glucose concentration detecting assisting device according to claim 6, wherein One end of the receiving control line is connected to the receiving PCB board, and the other end of the receiving control line is connected to the controller.

[Claim 8] The non-invasive blood glucose concentration detecting auxiliary device according to claim 6, wherein one end of the receiving control line is connected to the receiving PCB board, and the other end of the receiving control line is The controllers are connected.

The non-invasive blood glucose concentration detecting assisting device according to any one of claims 1 to 7, characterized in that the shape of the spring is a U-shaped constriction.