CN107014877A - A kind of dynamic continuous blood sugar monitoring system - Google Patents
A kind of dynamic continuous blood sugar monitoring system Download PDFInfo
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- CN107014877A CN107014877A CN201710395721.0A CN201710395721A CN107014877A CN 107014877 A CN107014877 A CN 107014877A CN 201710395721 A CN201710395721 A CN 201710395721A CN 107014877 A CN107014877 A CN 107014877A
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- sensor
- disposable
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- plate
- transmitter
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N27/00—Investigating or analysing materials by the use of electric, electrochemical, or magnetic means
- G01N27/26—Investigating or analysing materials by the use of electric, electrochemical, or magnetic means by investigating electrochemical variables; by using electrolysis or electrophoresis
Abstract
The invention discloses a kind of dynamic continuous blood sugar monitoring system, including skin treatment system and blood glucose monitoring system.Skin treatment system includes skin grinding rush and oozes processor, including handle body, and handle body front end is provided with front end processing components, and inside is provided with processor circuit component, electric supply installation and motor, and the output shaft of motor is connected with front end processing components.Blood glucose monitoring system includes disposable annex and monitor.Disposable annex includes disposable sensor, disposable transmitter, disposable positioning patch, disposable hydrating fluid, disposable aquation box.Use annex in the processing head and blood glucose monitoring system that are handled in the present invention in skin treatment system skin is disposable, and convenient and healthy, product specification is small, easy to carry.Without often taking a blood sample during monitoring, it is to avoid pain and wound infection when repeating to take a blood sample.Wirelessly real-time Transmission, to monitor, conveniently there is the understanding of more system to Monitoring Data to patient blood glucose's concentration level.
Description
Technical field
The present invention relates to a kind of dynamic continuous blood sugar monitoring system.
Background technology
Diabetes are a kind of metabolic syndromes using chronic hyperglycemia as principal character, due to insulin deficit or insulin
Biological agent obstacle causes carbohydrate metabolism disturbance, while with dysbolisms such as fat, protein, water, electrolyte, and can be concurrently many
Plant the chronic lesion of internal organs.
At present, due to being limited by modern medicine development level, the method that thoroughly radical cure diabetes are much to seek at present.
The blood sugar level of diabetic does not always have to fluctuate above and below evident regularity ground between hyperglycaemia and hypoglycemia.Blood glucose control
Show with Complications Trial report, hypoglycemic medicine and insulin dosage are adjusted by frequently detecting blood sugar concentration, so that right
Strictly control can effectively reduce the complication of diabetes initiation to blood sugar concentration.But so far, most easy blood sugar test
Method is that, in the detection of person under inspection's finger tip blood sampling, although this blood glucose self-detection method is drastically increased to diabetes patient's
Nursing level, but also have some shortcomings, such as it is cumbersome;The intensive finger tip of nerve must be punctured during such as blood sampling detection,
Pain is caused to patient;Such as wound has the danger of infection Other diseases, causes psychological pressure to patient, is unfavorable for blood glucose
Frequent detection;The cost that also such as detects is higher etc..The detection of the not high discrete time point of this frequency may leak simultaneously
Fall the situation that some blood glucose are higher or lower than normal level, so that the nursing to diabetes is unfavorable.Especially when patient is diagnosed as sugar
Urine is accomplished by carrying out glycemic parameters long-continued monitoring after being ill preventing the generation of various complication, existing blood sugar monitoring
Instrument can only be realized detects blood glucose in batches, it is impossible to realize the blood glucose level data of uninterrupted dynamic monitoring diabetic for monitoring people
The glucose concentration level of member remote tracing diabetic, the monitoring of routine testing and monitoring personnel to user is all very not
It is convenient.Therefore, the need for diabetic's detection frequency is adapted in the urgent need to developing new detecting instrument.
The content of the invention
It is an object of the invention to provide a kind of dynamic continuous blood sugar monitoring system.
Realizing the object of the invention technical scheme is:A kind of dynamic continuous blood sugar monitoring system, including skin treatment system with
And blood glucose monitoring system.
Skin treatment system includes skin grinding rush and oozes processor;Skin grinding rush, which oozes processor, includes the hand of hollow structure
Shank body, handle body front end is provided with front end processing components;Handle intracoelomic cavity is provided with processor circuit component, electric supply installation and electricity
Machine, the output shaft of motor is connected with the front end processing components of handle body front end.
Blood glucose monitoring system includes disposable annex and monitor;Disposable annex includes disposable
Sensor, disposable transmitter, disposable positioning patch, disposable hydrating fluid, disposable aquation box.
Disposable sensor includes sensor shell, the printed circuit board (PCB) being arranged in sensor shell, is arranged on printing
Water-setting lacquer disk(-sc) on circuit board;Printed circuit board (PCB) is provided with sensor body and the conducting metal being connected with sensor body;
Water-setting lacquer disk(-sc) is arranged on sensor body upper surface.
Disposable transmitter includes upper shell, transmitter circuit plate and lower house;Transmitter circuit plate is arranged on
In upper shell and the cavity of lower house formation;Transmitter circuit plate provides the electricity of power supply provided with main control chip, for main control chip
Source device, connect with main control chip for transferring data to the wireless communication module of monitor, connecting with main control chip for connecting
Connect the conducting shell fragment of disposable sensor and by disposable sensor-triggered so as to control in transmitter circuit plate
The trigger switch that circuit is opened and closed;It is disposable when disposable transmitter and disposable sensor are connected
The sensor shell of sensor and the upper shell of disposable transmitter are connected, printed circuit in disposable sensor
Conducting metal on plate is in contact with turning on shell fragment in disposable transmitter on transmitter circuit plate.
Disposable positioning patch, which includes positioning patch, be arranged on positioning sticks positioning shell on end face, is arranged on positioning and pastes
Centrifugation paper on lower surface;The lower surface of positioning patch is provided with viscose glue;Position the box like structure that shell is upper end open.
Disposable hydrating fluid is used to activate the water-setting lacquer disk(-sc) in disposable sensor on printed circuit board (PCB).
The aquation sink coordinated with the sensor shell of disposable sensor is provided with disposable aquation box.
Processor circuit component include circuit board and set main control module on circuit boards and with main control module electricity
Property connection Skin Resistance acquisition module, motor drive module;Motor drive module, which includes receiving by motor drive ic, to be led
The control signal of module is controlled so as to the rotation of controlled motor.
Handle body front end, which is provided with the installing port connected with handle intracoelomic cavity, installing port, is provided with front end processing components;Front end
Nose shell that processing assembly includes being detachably connected on installing port external handle body, the top end cover that is sleeved on nose shell and
Disposable processing head.
Nose shell is the cover body structure for the open rearward end that conductive material is manufactured, and front end face is provided with the cover body run through up and down and led to
Hole, nose shell is detachably connected at the installing port of handle body by open rearward end;The power supply that nose shell is set by inside is led
Line is connected with processor circuit component.
Top end cover includes the connection cover of bottom and is arranged on contact jaw hollow on connection cover front end face;After connection cover
End is connected to nose shell front end;The front end face of top end cover, outer surface and the position being connected with nose shell are applied provided with conductive
Layer;Connection cover in contact jaw is provided with connection cover through hole.
Disposable processing head is the cylinder for the open rearward end that conductive material is manufactured, grinding of the barrel front end face provided with protrusion
Bar.
