The watch of noninvasive acquisition blood glucose level data
Technical field
The utility model is related to wearable device field more particularly to a kind of watches of noninvasive acquisition blood glucose level data.
Background technology
Diabetic needs continually to measure and control blood sugar concentration, exist at present in order to avoid the complication of diabetes
China, the method that diabetic measures blood sugar concentration are largely using invasive blood-glucose meter.Frequently blood sampling carries out blood
On the one hand measuring for concentration of glucose brings huge financial burden and medical expense to diabetic, on the other hand also give
Diabetic brings the risk of huge body and mental anguish and infectious disease.In recent years, using infrared light technology come
Acquisition blood glucose concentration makes it possible that Woundless blood sugar acquires, and brings glad tidings to diabetic.But due to diabetes
Patient needs continually to acquire blood sugar concentration data, and existing Woundless blood sugar collecting device volume is big, not portable.With portable
The technology upgrading of formula, intelligence, multifunction electronic product, designing a kind of watch of integrated high noninvasive acquisition blood glucose level data has
Preferable portability solves the technical issues of existing Woundless blood sugar collecting device is not portable.
Utility model content
The utility model provides a kind of watch of noninvasive acquisition blood glucose level data, it is intended to solve existing Woundless blood sugar acquisition and set
The technical issues of standby not portable.
To achieve the above object, the utility model provide it is a kind of it is noninvasive acquisition blood glucose level data watch, including dial plate ontology,
Watchband, button, the watchband are mounted on the both sides of dial plate ontology, and the watch of the noninvasive acquisition blood glucose level data, which further includes, passes through line
It is the infrared light emission module of road connection, infrared light receiver module, signal conversion module, communication module, timer, display screen, micro-
Controller and power module;The infrared light emission module, signal conversion module, communication module, timer, microcontroller and electricity
Source module is set in the dial plate ontology, and the infrared light receiver module is set in the watchband, the display screen setting
In the upper surface of the dial plate ontology, the button is set to the outside of the dial plate ontology, and the button passes through circuit and institute
Timer connection is stated, wherein:
Microcontroller, for starting infrared light emission module when timer triggers;
Infrared light emission module, for emitting the infrared light of preset wavelength;
Infrared light receiver module for receiving the infrared signal of a wavelength range, and the infrared light of reception is believed
Number it is converted into analog electrical signal;
Signal conversion module, for the analog electrical signal that the infrared light receiver module is sent to be converted into blood glucose number
According to digital signal;
Communication module connect for passing through network with blood glucose level data analytical equipment, and by the blood glucose level data digital signal
It is transferred to blood glucose level data analytical equipment;
Display screen, for the time of display timer.
Preferably, the infrared light receiver module is embedded in the end of the side watchband.
Preferably, the watchband uses waterproof material.
Preferably, the dial plate ontology is structure as a whole with the watchband.
Preferably, the watch of the noninvasive acquisition blood glucose level data further includes on & off switch, and the on & off switch is arranged on the table
The right upper portion of disk ontology, for controlling being turned on and off for the watch of the noninvasive acquisition blood glucose level data.
Preferably, the power module can be minicell, and the minicell is rechargeable lithium battary or button
Battery.
Preferably, the minicell is connected with charging port, before the charging port is arranged on the dial plate ontology
Outside side or outside rear side, charge for patching external power supply to the minicell.
The watch of noninvasive acquisition blood glucose level data described in the utility model can be adopted by setting timer in fixed time automatically
Collect user human blood glucose concentration, can easily it is noninvasive acquisition user human blood glucose concentration, put forward ease for use and portability, carry
High user experience.
Description of the drawings
Fig. 1 is the table body external structure schematic diagram of the watch preferred embodiment of the noninvasive acquisition blood glucose level data of the utility model;
Fig. 2 is the internal circuit configuration schematic diagram of the watch preferred embodiment of the noninvasive acquisition blood glucose level data of the utility model.
The embodiments will be further described with reference to the accompanying drawings for the realization, functional characteristics and advantage of the utility model aim.
Specific embodiment
The technological means and effect taken to reach above-mentioned purpose further to illustrate the utility model, 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 should
Work as understanding, specific embodiment described herein is only used to explain the utility model, is not used to limit the utility model.
It is tied outside table body as shown in FIG. 1, FIG. 1 is the watch preferred embodiment of the noninvasive acquisition blood glucose level data of the utility model
Structure schematic diagram, as shown in Fig. 2, Fig. 2 is the internal circuit of the watch preferred embodiment of the noninvasive acquisition blood glucose level data of the utility model
Structure diagram.The utility model provides a kind of watch 100 of noninvasive acquisition blood glucose level data, including dial plate ontology 101, watchband
102nd, button 113.The watchband 102 is mounted on the both sides of dial plate ontology 101.As the preferred embodiment of the utility model, institute
It can be waterproof material to state watchband 102, prevent sweat from influencing the collection effect of human blood glucose concentration.The dial plate ontology 101 with
The watchband 102 can be structure as a whole, and can prevent from frequently plucking wearing watch and damaging.
