CN209220290U - Noninvasive dynamics monitoring device - Google Patents
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- CN209220290U CN209220290U CN201721008477.XU CN201721008477U CN209220290U CN 209220290 U CN209220290 U CN 209220290U CN 201721008477 U CN201721008477 U CN 201721008477U CN 209220290 U CN209220290 U CN 209220290U
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Abstract
The utility model relates to a kind of noninvasive dynamics monitoring devices, the first collector and the second collector connecting including controller and respectively with the controller.First collector is clipping collector and is used to clamp detected part, first collector includes the infrared transmitter and photoelectric sensor being oppositely arranged, the infrared transmitter can emit infrared light to the detected part, and the photoelectric sensor can receive the infrared light for penetrating the detected part.Second collector includes temperature sensor, and the temperature sensor is used to detect the temperature of the detected part;The controller is used for the blood glucose value of the detected part according to the temperature computation of the infrared light and the detected part that penetrate the detected part.Above-mentioned noninvasive dynamics monitoring device testing cost is lower and easy to operate.
Description
Technical field
The utility model relates to medical instruments field more particularly to a kind of noninvasive dynamics monitoring devices.
Background technique
So far from 1980, cumulative year after year trend is presented in China diabetic, to the shared patient of diabetes in the whole nation in 2010
Person about 1.13 hundred million, it is contemplated that arriving the year two thousand twenty will be more than 200,000,000.Currently, China's diabetic's diagnosis is less than 40%.By above-mentioned data
It is found that group of the detection of blood glucose value to diabetic and in inferior health has great significance.Currently, blood sugar test
Main method or traditional needle prick formula and blood are taken to measure: being measured by the blood of acupuncture treatment acquisition finger tip.Use blood sampling
Pen punctures finger, blood is instilled in test paper, then test paper is put into detecting instrument and obtains blood glucose level data.
However, tradition is had an acupuncture treatment, detection method has the shortcomings that more: allowing testee to have feeling of pain, experiences poor;It requires every time
One test paper, instrument replacement battery is frequent, and measurement cost is higher;The tedious steps such as acupuncture treatment, blood sampling, measurement are needed, operation is not
Just.
Utility model content
Cost is relatively low and noninvasive dynamics monitoring fills easily to operate for the one kind that is designed to provide of the utility model embodiment
It sets, for solving above-mentioned technical problem.
A kind of noninvasive dynamics monitoring device, the first collector being connect including controller and respectively with the controller and
Second collector.First collector is clipping collector and is used to clamp detected part, the first collector packet
The infrared transmitter and photoelectric sensor being oppositely arranged are included, the infrared transmitter can emit to the detected part
Infrared light, the photoelectric sensor can receive the infrared light for penetrating the detected part.Second collector includes temperature
Sensor, the temperature sensor are used to detect the temperature of the detected part;The controller be used for according to penetrate it is described to
Survey the blood glucose value of detected part described in the infrared light at position and the temperature computation of the detected part.
In a kind of wherein embodiment, second collector further includes the infrared of neighbouring temperature sensor setting
Temperature sensor, for the infrared temperature sensor for detecting environment temperature, the controller is also used to obtain the environment temperature
After degree, is calculated using the environment temperature and reduce the error of the blood glucose value of the detected part when detecting.
In a kind of wherein embodiment, second collector includes upper shell and is articulated with the lower outer of the upper shell
Shell, the temperature sensor and the infrared temperature sensor are all set on the lower casing.
In a kind of wherein embodiment, second collector further includes the upper guard board being set on the upper shell,
And it is set to the lower backplate on the lower casing, the lower backplate is provided with through-hole, the temperature sensor and described infrared
Temperature sensor is respectively provided in the through hole, and the upper guard board and the lower backplate are silica gel backplate.
In a kind of wherein embodiment, first collector includes upper shell and is articulated with the lower outer of the upper shell
Shell, the infrared transmitter are set on the lower casing, and the photoelectric sensor is set on the upper shell.
In a kind of wherein embodiment, first collector further includes being arranged in the upper shell and the lower casing
Between torsional spring, the elastic foot at the torsional spring both ends is respectively elastically pushed against on the upper shell and the lower casing, makes institute
The detected part can be clamped by stating shell and the lower casing.
In a kind of wherein embodiment, first collector further includes the upper guard board being set on the upper shell,
The first accepting hole is provided on the upper guard board, the photoelectric sensor is arranged in first accepting hole;Described first adopts
Storage further includes the lower backplate being set on the lower casing, and the second accepting hole, the infrared light are provided on the lower backplate
Transmitter is arranged in second accepting hole.