Nose shell is connected at the installing port of handle body after coordinating with top end cover, and the output shaft of motor sequentially passes through cover body and led to
Protruded after hole, connection cover through hole on connection cover front end face;Disposable processing headgear is mounted in motor output shaft outer end, motor output
The feedback conductor that axle is set by inside and the Skin Resistance acquisition module of processor circuit component are electrically connected with.
Sensor shell is the box like structure of lower ending opening, including sensor top plate and is arranged on sensor top plate lower surface
The outer sensor coaming plate of one week;Sensor top plate upper surface is provided with sensor boss protruding upward, sensor boss
Meta installs the mounting groove of oriented lower recess;Sensor coaming plate is provided with fixed gap;The lower surface of sensor top plate is provided with
Downwardly projecting switch triggering block;The outside portion of sensor boss is through to peace from outside to inside provided with multiple on sensor top plate
Air-vent inside tankage.
Printed circuit board (PCB) be bent plank frame, printed circuit board (PCB) provided with sensor body and with sensor sheet
The conducting metal of body connection.Sensor body on printed circuit board (PCB) is arranged in the mounting groove of sensor boss, printed circuit
Plate is fixed on sensor top plate by fixed gap bending, and printed circuit board (PCB) is extended to after conducting metal connection sensor body
The other end.
Water-setting lacquer disk(-sc) is arranged on the sensor body upper surface of printed circuit board (PCB), glycoxidative provided with grape in water-setting lacquer disk(-sc)
Enzyme.
The mounting groove of sensor shell is provided with the link slot to lower recess by the outer sensors boss of fixed gap;Sensing
Mounting groove center on device top plate is provided with the mounting hole run through up and down;The sensor top plate and sensor coaming plate of sensor shell
Connecting portion provided with multiple while through the installation hole clipping of sensor top plate and sensor coaming plate.
Printed circuit board (PCB) includes the connecting portion of detecting means, fixed part and connection detecting means and fixed part, detecting means, fixation
Portion, connecting portion are integral type structure;Detecting means are the circular slab being connected with the mounting groove notch of sensor shell upper surface;Gu
Determine portion to bend the U-shaped plate of U-shaped structure, including the side plate and the bent plate of connection both sides side plate be arrangeding in parallel;Connecting portion is
The bending plate bent in obtuse angle, the upper outer end of connecting portion is connected with detecting means, the lower outer of connecting portion and fixed part it is upper
Side side plate connection;The top of connecting portion and detecting means are at grade;The side plate of fixed part is in the lower section parallel with detecting means
In plane;Sensor body is arranged on detecting means;Conducting metal sequentially extended to after being connected with sensor body connecting portion and
On fixed part.
When printed circuit board (PCB) and sensor shell are connected, detecting means lower surface is fixed in mounting groove, connecting portion
Top is arranged in link slot, and fixed part is connected to the biography of sensor shell by fixed gap by its U-shape structure ecto-entad
On sensor top plate, sensor top plate is connected between the side plate of both sides.
In disposable transmitter, upper shell is the box like structure of lower ending opening, including upper shell top plate and setting
Upper shell coaming plate outside upper shell top plate lower surface circumferentially;Upper shell top plate is provided with the upper shell boss projected upwards;
The upper shell top plate of upper shell boss side is provided with the fixing groove to lower recess, and fixed trench bottom is provided with the conducting run through up and down
Hole;Upper shell top plate is provided with the switch through hole run through up and down.
Transmitter circuit plate provided with main control chip, provide for main control chip power supply supply unit, with main control chip phase
Connect for the wireless communication module for transmitting data, the conducting shell fragment and the control that connect for being connected external hardware with main control chip
The trigger switch that whole circuit is opened and closed.
Lower house includes lower house bottom plate and the lower house coaming plate being arranged on lower house bottom plate upper surface, lower house bottom
Protrude in the outside of lower house coaming plate the circumferential outer of plate.
When upper shell, transmitter circuit plate, lower house are connected, transmitter circuit plate is arranged in lower house coaming plate
On the lower house bottom plate of side, the conducting shell fragment on transmitter circuit plate passes through fixing groove internal through-hole and protrudes the bottom in fixing groove
On face.
In disposable transmitter, the upper shell boss centre position of upper shell top plate is provided with the sensor run through up and down
Through hole;Transmitter circuit plate is provided with the temperature sensor connected with main control chip for detection temperature, and temperature sensor is set
In the upper end of supply unit;When upper shell, transmitter circuit plate, lower house coordinate installation, temperature sensor is passed through from the bottom to top
Sensor through hole is protruded on upper shell top plate upper surface.
When disposable sensor and the mating connection of disposable transmitter, the temperature sensor of transmitter circuit plate
The mounting hole on sensor through hole and sensor top plate is sequentially passed through from the bottom to top prop up be arranged on printed circuit in mounting groove
The lower end of plate detecting means.
In disposable transmitter, multiple outwardly installation cards are provided with the outside of the upper shell coaming plate of upper shell
Block, it is the slope structure that upper end is small, lower end is big to install fixture block;Lower house coaming plate is provided with multiple installations extended downwardly by upper end
Mouthful.
When the upper shell and lower house of disposable transmitter are connected, under the installation fixture block on upper shell coaming plate
End is from top to bottom caught in the installing port on lower house coaming plate.
The box like structure that shell is upper end open is positioned, including positions shell bottom plate and is arranged on outside positioning shell bottom plate upper surface
Positioning shell coaming plate circumferentially;Positioning shell bottom plate centre position is provided with the positioning through hole run through up and down;Positioning is sticked provided with determining
Positioning through hole perforate of the same size on the shell bottom plate of position.
The sensor coaming plate lateral surface of sensor shell is provided with the locating piece of multiple protrusions.Locating piece is that upper end is small, lower end
Big slope structure.
Position and multiple locating grooves caved inward are provided with the inside of shell coaming plate, locating groove is passed for groove depth from top to bottom
The descending formula structure of increasing.
Skin treatment system also includes skin treater charging device;Skin treater charging device is included on charging device
Lid, charging device housing, it is arranged on charging device lid and charging device housing forms the charging device circuit board group of interior intracavitary
Part and the power interface being arranged in charging device hull outside.
Covered on charging device on the upper lid coaming plate for including upper cover plate and being arranged on the outer of upper cover plate lower surface, upper cover plate
The centre position of end face is provided with charge port, the opening of charge port along plant inner cylinder is downwardly extending, plant inner cylinder lower end with
Upper lid coaming plate lower end is flushed.
Charging device housing includes Housing Base and the housing coaming plate being arranged on the outer of Housing Base upper surface, housing
The centre position of bottom plate upper surface is provided with the cylinder of hollow structure, and cylinder upper surface is provided with the charging hole from top to bottom extended,
When lid and charging device housing are connected on charging device, plant inner cylinder lower end and be connected with cylinder;The lateral surface of cylinder
On be arranged with some transmitting coils being electrically connected with charging device circuit board assemblies.
Provided with the induction coil with skin treater charging device internal emission line circle magnetic field induction on the inside of handle body;The line of induction
Circle produces electric current to processor circuit assembly power supply by magnetic field induction or stored to electric supply installation.
Above-mentioned technical proposal is employed, the present invention has following beneficial effect:The present invention include skin treatment system with
And blood glucose monitoring system, the use in the processing head and blood glucose monitoring system that are handled skin in skin treatment system is attached
Part is disposable, and convenient and healthy, product specification is small, easy to carry;Without often taking a blood sample during monitoring, it is to avoid repeat to adopt
Pain and wound infection during blood;Wirelessly real-time Transmission is convenient to patient blood glucose's concentration to monitor for Monitoring Data
Level has the understanding of more system.