The watch 100 of the noninvasive acquisition blood glucose level data further includes the infrared light emission module 104 by connection, red
Outer optical receiver module 105, signal conversion module 106, communication module 107, timer 108, display screen 114,109 and of microcontroller
Power module 110.Specifically, the infrared light emission module 104 passes through connection to microcontroller 109, the infrared light
Receiving module 105, signal conversion module 106, communication module 107, microcontroller 109 and power module 110 by circuit successively
Connection, the button 113 are connect by circuit with the timer 108, and the timer 108 passes through connection microcontroller
109, the display screen 114 passes through connection microcontroller 109.
The infrared light emission module 104, signal conversion module 106, communication module 107, timer 108, microcontroller
109 and power module 110 be set in the dial plate ontology 101, the infrared light receiver module 105 is set to the watchband
In 102, as the preferred embodiment of the utility model, the infrared light receiver module 105 can be embedded in the side watchband
102 end, when the watch 100 of blood glucose level data acquisition function is worn on the wrist of user, the infrared light-receiving mould
Block 105 and the infrared light emission module 104 be in symmetric position, receive in favor of the infrared light receiver module 105 described in
The infrared light that infrared light emission module 104 is sent out:The display screen 114 is set to the upper surface of the dial plate ontology 101, described
Button 113 is set to the outside of the dial plate ontology 101, and the button 113 is connect by circuit with the timer 108.Make
For the preferred embodiment of the utility model, the infrared light emission module 104 can be infrared light emission circuit;The infrared light
Receiving module 105 can be mid-infrared optical receiving circuit;The signal conversion module 106 include filter circuit, signal amplification circuit,
Signal selecting circuit and signaling conversion circuit;The communication module 107 can be communication interface;The timer 108 can be
Timing circuit;The microcontroller 109 can be the IC chip for having data processing function;The display screen 114 can
To be liquid crystal display.
The microcontroller 109 is used to start infrared light emission module 104 when timer 108 triggers;The infrared light
Transmitting module 104 is used for the infrared light of real time emission preset wavelength;The infrared light receiver module 105 is certain for real-time reception
The infrared signal of wave-length coverage, and the infrared signal of reception is converted into analog electrical signal;The signal conversion module
106 are used to the analog electrical signal that the infrared light receiver module 105 is sent being converted into blood glucose level data digital signal;It is described
Communication module 107 is used to connect with blood glucose level data analytical equipment by network, and the blood glucose level data digital data transmission is given
Blood glucose level data analytical equipment, the display screen 114 are used to show the time of the timer 108.Specifically, it noninvasive is adopted when described
The watch 100 of collection blood glucose level data is worn on the wrist of user, and the microcontroller 109 starts when the timer 108 triggers
Infrared light emission module 104, the infrared light emission module 104 emits the infrared light of a specific wavelength in real time, described specific
The Infrared irradiation of wavelength is in person's wrist artery position to be measured.The display screen 114 shows the time of the timer 108,
User can set the triggered time of the timer 108 by the button 113, and the triggered time can be certain a period of time
It carves, such as at 10 points in the morning, at 3 points in afternoon.When the time of the timer 108 reaching the triggered time, the timer 108 touches
Hair, the microcontroller 109 start infrared light emission module 104, and transmitting one is specific in real time for the infrared light emission module 104
The infrared light of wavelength.After the infrared light receiver module 105 receives the infrared signal, simulation electricity is converted the signal into
Signal, signal conversion module 106 analog electrical signal for reflecting blood sugar for human body concentration of glucose is filtered, amplified after by its turn
Change blood sugar concentration digital signal into.Last microcontroller 109 is by communication module 107 the blood sugar concentration digital data transmission
To the blood glucose level data analytical equipment being connect by network with the watch 100 of the noninvasive acquisition blood glucose level data.The blood glucose level data
Analytical equipment analyzes the blood sugar concentration digital signal, obtains the blood sugar concentration data of user.
Further, the watch 100 of the noninvasive acquisition blood glucose level data further includes on & off switch 111 (Fig. 1 does not show), described to open
Key 111 is connect by circuit with the power module 110, and the on & off switch is arranged on the right side of the dial plate ontology 101
Portion, for controlling being turned on and off for the watch 100 of the noninvasive acquisition blood glucose level data.
Further, the power module 110 can be minicell, the minicell for rechargeable lithium battary or
Minicell 110 described in button cell is arranged on the inside of the dial plate ontology 101, for for it is described it is noninvasive acquisition blood glucose number
According to watch 100 provide working power, the minicell 110 can be rechargeable lithium battary or button cell.
There are one charging port 112, the charging port 112 is arranged on the dial plate sheet for the connection of minicell 110
Any position (Fig. 1 does not show) outside the forward exterior or rear side of body 101, the charging port 112 can be a kind of USB interface
Or the battery charging interface of other standards, the charging port 112 are directly inserted into external power supply (such as computer USB interface
Or low pressure voltage-stablizer etc.) on charge to the minicell 110.
The watch of noninvasive acquisition blood glucose level data described in the utility model can be adopted by setting timer in fixed time automatically
Collect user human blood glucose concentration, can easily it is noninvasive acquisition user human blood glucose concentration, put forward ease for use and portability, carry
High user experience.
It these are only the preferred embodiment of the utility model, it does not limit the scope of the patent of the present invention, every
Equivalent structure or equivalent flow shift made based on the specification and figures of the utility model, is directly or indirectly used in
Other related technical areas are equally included in the patent within the scope of the utility model.