In a kind of wherein embodiment, the upper guard board and the lower backplate are silica gel backplate.
In a kind of wherein embodiment, the controller includes controller ontology and is set to the controller ontology
On display screen, the display screen is used to show the blood glucose value of the detected part.
In a kind of wherein embodiment, the controller further includes the operating surface being arranged on the controller ontology
Plate, the operation panel are key panel or touch panel;The noninvasive dynamics monitoring device further includes being arranged in the control
The intrinsic battery of device processed, the battery are dry cell or chargeable storage.
Compared with the existing technology, noninvasive dynamics monitoring device provided by the embodiment of the utility model passes through clipping collector
Acquire detected person blood glucose value, simplify the blood sugar test step of detected person, save every time blood sampling detection test paper at
This, and real-time measurement can be carried out to blood glucose level data.Further, the noninvasive dynamics monitoring device uses Infrared irradiation
Mode, obtain infrared transmission described in detected part electric signal, obtain the corresponding blood sugar concentration of the electric signal automatically, letter
The process for having changed blood sugar concentration acquisition avoids acupuncture treatment from causing the injury of user's body, is conducive to user's body health.In addition, obtaining
When taking the corresponding blood sugar concentration of the electric signal, the temperature of detected person is also acquired, and eliminate using the temperature of detected person
The blood glucose value finally detected is obtained after the error for the blood sugar concentration stated, and improves precision when detection blood glucose.
Detailed description of the invention
It, below will be to attached needed in embodiment in order to illustrate more clearly of the technical solution of the utility model
Figure is briefly described, it should be apparent that, the accompanying drawings in the following description is only some embodiments of the utility model, for
For those of ordinary skill in the art, without creative efforts, it can also be obtained according to these attached drawings other
Attached drawing.
Fig. 1 is the stereoscopic schematic diagram of noninvasive dynamics monitoring device provided by the embodiment of the utility model;
Fig. 2 is the stereoscopic schematic diagram of the first collector of noninvasive dynamics monitoring device shown in Fig. 1;
Fig. 3 is the stereoscopic schematic diagram of the second collector of noninvasive dynamics monitoring device shown in Fig. 1.
Specific embodiment
Further to illustrate technical means and efficacy that the utility model is taken to reach above-mentioned purpose, below in conjunction with
Specific embodiment of the present utility model, structure, feature and its effect is described in detail in attached drawing and preferred embodiment.It answers
Work as understanding, specific embodiment described in the utility model is only used to explain the utility model, is not used to limit originally practical
It is novel.
It should be noted that it can be directly another when element is referred to as " being set to " or " being fixed on " another element
On one element or there may be elements placed in the middle.When an element is considered as " connection " another element, it can be straight
It is connected to another element in succession or may be simultaneously present centering elements.
Unless otherwise defined, all technical and scientific terms used herein are led with the technology for belonging to the utility model
The normally understood meaning of the technical staff in domain is identical.It is intended merely to herein in the term used in the description of utility model
The purpose of specific embodiment is described, it is not intended that in limitation the utility model.Term " and or " used herein includes
Any and all combinations of one or more related listed items.
Referring to Fig. 1, the utility model embodiment provides a kind of noninvasive dynamics monitoring device 100, for non-invasively into
Promoting circulation of blood sugar detection.The noninvasive dynamics monitoring device 100 includes controller 10, the first collector 30 and the second collector 50,
First collector 30 is connected to the controller 10 by signal wire 40, and second collector 50 is connected by signal wire 60
It is connected to the controller 10.First collector 30 is used to acquire the infrared absorption rate of detected part, second acquisition
Device 50 is used to acquire the temperature data of detected part, and the controller 10 is for controlling 100 work of noninvasive dynamics monitoring device
Make, and calculates the blood glucose value of detected part according to the data that first collector 30 and second collector 50 acquire.
Specifically in the illustrated embodiment, the controller 10 includes controller ontology 12, display screen 14, operation panel 16
And data processing centre's (not marked in figure).In the present embodiment, the controller 10 is by dry cell power supply, to improve
The portability of the noninvasive dynamics monitoring device 100.The dry cell is arranged in the controller ontology 12, is a kind of low
The dry cell of radiation, low-power consumption, will not affect the health of user.It is appreciated that the controller 10 can pass through electricity
Source line is connected to mains-supplied, and/or, the controller 10 can be powered by chargeable storage.