Brief description of the drawings
In order that present disclosure is easier to be clearly understood, it is right below according to specific embodiment and with reference to accompanying drawing
The present invention is described in further detail, wherein
Fig. 1 is the schematic diagram continuously monitored to analyte of the invention.
Fig. 2 is that the skin grinding in Fig. 1 promotees to ooze the overall structure diagram of processor.
Fig. 3 is Fig. 2 configuration schematic diagram.
Fig. 4 is the handle body structural representation in Fig. 2.
Fig. 5 is the nose shell structural representation in Fig. 2.
Fig. 6 is the top end cover structural representation in Fig. 2.
Fig. 7 is the disposable processing header structure schematic diagram in Fig. 2.
Fig. 8 is the circuit module figure in Fig. 2.
Fig. 9 be Fig. 1 in disposable sensor overall structure diagram.
Figure 10 be Fig. 1 in disposable sensor configuration schematic diagram.
Figure 11 is the sensor shell upper surface schematic diagram in Figure 10.
Figure 12 is the sensor shell lower surface schematic diagram in Figure 10.
Figure 13 is the printed circuit board arrangement schematic diagram in Figure 10.
Figure 14 be Fig. 1 in disposable transmitter overall structure diagram.
Figure 15 be Fig. 1 in disposable transmitter configuration schematic diagram.
Figure 16 is the upper shell upper surface schematic diagram in Figure 15.
Figure 17 is the upper shell lower surface schematic diagram in Figure 15.
Figure 18 is the transmitter circuit plate structure schematic diagram in Figure 15.
Figure 19 is Figure 18 circuit module figure.
Figure 20 is the lower house structural representation in Figure 15.
Figure 21 is the disposable positioning patch overall structure diagram in Fig. 1.
Figure 22 is the disposable positioning patch configuration schematic diagram in Fig. 1.
Figure 23 is the positioning shell structure schematic diagram in Figure 22.
Figure 24 is skin treater charging device overall structure diagram.
Figure 25 is skin treater charging device configuration schematic diagram.
Figure 26 is the charging device superstructure schematic diagram in Figure 25.
Figure 27 is Figure 26 front view.
Figure 28 is Figure 26 top view.
Figure 29 is the charging device shell structure schematic diagram in Figure 25.
Embodiment
(embodiment 1)
It is as shown in Figure 1 the dynamic continuous blood sugar monitoring system of the present embodiment, including skin treatment system and blood glucose prison
Examining system.Skin treatment system includes skin grinding rush and oozes processor 1 and skin treater charging device 8.Blood glucose monitoring system
Including disposable annex and monitor 2.Disposable annex includes disposable sensor 3, disposable
Transmitter 4, disposable positioning patch 5, disposable hydrating fluid 6, disposable aquation box 7.
As shown in Figures 2 and 3, skin grinding rush, which oozes processor 1, is included before the handle body 1-1 of hollow structure, handle body 1-1
End is provided with front end processing components 1-2.Handle body 1-1 inner chambers are provided with processor circuit component 1-3, electric supply installation 1-4 and motor
1-5, motor 1-5 output shaft are connected with the front end processing components 1-2 of handle body 1-1 front ends.As shown in figure 8, processor circuit
Component 1-3 include circuit board 1-3-1 and the main control module 1-3-2 that is arranged on circuit board 1-3-1 and with main control module 1-
Skin Resistance acquisition module 1-3-3, motor drive module 1-3-4 that 3-2 is electrically connected with.Motor drive module 1-3-2 includes logical
Cross motor drive ic and receive main control module 1-3-2 control signal so as to controlled motor 1-5 rotation.Handle body 1-1 front ends
Provided with the installing port 1-1-1 connected with handle body 1-1 inner chambers, front end processing components 1-2 is provided with installing port 1-1-1.At front end
Nose shell 1-2-1 that reason component 1-2 includes being detachably connected on installing port 1-1-1 external handle bodies 1-1, it is sleeved on nose shell
Top end cover 1-2-2 and disposable processing head 1-2-3 on 1-2-1.
As shown in figure 5, nose shell 1-2-1 is the cover body structure for the open rearward end that conductive material is manufactured, front end face is provided with upper
Cover body the through hole 1-2-1-1, nose shell 1-2-1 run through down is detachably connected on handle body 1-1 installing port by open rearward end
At 1-1-1.The current supply line that nose shell 1-2-1 is set by inside is connected with processor circuit component 1-3.As shown in fig. 6, top
End cap 1-2-2 includes the connection cover 1-2-2-1 of bottom and is arranged on contact jaw 1- hollow on connection cover 1-2-2-1 front end faces
2-2-2.Connection cover 1-2-2-1 rear end is connected to nose shell 1-2-1 front ends.Top end cover 1-2-2 front end face, outer surface and
Conductive coating is provided with the position that nose shell 1-2-1 is connected.Connection cover in contact jaw 1-2-2-2 is logical provided with connection cover
Hole 1-2-2-3.As shown in fig. 7, disposably processing head 1-2-3 is the cylinder for the open rearward end that conductive material is manufactured, barrel front end
Lapping stick 1-2-3-1 of the face provided with protrusion.Nose shell 1-2-1 and top end cover 1-2-2 is connected to handle body 1-1 installation after coordinating
At mouth 1-1-1, motor 1-5 output shaft 1-5-1 is sequentially passed through to be protruded after cover body through hole 1-2-1-1, connection cover through hole 1-2-2-3
On connection cover 1-2-2-1 front end faces.Disposable processing head 1-2-3 is sleeved on motor 1-5 output shaft 1-5-1 outer ends, motor 1-5
Feedback conductor and processor circuit component 1-3 Skin Resistance acquisition module 1-3-3 electricity that output shaft 1-5-1 is set by inside
Property connection.
Skin grinding promotees to ooze the nose shell 1- that processor 1 is connected by means of current supply line with processor circuit component 1-3
2-1 gives tested skin to apply small current signal, while feedback conductor and processor circuit component by being set with inside
Disposable processing head 1-2-3 on the motor 1-5 output shafts 1-5-1 of 1-3 connections detects the voltage signal of tissue surface, by being surveyed
Signal of change goes out corresponding electrical impedance and its change.Skin grinding rush oozes processor 1 and the area skin to be measured of patient is ground
Mill, skin grinding rush is oozed processor 1 and skin permeation rates level is determined using suitable algorithm based on electrical conductivity, once reach institute
The permeability level needed is that removable skin grinding rush oozes the progress next step operation of processor 1.Skin treatment terminate after according to doctor
Institute handles the standardization program of Biohazard Waste Disposal, removes skin grinding and promotees to ooze the disposable processing head 1-2-3 on processor 1 and lose
Abandon.Enter to be about to skin grinding rush using chlorine-containing disinfectant and ooze processor 1 thoroughly to clean and sterilize.
As shown in figure 24, skin treater charging device 8 includes lid 8-1, charging device housing 8-2 on charging device, set
Put and charging device circuit board assemblies 8-3 and setting that 8-1 and charging device housing 8-2 forms interior intracavitary are covered on charging device
Power interface 8-4 on the outside of the charging device housing 8-2.