The display screen 14 is set to the surface of the controller ontology 12, is used to show the blood glucose of the detected part
Value.In some embodiments, the display screen 14 is also used to show the detection work ginseng of the noninvasive dynamics monitoring device 100
Number, e.g., infrared light emission intensity, working power etc., and/or it is also used to show the operation of the noninvasive dynamics monitoring device 100
Interface.In the present embodiment, the display screen 14 is electronic display.
The operation panel 16 is arranged on the controller ontology 12, is used to provide user's control/operation the nothing
Create the operation interface of blood sugar detection apparatus 100.In some embodiments, the operation panel 16 is touch panel, can be with
The outer surface of the controller ontology 12 is set, can also gather and be set on the display screen 14.In other some realities
It applies in mode, the operation panel 16 is key panel, can be arranged adjacent to the display screen 14 in the controller ontology
12 outer surface.
The processing center is arranged in the controller ontology 12, is used for according to first collector 30 and described
The data of second collector 50 acquisition calculate the blood glucose value of the detected part.Specifically, the processing center can be but
It is not limited to integrated circuit control system.
In the present embodiment, first collector 30 is clipping collector, is used to clamp the detected part,
And for detecting in the detected part blood to the absorptivity of infrared light.The detected part is it should be appreciated that blood to be detected
The appointed part comprising blood on the object of sugar, animal or the person.In the present embodiment, the object comprising blood is quilt
Other human bodies (for example, palm, arm, ear-lobe, leg etc.) that the finger or artery of tester's (human body) passes through.It can manage
Solution, in other embodiments, the object comprising blood are also possible to the bags of blood comprising blood or animal
The position that artery passes through.
Please refer to Fig. 2, first collector 30 includes the first casing assembly 32, the first backplate component 34, infrared
Optical transmitting set 36 and photoelectric sensor 38.The first backplate component 34 is arranged on first casing assembly 32, described
Infrared transmitter 36 and the photoelectric sensor 38 are separately positioned on the two sides of first casing assembly 32.
First casing assembly 32 includes upper shell 321 and lower casing 323, the upper shell 321 and described lower outer
Shell 323 is hinged together, and for clamping the detected part jointly.First casing assembly 32 further includes being arranged described
The elastic foot of torsional spring 325 between upper shell 321 and the lower casing 323,325 both ends of torsional spring is respectively elastically pushed against
On the upper shell 321 and the lower casing 323, so that it is described so that the upper shell 321 and the lower casing 323 is clamped
Detected part.
The first backplate component 34 includes upper guard board 341 and lower backplate 343, and the upper guard board 341 is arranged on described
On shell 321, the lower backplate 343 is arranged on the lower casing 323, and the upper guard board 341 and 343 phase of lower backplate
To setting.When the upper shell 321 and the lower casing 323 clamp the detected part jointly, the upper guard board 341 and institute
It states lower backplate 343 and is located at the two sides of the detected part, and be pushed against in the detected part.In the present embodiment, institute
Stating upper guard board 341 and the lower backplate 343 is the silica gel backplate made of soft silicon glue material, to prevent when detecting blood glucose
The detected part is scratched, and/or, it is comfortable when being clamped by first casing assembly 32 to can be improved the detected part
Degree.
Further, the first accepting hole 3411 is offered on the upper guard board 341, first accepting hole 3411 is for receiving
Hold the photoelectric sensor 38, the lower backplate 343 is equipped with the second accepting hole 3431, and second accepting hole 3431 is for receiving
Hold the infrared transmitter 36.It is appreciated that the first backplate component 34 can save in other some embodiments
Slightly, the molding alternatively, the first backplate component 34 can become one with first casing assembly 32.
The infrared transmitter 36 is set on the lower casing 323, and is contained in second accepting hole 3431,
It is used to emit infrared light to the detected part being held between first casing assembly 32.Specifically in present embodiment
In, the infrared transmitter 36 is infrared optical diode (or infrared optical transistor), is used to generate the infrared of preset wavelength
Light, wherein the preset wavelength is 1400 nanometers.It is appreciated that in some embodiments, the infrared transmitter 36 can
Think multiband infrared transmitter, be used to emit the infrared light of multi-wavelength, to meet actual detection demand.Pass through behaviour
Make the controller 10, user can control the infrared light light intensity and/or infrared waves that the infrared transmitter 36 is emitted
It is long.It is appreciated that in some embodiments, the infrared transmitter 36 can be arranged directly on the lower backplate 343.