8-1 is covered as shown in Figure 25 to Figure 29, on charging device to be included upper cover plate 8-1-1 and is arranged on upper cover plate 8-1-1
Upper lid coaming plate 8-1-2 on the outer of lower surface, the centre position of upper cover plate 8-1-1 upper surfaces is provided with charge port 8-1-2, charge port
Along plant inner cylinder 8-1-3 is downwardly extending in 8-1-2 opening, inner cylinder 8-1-3 lower ends and upper lid coaming plate 8-1-2 lower ends are planted
Flush.Charging device housing 8-2 includes Housing Base 8-2-1 and the shell being arranged on the outer of Housing Base 8-2-1 upper surfaces
The centre position of body coaming plate 8-2-2, Housing Base 8-2-1 upper surfaces is provided with the cylinder 8-2-3 of hollow structure, cylinder 8-2-3
End face is provided with lid 8-1 and charging device housing 8-2 on the charging hole 8-2-4 from top to bottom extended, charging device and is connected
When, plant inner cylinder 8-1-3 lower ends and be connected with cylinder 8-2-3.Some and charging is arranged with cylinder 8-2-3 lateral surface to fill
The transmitting coil 8-5 that circuits board component 8-3 is electrically connected with.Be provided with the inside of handle body 1-1 with skin treater charging device 8
The induction coil 1-6 of transmitting coil 8-5 magnetic field inductions.Induction coil 1-6 produces electric current to processor circuit by magnetic field induction
Component 1-3 is powered or stored to electric supply installation 1-4.
Skin grinding rush oozes processor 1 using after finishing and being cleaned and sterilized, and skin grinding rush is oozed into processor 1 and put
Put in the charge port 8-1-2 of skin treater charging device 8, treat that next time uses.
Blood glucose monitoring system includes disposable annex and monitor 2.Disposable annex includes disposably making
With sensor 3, disposable transmitter 4, disposable positioning patch 5, disposable hydrating fluid 6, disposable water
Change box 7.
As shown in Figure 9 and Figure 10, disposable sensor 3 includes sensor shell 3-1, is arranged on sensor shell 3-1
Printed circuit board (PCB) 3-2, the water-setting lacquer disk(-sc) 3-3 that is arranged on printed circuit board (PCB) 3-2.Printed circuit board (PCB) 3-2 is provided with sensor
The body 3-2-1 and conducting metal 3-2-2 being connected with sensor body 3-2-1.Water-setting lacquer disk(-sc) 3-3 is arranged on sensor body
On 3-2-1 upper surfaces.
As shown in FIG. 11 and 12, sensor shell 3-1 be lower ending opening box like structure, including sensor top plate 3-1-1 with
And it is arranged on the sensor top plate 3-1-1 lower surfaces outer sensor coaming plate 3-1-2 of one week.Sensor top plate 3-1-1 upper surfaces
Sensor boss 3-1-3 protruding upward is provided with, sensor boss 3-1-3 centre positions are provided with the mounting groove 3- to lower recess
1-4.Sensor coaming plate 3-1-2 is provided with fixed gap 3-1-5.Sensor top plate 3-1-1 lower surface is provided with downwardly projecting
Switch triggering block 3-1-6.On sensor top plate 3-1-1 sensor boss 3-1-3 outside portion provided with it is multiple from outside to inside
It is through to the air-vent 3-1-3-1 inside mounting groove 3-1-4.Sensor shell 3-1 mounting groove 3-1-4 depends on fixed gap 3-1-5
Outer sensors boss 3-1-3 be provided with to lower recess link slot 3-1-7.Mounting groove 3- on sensor top plate 3-1-1
1-4 centers are provided with the mounting hole 3-1-8 run through up and down.In disposable sensor 3, sensor shell 3-1 sensor
Top plate 3-1-1 and sensor coaming plate 3-1-2 connecting portion are provided with multiple while being enclosed through sensor top plate 3-1-1 and sensor
Plate 3-1-2 installation hole clipping 3-1-9.
As shown in figure 13, printed circuit board (PCB) 3-2 is bent plank frame, and printed circuit board (PCB) 3-2 is provided with sensor
The body 3-2-1 and conducting metal 3-2-2 being connected with sensor body 3-2-1.Sensor body on printed circuit board (PCB) 3-2
3-2-1 is arranged in sensor boss 3-1-3 mounting groove 3-1-4, and printed circuit board (PCB) 3-2 is bent by fixed gap 3-1-5
It is fixed on sensor top plate 3-1-1, printed circuit board (PCB) 3-2 is extended to after conducting metal 3-2-2 connection sensor bodies 3-2-1
The other end.Printed circuit board (PCB) 3-2 includes detecting means 3-2-3, fixed part 3-2-4 and connection detecting means 3-2-3 and fixed part
3-2-4 connecting portion 3-2-5, detecting means 3-2-3, fixed part 3-2-4, connecting portion 3-2-5 are integral type structure.Detecting means 3-2-
3 be the circular slab being connected with the mounting groove 3-3-4 notches of sensor shell 3-1 upper surfaces.Fixed part 3-2-4 is in U for bending
The U-shaped plate of type structure, including the side plate 3-2-4-1 and connection both sides side plate 3-2-4-1 bent plate 3-2-4-2 be arrangeding in parallel.
Connecting portion 3-2-5 is the bending plate bent in obtuse angle, and connecting portion 3-2-5 upper outer end is connected with detecting means 3-2-3, connecting portion
3-2-5 lower outer is connected with fixed part 3-2-4 upside side plate 3-2-4-1.Connecting portion 3-2-5 top and detecting means 3-
2-3 is at grade.Fixed part 3-2-4 side plate 3-2-4-1 is in the lower, planar parallel with detecting means 3-2-3.Sensing
Device body 3-2-1 is arranged on detecting means 3-2-3.Conducting metal 3-2-2 is sequentially extended to after being connected with sensor body 3-2-1
On connecting portion 3-2-5 and fixed part 3-2-4.
Water-setting lacquer disk(-sc) 3-3 is arranged on printed circuit board (PCB) 3-2 sensor body 3-2-1 upper surfaces, in water-setting lacquer disk(-sc) 3-3
Provided with glucose oxidase.
When printed circuit board (PCB) 3-2 and sensor shell 3-1 is connected, detecting means 3-2-3 lower surfaces are fixed on mounting groove
In 3-1-4, connecting portion 3-2-5 top is arranged in link slot 3-1-7, and fixed part 3-2-4 is passed through by fixed gap 3-1-5
Its U-shape structure ecto-entad is connected on sensor shell 3-1 sensor top plate 3-1-1, and sensor top plate 3-1-1 is connected to two
Between the side plate 3-2-4-1 of side.
As shown in Figure 14 and Figure 15, disposable transmitter 4 include upper shell 4-1, transmitter circuit plate 4-2 and under
Housing 4-3.Transmitter circuit plate 4-2 is arranged in the cavity of upper shell 4-1 and lower house 4-3 formation.
As shown in Figure 16 and Figure 17, upper shell 4-1 be lower ending opening box like structure, including upper shell top plate 4-1-1 with
And it is arranged on the upper shell coaming plate 4-1-2 outside upper shell top plate 4-1-1 lower surfaces circumferentially.Upper shell top plate 4-1-1 is provided with
The upper shell boss 4-1-3 projected upwards.The upper shell top plate 4-1-1 of upper shell boss 4-1-3 sides is provided with to lower recess
Fixing groove 4-1-4, fixing groove 4-1-4 bottom are provided with the via hole 4-1-5 run through up and down.Upper shell top plate 4-1-1 is provided with upper
The switch through hole 4-1-6 run through down.Upper shell top plate 4-1-1 upper shell boss 4-1-3 centre positions are provided with what is run through up and down
Sensor through hole 4-1-7.In disposable transmitter 4, upper shell 4-1 upper shell coaming plate 4-1-2 outsides are provided with multiple
Outwardly installation fixture block 4-1-8, it is the slope structure that upper end is small, lower end is big to install fixture block 4-1-8.
As shown in Figure 18 and Figure 19, transmitter circuit plate 4-2 is carried provided with main control chip 4-2-1, for main control chip 4-2-1
The supply unit 4-2-2 of power supply source, connect for the wireless communication module for transferring data to monitor 2 with main control chip 4-2-1
4-2-3, connect with main control chip 4-2-1 conducting shell fragment 4-2-4 for being connected disposable sensor 3 and by disposable
Trigger to control the trigger switch 4-2-5 that circuit is opened and closed in transmitter circuit plate 4-2 using sensor 3.Transmitter circuit plate
4-2 is provided with the temperature sensor 4-2-6 connected with main control chip 4-2-1 for detection temperature, and temperature sensor 4-2-6 is set
In supply unit 4-2-2 upper end.When upper shell 4-1, transmitter circuit plate 4-2, lower house 4-3 coordinate installation, TEMP
Device 4-2-6 is from the bottom to top through sensor through hole 4-1-7 protrusions on upper shell top plate 4-1-1 upper surfaces.
As shown in figure 20, lower house 4-3 includes lower house bottom plate 4-3-1 and is arranged on lower house bottom plate 4-3-1 upper ends
Protrude in lower house coaming plate 4-3-2 outside lower house coaming plate 4-3-2 on face, lower house bottom plate 4-3-1 circumferential outer.Under
Housing coaming plate 4-3-2 is provided with multiple installing port 4-3-3 extended downwardly by upper end.
When upper shell 4-1, transmitter circuit plate 4-2, lower house 4-3 are connected, transmitter circuit plate 4-2 is arranged on
On lower house bottom plate 4-3-1 on the inside of lower house coaming plate 4-3-2, the conducting shell fragment 4-2-4 on transmitter circuit plate 4-2 is through admittedly
Determine groove 4-1-4 internal through-holes 4-1-5 and protrude on fixing groove 4-1-4 inner bottom surfaces.Installation fixture block on upper shell coaming plate 4-1-2
4-1-8 lower ends are from top to bottom caught in the installing port 4-3-3 on lower house coaming plate 4-3-2.
When disposable transmitter 4 and disposable sensor 3 are connected, disposable sensor 3
Sensor shell 3-1 and disposable transmitter 4 upper shell 4-1 are connected, the disposable upper shell 4-1 of transmitter 4
Upper shell coaming plate 4-1-2 on installation fixture block 4-1-8 be caught in the disposable sensor shell 3-1 of sensor 3 installation hole clipping
3-1-9.In conducting metal 3-2-2 and disposable transmitter 4 in disposable sensor 3 on printed circuit board (PCB) 3-2
Shell fragment 4-2-4 is turned on transmitter circuit plate 4-2 to be in contact.Transmitter circuit plate 4-2 temperature sensor 4-2-6 is from the bottom to top
Sequentially pass through the mounting hole 3-1-8 on sensor through hole 4-1-7 and sensor top plate 3-1-1 and prop up and be arranged on mounting groove 3-1-
Printed circuit board (PCB) 3-2 detecting means 3-2-3 lower end in 4.
As shown in figure 21 and figure, disposable positioning patch 5 includes positioning patch 5-1, is arranged on positioning patch 5-1 upper surfaces
On positioning shell 5-2, the centrifugation paper 5-3 that is arranged on positioning patch 5-1 lower surfaces.Positioning patch 5-1 lower surface is provided with viscose glue.It is fixed
Position shell 5-2 is the box like structure of upper end open.
As shown in figure 23, positioning shell 5-2 is the box like structure of upper end open, including positions shell bottom plate 5-2-1 and setting
Positioning shell coaming plate 5-2-2 outside positioning shell bottom plate 5-2-1 upper surfaces circumferentially.Positioning shell bottom plate 5-2-1 centre positions are provided with
The positioning through hole 5-2-3 run through up and down.Positioning patch 5-1 is provided with and the positioning through hole 5-2-3 sizes on positioning shell bottom plate 5-2-1
Consistent perforate.Sensor shell 3-1 sensor coaming plate 3-1-2 lateral surfaces are provided with the locating piece 3-1-11 of multiple protrusions.It is fixed
Position block 3-1-11 is the slope structure that upper end is small, lower end is big.Position and multiple positioning caved inward are provided with the inside of shell coaming plate 5-2-2
Neck 5-2-4, locating groove 5-2-4 are the incremental descending formula structure of groove depth from top to bottom.
Disposable hydrating fluid 6 is used to activate the water-setting lacquer disk(-sc) in disposable sensor 3 on printed circuit board (PCB) 3-2
3-3。
The aquation sink coordinated with the sensor shell 3-1 of disposable sensor 3 is provided with disposable aquation box 7.
When of the invention when using,
(1) cleaning disinfection is carried out using 75% alcohol at area skin to be measured, waits five minutes, treat that alcohol is all waved
Hair.
(2) the disposable positioning patch 5 opened in blood glucose monitoring system annex is packed, and disposable positioning is pasted into 5
Centrifugation paper 5-4 open, be attached at the area skin to be measured crossed with ethanol postincubation, press with finger positioning patch 5-1 surroundings, make
It is close on arm.
(3) take disposable processing head 1-2-3 packaging apart, disposable processing head 1-2-3 is touched and oozed into skin grinding rush
In the top end cover 1-2-2 of processor 1.Ensure that disposably handling head 1-2-3 does not fall off.
(4) the positioning through hole 5-2-3 inner skins of disposable positioning patch 5 are wiped with BZK piece.
(5) skin grinding rush is oozed into processor 1 to be inserted perpendicularly into the positioning through hole 5-2-3 of disposable positioning patch 5, one
Secondary property processing head 1-2-3 is close to skin.
(6) flicking start key, starts skin grinding rush and oozes processor 1, keeps skin grinding to promote to ooze the stable pressure of processor 1
Power and vertical, skin grinding rush is oozed processor 1 and stopped after the completion of processing.
(7) skin treatment terminates.The standardization program of Biohazard Waste Disposal is handled according to hospital, skin grinding rush is removed and oozes processing
Disposable processing head on device 1 and is abandoned 1-2-3.
(8) enter to be about to skin grinding rush using chlorine-containing disinfectant and ooze processor 1 thoroughly to clean and sterilize.Cleaning and sterilization
Afterwards, skin grinding rush is oozed into processor 1 to be placed in skin treater charging device 8, treats that next time uses.
(9) packaging of disposable transmitter 4 is opened, disposable transmitter 4 is taken out;Open disposable pass
The packaging of sensor 3, takes out disposable sensor 3.Disposable sensor 3 is corresponding with disposable transmitter 4
An entirety is fastened into well.
(10) packaging of disposable aquation box 7 is opened, disposable aquation box 7 is taken out.Take out disposable
Hydrating fluid 6, opens bottleneck and all instills hydrating fluid in the aquation sink of disposable aquation box 7.
(11) the good disposable sensor 3 of snapping and disposable transmitter 4 are passed with disposable
Sensor 3 down, in the aquation sink for being placed on disposable aquation box 7, carries out hydration process.