The photoelectric sensor 38 is set on the upper shell 321, and is contained in first accepting hole 3411, and
Setting corresponding with the infrared transmitter 36.The photoelectric sensor 38 emits for receiving the infrared transmitter 36
Infrared light.Specifically in the present embodiment, the photoelectric sensor 38 is photodiode (or phototriode), can
The infrared light of the preset wavelength is converted into electric signal (for example, current or voltage), to allow the controller 10 to obtain institute
Electric signal after stating the infrared light conversion of preset wavelength, and blood sugar concentration is determined according to the electric signal.It is appreciated that some
In embodiment, the photoelectric sensor 38 be can be arranged directly on the upper guard board 341.
For example, specifically in some embodiments, the detected part is illustrated by taking the finger of human body as an example.When tested
When finger is placed in first casing assembly 32 by survey person, the infrared transmitter 36 emits the infrared of preset wavelength
Light reaches the photoelectric sensor 38 after the infrared light passes through the finger.The photoelectric sensor 38 passes through the hand
The infrared light of finger is converted to electric signal, the controller 10 by the blood glucose in analysis blood absorb infrared light number (can be with
Reacted with electric signal) analyze the blood-sugar content in blood, that is, and the controller 10 is pre- according to electric signal and blood sugar concentration
If corresponding relationship formula analyzes the blood-sugar content in blood.Specifically, stronger (the example of electric signal in the photoelectric sensor 38
Such as, electric current is bigger), show that the blood glucose in blood absorbs the fewer of infrared light, the blood glucose in blood is lower, the photoelectric sensor
Electric signal is weaker (for example, electric current is smaller) in 38, shows that the blood glucose absorption infrared light in blood is more, the blood glucose in blood is got over
It is high.
Further, in order to improve the controllability of the noninvasive dynamics monitoring device 100 and adapt to more practical
Detection demand, the operation panel 16 can also include but is not limited to that switch key, digital keys, infrared light increase key, red
Outer light reduces key etc..The switch key is for starting or closing the noninvasive dynamics monitoring device 100.The digital keys
For being arranged/inputting the password of the noninvasive dynamics monitoring device 100.It is described infrared for increasing that the infrared light increases key
The intensity for the infrared light that optical transmitting set 36 emits, the infrared light reduce key and emit for reducing the infrared transmitter 36
Infrared light intensity.User can increase key by the infrared light according to individual demand and the infrared light reduces key
Adjust the intensity that the infrared transmitter 36 emits infrared light.
Please refer to Fig. 3, the structure of second collector 50 is roughly the same with the structure of first collector 30.
Specifically, second collector 50 is clipping collector, it is used to clamp the neighbouring position of the detected part (herein
It is middle to claim time detected part), and temperature and environment temperature for detecting the secondary detected part, enable the controller 10
Using the temperature data of second collector 50 acquisition, first collector 50 is adopted under the conditions of elimination different human body temperature
The influence of the result of collection, to improve the detection accuracy of the noninvasive dynamics monitoring device 100.
Second collector 50 includes second housing component 52, the second backplate component 54, temperature sensor 56 and red
Outer temperature sensor 58.The second backplate component 54 is arranged in the second housing component 52, the temperature sensor 56
And the infrared temperature sensor 58 is arranged on the second housing component 52.
The second housing component 52 includes upper shell 521 and lower casing 523, the upper shell 521 and described lower outer
Shell 523 is hinged together, and for clamping the secondary detected part jointly.The second housing component 52 further includes being arranged in institute
The torsional spring (not marking in figure) between shell 521 and the lower casing 523 is stated, the elastic foot at the torsional spring both ends is elastic respectively
Ground is pushed against on the upper shell 521 and the lower casing 523, to enable the upper shell 521 and the lower casing 523
Clamp the secondary detected part.
The second backplate component 54 includes upper guard board 541 and lower backplate 543, and the upper guard board 541 is arranged on described
On shell 521, the lower backplate 543 is arranged on the lower casing 523, and the upper guard board 541 and 543 phase of lower backplate
To setting.When the upper shell 521 and the lower casing 523 clamp the secondary detected part jointly, the upper guard board 541 and
The lower backplate 543 is located at the two sides of the secondary detected part, and is pushed against in the secondary detected part.In the present embodiment
In, the upper guard board 541 and the lower backplate 543 are the silica gel backplate made of soft silicon glue material, to prevent from detecting
Described time detected part is scratched when blood glucose, and/or, it can be improved the detected part and pressed from both sides by the second housing component 52
Comfort level when tight.
Further, through-hole 5431 is offered on the lower backplate 543, the through-hole 5431 is passed for accommodating the temperature
Sensor 56 and the infrared temperature sensor 58.
The temperature sensor 56 and the infrared temperature sensor 58 are spaced apart by the lower casing 523,
And it is located in the through-hole 5431.In the present embodiment, the temperature sensor 56 is for detecting the secondary detected part
Temperature of the temperature as the detected part and/or the body temperature as detected person, the infrared temperature sensor 58 is for examining
Environment temperature is surveyed, the temperature and environment temperature of the secondary detected part is detected respectively by two temperature sensors, can be avoided
Two temperature datas influence each other in the detection.It is appreciated that in other implementations, the temperature sensor 56 can be with
For detecting environment temperature, the infrared temperature sensor 58 can be used for detecting the temperature of the secondary detected part.Equally may be used
With understanding, in other embodiment, can be detected respectively by the temperature sensor of two same models described in
The temperature and environment temperature of secondary detected part, alternatively, described in being detected respectively by the infrared temperature sensors of two same models
The temperature and environment temperature of secondary detected part, it is not limited to described by the utility model embodiment.
When in use, described first is acquired for the noninvasive dynamics monitoring device 100 provided by the embodiment of the utility model
Device 30 clamps the detected part (such as index finger), and second collector 50 is clamped the secondary detected part (such as middle finger);It is logical
The switch case for crossing the operation panel 16 starts the noninvasive dynamics monitoring device 100, the infrared transmitter 36, described
Photoelectric sensor 38, the temperature sensor 56 and the infrared temperature sensor 58 are in running order, the controller 10
The infrared light that the infrared transmitter 36 emits preset wavelength is controlled, and obtains described preset from the photoelectric sensor 38
Electric signal after the infrared conversion of wavelength, and the blood of user is obtained according to the default corresponding relationship formula of electric signal and blood sugar concentration
In blood sugar concentration after, then from the temperature sensor 56 and the infrared temperature sensor 58 obtain temperature data, utilize
The temperature data obtains the blood glucose value finally detected after eliminating the error of above-mentioned blood sugar concentration, and the blood glucose value that finally will test is aobvious
Show on the display screen 14.
Further, it is preset in the controller 10 and penetrates the infrared light light intensity of the detected part and pair of blood glucose value
Calculation relational expression is answered, the infrared light light intensity of the detected part is penetrated by obtaining, and use the calculation relational expression, can calculated
The preliminary blood glucose value of the detected part out.Also be preset in the controller 10 temperature of the detected part with it is described to be measured
Error calculation relational expression between the preliminary blood glucose value at position, temperature and the preliminary blood by the acquisition detected part
Sugar value, and calculated using the error calculation relational expression, the error of the preliminary blood glucose value can be eliminated, final detection is obtained
Blood glucose value.Further, be also preset in the controller 10 environment temperature and the detected part preliminary blood glucose value it
Between error calculation relational expression, by obtaining environment temperature and the preliminary blood glucose value, and use the error calculation relational expression
It is calculated, the error of the preliminary blood glucose value can be eliminated, obtain the blood glucose value finally detected.
Noninvasive dynamics monitoring device provided by the embodiment of the utility model acquires detected person's by clipping collector
Blood glucose value simplifies detected person's detecting step, saves the test paper cost of blood sampling detection every time, and can be to blood glucose level data
Carry out real-time measurement.Further, the noninvasive dynamics monitoring device obtains infrared transmission by the way of Infrared irradiation
The electric signal of the detected part obtains the corresponding blood sugar concentration of the electric signal automatically, simplifies the mistake of blood sugar concentration acquisition
Journey avoids acupuncture treatment from causing the injury of user's body, is conducive to user's body health.In addition, obtaining the corresponding blood of the electric signal
When sugared concentration, the temperature of detected person is also acquired, and after eliminating using the temperature of detected person the error of above-mentioned blood sugar concentration
The blood glucose value finally detected is obtained, precision when detection blood glucose is improved.
It is appreciated that in some embodiments, second collector 50 can be clipping structure described above
Structure in addition for example, second collector 50 can be contact probe or non-contact optical probe, and passes through institute thereon
State temperature and ambient temperature data that temperature sensor 56 and the infrared temperature sensor 58 detect detected person respectively.It can be with
Understand, second collector 50 can also be the collector for the formula that is arranged, for example, second collector 50 can be set in institute
It states except detected part.Similarly, first collector 30 may be the collector for the formula that is arranged.