(12) by the good disposable sensor 3 of snapping and disposable transmitter 4 from disposable aquation box 7
It is middle to take out, monitoring quilt can be implemented after being fastened in the positioning shell 5-2 that disposable positioning patch 5 is buckled at once by monitor 2
Blood sugar concentration in tester's body.
Person under test's skin is completed after above-mentioned processing, and the glucose in the skin of person under test treatment site is extracted, and with
The water-setting lacquer disk(-sc) 3-3 of disposable sensor 3 glucose oxidase contact.Glucose reacts to be formed with glucose oxidase
Hydrogen peroxide, hydrogen peroxide is transferred to the sensor body 3-2-1 surfaces of disposable sensor 3, sensor body 3-
2-1 is by hydrogen peroxide electrochemical oxidation.The electric current produced in the oxidation reaction indicates water-setting lacquer disk(-sc) 3-3 hydrogen peroxides
Generating rate, it is related to the glucose flux by treatment site skin, percutaneous glucose flux and user's blood
Concentration of glucose in liquid is proportional, and this variation tendency passes through the wireless communication module 4-2-3 in disposable transmitter 4
Monitor 2 is transferred data to, those of ordinary skill in the art can carry out the detection and analysis of glucose.
Specific embodiment above, has been carried out further specifically to the purpose of the present invention, technical scheme and beneficial effect
It is bright, the specific embodiment that these are only the present invention is should be understood that, is not intended to limit the invention, it is all in the present invention
Spirit and principle within, any modification, equivalent substitution and improvements done etc., should be included in protection scope of the present invention it
It is interior.
Claims (10)
1. a kind of dynamic continuous blood sugar monitoring system, it is characterised in that:Including skin treatment system and blood glucose monitoring system;
The skin treatment system includes skin grinding rush and oozes processor (1);Skin grinding rush is oozed during processor (1) includes
The handle body (1-1) of hollow structure, handle body (1-1) front end is provided with front end processing components (1-2);Handle body (1-1) inner chamber
Provided with processor circuit component (1-3), electric supply installation (1-4) and motor (1-5), the output shaft and handle body of motor (1-5)
Front end processing components (1-2) connection of (1-1) front end;
The blood glucose monitoring system includes disposable annex and monitor (2);The disposable annex includes one
Secondary property uses sensor (3), disposable transmitter (4), disposable positioning patch (5), disposable hydrating fluid
(6), disposable aquation box (7);
The disposable sensor (3) includes sensor shell (3-1), the printed circuit being arranged in sensor shell (3-1)
Plate (3-2), the water-setting lacquer disk(-sc) (3-3) being arranged on printed circuit board (PCB) (3-2);The printed circuit board (PCB) (3-2) is provided with sensing
Device body (3-2-1) and the conducting metal (3-2-2) being connected with sensor body (3-2-1);The water-setting lacquer disk(-sc) (3-3) sets
Put on sensor body (3-2-1) upper surface;
The disposable transmitter (4) includes upper shell (4-1), transmitter circuit plate (4-2) and lower house (4-3);
The transmitter circuit plate (4-2) is arranged in the cavity of upper shell (4-1) and lower house (4-3) formation;The transmitter electricity
Road plate (4-2) provided with main control chip (4-2-1), for main control chip (4-2-1) provide power supply supply unit (4-2-2), with
Main control chip (4-2-1) connects for the wireless communication module (4-2-3) and main control chip (4- for transferring data to monitor (2)
2-1) connect for connecting the conducting shell fragment (4-2-4) of disposable sensor (3) and by disposable sensor (3)
Triggering is so as to control the trigger switch (4-2-5) that the interior circuit of transmitter circuit plate (4-2) is opened and closed;When disposable transmitter
(4) and during disposable sensor (3) mating connection, the sensor shell (3-1) of disposable sensor (3) with it is disposable
It is connected using the upper shell (4-1) of transmitter (4), leading on printed circuit board (PCB) (3-2) in disposable sensor (3)
Electric metal (3-2-2) is in contact with turning on shell fragment (4-2-4) in disposable transmitter (4) on transmitter circuit plate (4-2);
The disposable positioning patch (5) includes positioning patch (5-1), the positioning shell being arranged on positioning patch (5-1) upper surface
(5-2), the centrifugation paper (5-3) being arranged on positioning patch (5-1) lower surface;The lower surface of the positioning patch (5-1) is provided with viscose glue;
The positioning shell (5-2) is the box like structure of upper end open;
The disposable hydrating fluid (6) is used to activate the water in disposable sensor (3) on printed circuit board (PCB) (3-2)
Gel disk (3-3);
The water coordinated with the sensor shell (3-1) of disposable sensor (3) is provided with the disposable aquation box (7)
Change groove.
2. a kind of dynamic continuous blood sugar monitoring system according to claim 1, it is characterised in that:
The processor circuit component (1-3) includes circuit board (1-3-1) and the master control mould being arranged on circuit board (1-3-1)
Block (1-3-2) and the Skin Resistance acquisition module (1-3-3) being electrically connected with main control module (1-3-2), motor drive module
(1-3-4);The motor drive module (1-3-4) includes receiving the control of main control module (1-3-2) by motor drive ic
Signal is so as to the rotation of controlled motor (1-5);
Handle body (1-1) front end is provided with the installing port (1-1-1) connected with handle body (1-1) inner chamber, installing port (1-1-1)
Place is provided with front end processing components (1-2);The front end processing components (1-2) include being detachably connected on installing port (1-1-1) outside
Nose shell (1-2-1) on side handle body (1-1), the top end cover (1-2-2) being sleeved on nose shell (1-2-1) and disposable
Handle head (1-2-3);
The nose shell (1-2-1) is the cover body structure for the open rearward end that conductive material is manufactured, and front end face is provided with what is run through up and down
Cover body through hole (1-2-1-1), nose shell (1-2-1) is detachably connected on the installing port (1- of handle body (1-1) by open rearward end
1-1) place;The current supply line that the nose shell (1-2-1) is set by inside is connected with processor circuit component (1-3);
The top end cover (1-2-2) includes the connection cover (1-2-2-1) of bottom and is arranged on connection cover (1-2-2-1) front end face
Upper hollow contact jaw (1-2-2-2);The rear end of the connection cover (1-2-2-1) is connected to nose shell (1-2-1) front end;It is described
The front end face of top end cover (1-2-2), outer surface and the position being connected with nose shell (1-2-1) are provided with conductive coating;Institute
The connection cover (1-2-2-1) stated in contact jaw (1-2-2-2) is provided with connection cover through hole (1-2-2-3);
The disposable processing head (1-2-3) is the cylinder for the open rearward end that conductive material is manufactured, and barrel front end face is provided with protrusion
Lapping stick (1-2-3-1);
The nose shell (1-2-1) is connected to handle body (1-1) installing port (1-1-1) place after coordinating with top end cover (1-2-2),
The output shaft (1-5-1) of motor (1-5) sequentially passes through cover body through hole (1-2-1-1), connection cover through hole (1-2-2-3) and protruded afterwards
On connection cover (1-2-2-1) front end face;The disposable processing head (1-2-3) is sleeved on motor (1-5) output shaft (1-5-1) outside
End, the feedback conductor that motor (1-5) output shaft (1-5-1) is set by inside and the skin of processor circuit component (1-3) hinder
Anti- acquisition module (1-3-3) is electrically connected with.