Finally, it should be noted that above embodiments are only to illustrate the technical solution of the utility model, rather than its limitations;
Although the utility model is described in detail with reference to the foregoing embodiments, those skilled in the art are when understanding: its
It is still possible to modify the technical solutions described in the foregoing embodiments, or part of technical characteristic is equal
Replacement;And these are modified or replaceed, and the essence of corresponding technical solution is not driven to be detached from various embodiments of the utility model technology
The spirit and scope of scheme.
Claims (10)
1. a kind of noninvasive dynamics monitoring device, which is characterized in that connect including controller and respectively with the controller
One collector and the second collector;First collector is clipping collector and for clamping detected part, described the
One collector includes the infrared transmitter and photoelectric sensor being oppositely arranged, the infrared transmitter can to it is described to
It surveys position and emits infrared light, the photoelectric sensor can receive the infrared light for penetrating the detected part;Second acquisition
Device includes temperature sensor, and the temperature sensor is used to detect the temperature of the detected part;The controller is used for basis
Penetrate the blood glucose value of detected part described in the infrared light of the detected part and the temperature computation of the detected part.
2. noninvasive dynamics monitoring device as described in claim 1, which is characterized in that second collector further includes neighbouring institute
The infrared temperature sensor of temperature sensor setting is stated, the infrared temperature sensor is for detecting environment temperature, the control
After device is also used to obtain the environment temperature, is calculated using the environment temperature and the blood glucose value for reducing the detected part is being examined
Error when survey.
3. noninvasive dynamics monitoring device as claimed in claim 2, which is characterized in that second collector include upper shell and
It is articulated with the lower casing of the upper shell, the temperature sensor and the infrared temperature sensor are all set in the lower casing
On.
4. noninvasive dynamics monitoring device as claimed in claim 3, which is characterized in that second collector further includes being set to
Upper guard board on the upper shell, and the lower backplate being set on the lower casing, the lower backplate is provided with through-hole, described
Temperature sensor and the infrared temperature sensor are respectively provided in the through hole, and the upper guard board and the lower backplate are silicon
Glue backplate.
5. noninvasive dynamics monitoring device as described in claim 1, which is characterized in that first collector include upper shell and
It is articulated with the lower casing of the upper shell, the infrared transmitter is set on the lower casing, and the photoelectric sensor is set
It is placed on the upper shell.
6. noninvasive dynamics monitoring device as claimed in claim 5, which is characterized in that first collector further includes that setting exists
Torsional spring between the upper shell and the lower casing, the elastic foot at the torsional spring both ends are respectively elastically pushed against described outer
On shell and the lower casing, the upper shell and the lower casing is enable to clamp the detected part.
7. noninvasive dynamics monitoring device as claimed in claim 5, which is characterized in that first collector further includes being set to
Upper guard board on the upper shell, is provided with the first accepting hole on the upper guard board, and the photoelectric sensor setting is described the
In one accepting hole;First collector further includes the lower backplate being set on the lower casing, is provided on the lower backplate
Second accepting hole, the infrared transmitter are arranged in second accepting hole.
8. noninvasive dynamics monitoring device as claimed in claim 7, which is characterized in that the upper guard board and the lower backplate are
Silica gel backplate.
9. noninvasive dynamics monitoring device as described in claim 1, which is characterized in that the controller include controller ontology with
And it is set to the display screen on the controller ontology, the display screen is used to show the blood glucose value of the detected part.
10. noninvasive dynamics monitoring device as claimed in claim 9, which is characterized in that the controller further includes being arranged in institute
The operation panel on controller ontology is stated, the operation panel is key panel or touch panel;The noninvasive dynamics monitoring
Device further includes setting in the intrinsic battery of the controller, and the battery is dry cell or chargeable storage.
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Cited By (1)
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CN107343791A (en) * | 2017-08-14 | 2017-11-14 | 上海乐糖信息科技有限公司 | Noninvasive dynamics monitoring device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107343791A (en) * | 2017-08-14 | 2017-11-14 | 上海乐糖信息科技有限公司 | Noninvasive dynamics monitoring device |
CN107343791B (en) * | 2017-08-14 | 2024-01-30 | 上海乐糖信息科技有限公司 | Noninvasive blood glucose detection device |
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