3. a kind of dynamic continuous blood sugar monitoring system according to claim 1, it is characterised in that:The sensor shell (3-1) is
The box like structure of lower ending opening, including sensor top plate (3-1-1) and it is arranged on sensor top plate (3-1-1) lower surface outer
The sensor coaming plate (3-1-2) of one week;Sensor top plate (3-1-1) upper surface is provided with sensor boss protruding upward
(3-1-3), sensor boss (3-1-3) centre position is provided with the mounting groove (3-1-4) to lower recess;The sensor coaming plate
(3-1-2) is provided with fixed gap (3-1-5);Opened provided with downwardly projecting the lower surface of the sensor top plate (3-1-1)
Close triggering block (3-1-6);On the sensor top plate (3-1-1) outside portion of sensor boss (3-1-3) provided with it is multiple by
It is outer to be through to the internal air-vent (3-1-3-1) of mounting groove (3-1-4) to interior;
The printed circuit board (PCB) (3-2) is bent plank frame, and printed circuit board (PCB) (3-2) is provided with sensor body (3-
The conducting metal (3-2-2) 2-1) and with sensor body (3-2-1) being connected;Sensing on the printed circuit board (PCB) (3-2)
Device body (3-2-1) is arranged in sensor boss (3-1-3) mounting groove (3-1-4), and printed circuit board (PCB) (3-2) passes through fixation
Breach (3-1-5) bending is fixed on sensor top plate (3-1-1), conducting metal (3-2-2) connection sensor body (3-2-1)
Printed circuit board (PCB) (3-2) other end is extended to afterwards;
The water-setting lacquer disk(-sc) (3-3) is arranged on printed circuit board (PCB) (3-2) sensor body (3-2-1) upper surface, hydrogel
Glucose oxidase is provided with disk (3-3).
4. a kind of dynamic continuous blood sugar monitoring system according to claim 3, it is characterised in that:The sensor shell (3-1)
Mounting groove (3-1-4) is provided with the link slot to lower recess by the outer sensors boss (3-1-3) of fixed gap (3-1-5)
(3-1-7);Mounting groove (3-1-4) center on the sensor top plate (3-1-1) is provided with the mounting hole (3- run through up and down
1-8);The sensor top plate (3-1-1) of the sensor shell (3-1) and the connecting portion of sensor coaming plate (3-1-2) are provided with more
It is individual while through the installation hole clipping (3-1-9) of sensor top plate (3-1-1) and sensor coaming plate (3-1-2);
The printed circuit board (PCB) (3-2) include detecting means (3-2-3), fixed part (3-2-4) and connection detecting means (3-2-3) with
The connecting portion (3-2-5) of fixed part (3-2-4), detecting means (3-2-3), fixed part (3-2-4), connecting portion (3-2-5) are integrated
Formula structure;The detecting means (3-2-3) are mounting groove (3-3-4) notch mating connection with sensor shell (3-1) upper surface
Circular slab;The fixed part (3-2-4) for bend the U-shaped plate of U-shaped structure, including the side plate (3-2-4-1) be arrangeding in parallel with
And the bent plate (3-2-4-2) of connection both sides side plate (3-2-4-1);The connecting portion (3-2-5) is the bending plate bent in obtuse angle,
The upper outer end of connecting portion (3-2-5) is connected with detecting means (3-2-3), lower outer and the fixed part (3- of connecting portion (3-2-5)
Upside side plate (3-2-4-1) connection 2-4);The top of the connecting portion (3-2-5) is with detecting means (3-2-3) in same plane
On;The side plate (3-2-4-1) of the fixed part (3-2-4) is in the lower, planar parallel with detecting means (3-2-3);The sensing
Device body (3-2-1) is arranged on detecting means (3-2-3);The conducting metal (3-2-2) is connected with sensor body (3-2-1)
Sequentially extend to afterwards on connecting portion (3-2-5) and fixed part (3-2-4);
When printed circuit board (PCB) (3-2) and sensor shell (3-1) are connected, detecting means (3-2-3) lower surface is fixed on installation
In groove (3-1-4), the top of connecting portion (3-2-5) is arranged in link slot (3-1-7), and fixed part (3-2-4) is by fixed gap
(3-1-5) place is connected on the sensor top plate (3-1-1) of sensor shell (3-1) by its U-shape structure ecto-entad, sensor
Top plate (3-1-1) is connected between both sides side plate (3-2-4-1).
5. a kind of dynamic continuous blood sugar monitoring system according to claim 1, it is characterised in that:
In the disposable transmitter (4), upper shell (4-1) is the box like structure of lower ending opening, including upper shell top plate
(4-1-1) and it is arranged on upper shell coaming plate (4-1-2) outside upper shell top plate (4-1-1) lower surface circumferentially;The upper casing
Body top plate (4-1-1) is provided with the upper shell boss (4-1-3) projected upwards;Upper shell boss (4-1-3) side it is upper
Cover top plate (4-1-1) is provided with the fixing groove (4-1-4) to lower recess, and fixing groove (4-1-4) bottom is provided with leading for running through up and down
Through hole (4-1-5);The upper shell top plate (4-1-1) is provided with the switch through hole (4-1-6) run through up and down;
The transmitter circuit plate (4-2) provides the electricity of power supply provided with main control chip (4-2-1), for main control chip (4-2-1)
Source device (4-2-2), connect with main control chip (4-2-1) for transmit data wireless communication module (4-2-3), with master control core
The trigger switch that the conducting shell fragment (4-2-4) and the whole circuit of control that piece (4-2-1) connects for connecting external hardware are opened and closed
(4-2-5);
The lower house (4-3) includes lower house bottom plate (4-3-1) and is arranged on lower house bottom plate (4-3-1) upper surface
Protrude in lower house coaming plate (4-3-2) outside lower house coaming plate (4-3-2), the circumferential outer of lower house bottom plate (4-3-1);
When upper shell (4-1), transmitter circuit plate (4-2), lower house (4-3) are connected, transmitter circuit plate (4-2) peace
On the lower house bottom plate (4-3-1) on the inside of lower house coaming plate (4-3-2), the conducting shell fragment on transmitter circuit plate (4-2)
(4-2-4) is through fixing groove (4-1-4) internal through-hole (4-1-5) and protrudes on fixing groove (4-1-4) inner bottom surface.
6. a kind of dynamic continuous blood sugar monitoring system according to claim 5, it is characterised in that:
In the disposable transmitter (4), upper shell boss (4-1-3) interposition of upper shell top plate (4-1-1) is installed
There is the sensor through hole (4-1-7) run through up and down;The transmitter circuit plate (4-2) is provided with and main control chip (4-2-1) phase
The temperature sensor (4-2-6) for detection temperature is connect, temperature sensor (4-2-6) is arranged on the upper of supply unit (4-2-2)
End;When the upper shell (4-1), transmitter circuit plate (4-2), lower house (4-3) coordinate installation, temperature sensor (4-2-6)
From the bottom to top through sensor through hole (4-1-7) protrusion on upper shell top plate (4-1-1) upper surface;
When the disposable sensor (3) and disposable transmitter (4) mating connection, transmitter circuit plate (4-2)
Temperature sensor (4-2-6) sequentially pass through from the bottom to top on sensor through hole (4-1-7) and sensor top plate (3-1-1)
Mounting hole (3-1-8) props up the lower end for being arranged on mounting groove (3-1-4) interior printed circuit board (PCB) (3-2) detecting means (3-2-3).
7. a kind of dynamic continuous blood sugar monitoring system according to claim 5, it is characterised in that:The disposable transmitter
(4) in, upper shell coaming plate (4-1-2) outside of upper shell (4-1) is provided with multiple outwardly installation fixture blocks (4-1-8),
It is the slope structure that upper end is small, lower end is big to install fixture block (4-1-8);The lower house coaming plate (4-3-2) is provided with multiple by upper
Hold the installing port (4-3-3) extended downwardly;
When the upper shell (4-1) and lower house (4-3) of disposable transmitter (4) are connected, upper shell coaming plate (4-1-
2) installation fixture block (4-1-8) lower end on is from top to bottom caught in the installing port (4-3-3) on lower house coaming plate (4-3-2).
8. a kind of dynamic continuous blood sugar monitoring system according to claim 1, it is characterised in that:The positioning shell (5-2) is upper
The box like structure of end opening, including position shell bottom plate (5-2-1) and be arranged on positioning shell bottom plate (5-2-1) upper surface outer week
To positioning shell coaming plate (5-2-2);Described positioning shell bottom plate (5-2-1) centre position is provided with the positioning through hole (5- run through up and down
2-3);The positioning patch (5-1) is provided with and positioning through hole (5-2-3) in positioning shell bottom plate (5-2-1) is of the same size opens
Hole.
9. a kind of dynamic continuous blood sugar monitoring system according to claim 8, it is characterised in that:
Sensor coaming plate (3-1-2) lateral surface of the sensor shell (3-1) is provided with the locating piece (3-1-11) of multiple protrusions;
The locating piece (3-1-11) is the slope structure that upper end is small, lower end is big.
Multiple locating grooves (5-2-4) caved inward, locating groove (5-2- are provided with the inside of the positioning shell coaming plate (5-2-2)
4) it is the incremental descending formula structure of groove depth from top to bottom.
10. a kind of dynamic continuous blood sugar monitoring system according to claim 1, it is characterised in that:The skin treatment system is also
Including skin treater charging device (8);The skin treater charging device (8) includes lid (8-1) on charging device, charging
Device case (8-2), it is arranged on the charging device that (8-1) and the interior intracavitary of charging device housing (8-2) formation are covered on charging device
Circuit board assemblies (8-3) and the power interface (8-4) being arranged on charging device housing (8-2) outside;
(8-1) is covered on the charging device to be included upper cover plate (8-1-1) and is arranged on upper cover plate (8-1-1) lower surface outer
Upper lid coaming plate (8-1-2), the centre position of upper cover plate (8-1-1) upper surface is provided with charge port (8-1-2), the charge port
Along plant inner cylinder (8-1-3) is downwardly extending in the opening of (8-1-2), inner cylinder (8-1-3) lower end and upper lid coaming plate (8- are planted
1-2) lower end is flushed;
The charging device housing (8-2) includes Housing Base (8-2-1) and is arranged on outside Housing Base (8-2-1) upper surface
Along upper housing coaming plate (8-2-2), the centre position of Housing Base (8-2-1) upper surface is provided with the cylinder (8-2- of hollow structure
3), cylinder (8-2-3) upper surface is provided with lid (8-1) and charging on the charging hole (8-2-4) from top to bottom extended, charging device
When device case (8-2) is connected, plants inner cylinder (8-1-3) lower end and be connected with cylinder (8-2-3);Cylinder (the 8-
Some transmitting coils (8-5) being electrically connected with charging device circuit board assemblies (8-3) are arranged with lateral surface 2-3);
Provided with the sense with skin treater charging device (8) internal emission line circle (8-5) magnetic field induction on the inside of the handle body (1-1)
Answer coil (1-6);The induction coil (1-6) by magnetic field induction produce electric current to processor circuit component (1-3) power or
Person is stored to electric supply installation (1-4).
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CN201710395721.0A CN107014877B (en) | 2017-05-27 | 2017-05-27 | Dynamic continuous blood glucose monitoring system |
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CN107014877B CN107014877B (en) | 2023-06-20 |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2021024131A1 (en) * | 2019-08-02 | 2021-02-11 | Bionime Corporation | Physiological signal monitoring device |
WO2021031542A1 (en) * | 2019-08-19 | 2021-02-25 | Medtrum Technologies Inc. | Micro-analyte detection device |
Citations (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20080154101A1 (en) * | 2006-09-27 | 2008-06-26 | Faquir Jain | Implantable Biosensor and Methods of Use Thereof |
CN101707875A (en) * | 2007-03-07 | 2010-05-12 | 回声治疗有限公司 | Transdermal analyte monitoring systems and methods for analyte detection |
CN101707872A (en) * | 2007-04-27 | 2010-05-12 | 回声治疗有限公司 | Skin permeation device for analyte sensing or transdermal drug delivery |
CN102159133A (en) * | 2008-06-24 | 2011-08-17 | 韦伯斯特生物官能公司 | Patch and sensor assembly for use in medical device localization and mapping systems |
US20120283540A1 (en) * | 2009-08-08 | 2012-11-08 | Sanofi-Aventis Deutschland Gmbh | Implantable sensor device and medical delivery device connectable to such a sensor device |
CN103549963A (en) * | 2013-11-08 | 2014-02-05 | 上海移宇科技有限公司 | Implanted real-time dynamic blood sugar monitoring equipment |
CN103826528A (en) * | 2011-07-26 | 2014-05-28 | 格里森思公司 | Tissue implantable sensor with hermetically sealed housing |
CN205215241U (en) * | 2015-11-20 | 2016-05-11 | 深圳市光聚通讯技术开发有限公司 | Disposable continuous glucose appearance |
CN207181352U (en) * | 2017-05-27 | 2018-04-03 | 北京怡唐生物科技有限公司 | A kind of dynamic continuous blood sugar monitoring system |
-
2017
- 2017-05-27 CN CN201710395721.0A patent/CN107014877B/en active Active
Patent Citations (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20080154101A1 (en) * | 2006-09-27 | 2008-06-26 | Faquir Jain | Implantable Biosensor and Methods of Use Thereof |
CN101707875A (en) * | 2007-03-07 | 2010-05-12 | 回声治疗有限公司 | Transdermal analyte monitoring systems and methods for analyte detection |
CN101707872A (en) * | 2007-04-27 | 2010-05-12 | 回声治疗有限公司 | Skin permeation device for analyte sensing or transdermal drug delivery |
CN102159133A (en) * | 2008-06-24 | 2011-08-17 | 韦伯斯特生物官能公司 | Patch and sensor assembly for use in medical device localization and mapping systems |
US20120283540A1 (en) * | 2009-08-08 | 2012-11-08 | Sanofi-Aventis Deutschland Gmbh | Implantable sensor device and medical delivery device connectable to such a sensor device |
CN103826528A (en) * | 2011-07-26 | 2014-05-28 | 格里森思公司 | Tissue implantable sensor with hermetically sealed housing |
CN103549963A (en) * | 2013-11-08 | 2014-02-05 | 上海移宇科技有限公司 | Implanted real-time dynamic blood sugar monitoring equipment |
CN205215241U (en) * | 2015-11-20 | 2016-05-11 | 深圳市光聚通讯技术开发有限公司 | Disposable continuous glucose appearance |
CN207181352U (en) * | 2017-05-27 | 2018-04-03 | 北京怡唐生物科技有限公司 | A kind of dynamic continuous blood sugar monitoring system |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2021024131A1 (en) * | 2019-08-02 | 2021-02-11 | Bionime Corporation | Physiological signal monitoring device |
WO2021031542A1 (en) * | 2019-08-19 | 2021-02-25 | Medtrum Technologies Inc. | Micro-analyte detection device |
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