CN206453762U - A kind of graphene pulse wave of multiple points monitoring of blood pressure Intelligent worn device - Google Patents
A kind of graphene pulse wave of multiple points monitoring of blood pressure Intelligent worn device Download PDFInfo
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- CN206453762U CN206453762U CN201621092660.8U CN201621092660U CN206453762U CN 206453762 U CN206453762 U CN 206453762U CN 201621092660 U CN201621092660 U CN 201621092660U CN 206453762 U CN206453762 U CN 206453762U
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- graphene
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- worn device
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Abstract
The utility model discloses a kind of graphene pulse wave of multiple points monitoring of blood pressure Intelligent worn device, including the wearable device body for being worn on human hands, some graphene pulse wave sensors for gathering pulse wave and the ambient noise sensor for gathering ambient noise are provided with the wearable device body;The circuit module being connected with graphene pulse wave sensor and ambient noise sensor is additionally provided with Intelligent worn device body, the circuit module includes process chip and the power supply for power supply;The graphene pulse wave sensor is several, is separately positioned at the finger pulp loss of right-hand man and wrist pulse.The utility model can not only obtain accurate pulse heart rate number of times and pulse wave characteristic information, can also utilize the delay of the pulse wave signal at three diverse locations, obtain VPV, and and then acquisition pressure value.
Description
Technical field
The utility model is related to a kind of Intelligent worn device that monitoring of blood pressure is carried out using graphene sensor.
Background technology
With the development and the raising of living standards of the people of social economy, cardiovascular and cerebrovascular disease gradually replaces common infection
Disease turns into the number one killer of the harm mankind.And hypertension is then the arch-criminal of cardiovascular and cerebrovascular disease, with high incidence, low control
The characteristics of rate processed.The normal arterial pressure of adult is about 120/80, it is too high or it is too low all can be dangerous.According to statistics, the whole nation is high
Blood pressure patient there are about 90,000,000, and wherein blood pressure be effectively controlled there was only 4.1% in city, rural area only has 1.2%.Blood pressure mistake
Height can damage the vitals such as the heart, brain, kidney, cause lesion, occur apoplexy, miocardial infarction etc. it is serious it is lethal, disable event.
Accordingly, it is capable to conveniently accurately measure the blood pressure conditions of itself, the health of itself is understood in time and is taken measures, is to pass
Important thing.
The blood pressure commonly used on the market now is in respect of mercury column sphygmomanometer, electronic sphygmomanometer and air pressure meter type blood pressure meter three
Kind.The Stability and veracity of mercury column sphygmomanometer measurement is higher, but needs to coordinate stethoscope to carry out pilot signal during due to using
Sound, so the technical requirements to user are higher;And electronic sphygmomanometer is broadly divided into wrist type and arm type, carry more convenient,
Automatically heart rate and blood pressure can be disposably measured, but this sphygmomanometer can be by many limitations, the noise of surrounding environment, cuff
Slide up and down and rub, certain influence may be all produced to measurement result;Barometer sphygmomanometer shape such as clock and watch, are to use table
The mechanical action of head represents blood pressure readings, and the remainder and mercury column sphygmomanometer of this sphygmomanometer be essentially identical, but
Its degree of accuracy is not so good as mercury column sphygmomanometer.The characteristics of these sphygmomanometers are common is exactly all not very convenient carrying, will to technology
Ask higher.
Utility model content
For above-mentioned technical problem, the utility model provides a kind of graphene pulse wave of multiple points monitoring of blood pressure intelligence
Wearable device, can be enclosed on the pulse wave of measurement people on hand of people so as to measure heart rate number of times and human blood-pressure, simple and practical,
It is easy to carry.
In order to solve the above-mentioned technical problem, the technical solution adopted in the utility model is:A kind of graphene pulse wave of multiple points
Monitoring of blood pressure Intelligent worn device, including for being worn on the wearable device body of human hands, the wearable device body
It is provided with some graphene pulse wave sensors for being used to gather pulse wave and is passed for the ambient noise for gathering ambient noise
Sensor;The electricity being connected with graphene pulse wave sensor and ambient noise sensor is additionally provided with Intelligent worn device body
Road module, the circuit module includes process chip and the power supply for power supply;If the graphene pulse wave sensor is
Dry, it is separately positioned at the finger pulp loss of right-hand man and wrist pulse.The utility model can not only obtain accurate arteries and veins
Fight heart rate number of times and pulse wave characteristic information, can also using the pulse wave signal at three diverse locations delay, obtain blood
Flow velocity degree, and and then acquisition pressure value.
As a preferred embodiment, the graphene sensor is 6, it is separately positioned on the thumb finger pulp of right-hand man, middle finger and refers to
At abdomen and wrist pulse.
As a preferred embodiment, the ambient noise sensor is 2, at the non-pulse of the left and right wrist that is placed in.
As an improvement, the background at graphene pulse wave sensor and the non-pulse of wrist at the wrist pulse is made an uproar
Sonic transducer is contact graphene sensor;The contact graphene sensor includes flexible PCB, the flexibility
Groove is provided with circuit board;Also include laying and the quick elastomer thin film of graphene power on flexible PCB, the graphene power
Quick elastomer thin film covers groove;The quick elastomer thin film of graphene power is provided at both ends with electrode;The electrode and circuit
Module is connected;The one side of the quick elastomer thin film of graphene power and human contact set strong quick contact, the quick contact of power
Position it is corresponding with groove location.Ambient noise sensor is mainly used in eliminating ambient noise during pulse wave monitoring at wrist,
Because the muscle group of human body wrist is more, easily by external disturbance.Therefore, ambient noise need to be done for pulse wave sensor at wrist
Suppress.In order to ensure the validity and uniformity of ambient noise monitoring, ambient noise sensor and the collection pulse wave at wrist
Graphene sensor should be identical.Simultaneously from the sensitivity angle of sensing, using hanging recess structure and Li Min contact junctions
Structure, can significantly improve faint pressure, the monitoring sensitivity of strain.The wherein quick contact of power need to be contacted with skin in use.
As an improvement, the thumb finger pulp, the graphene pulse wave sensor of middle finger finger pulp are flexible paste chip
Graphene sensor;The flexible paste chip graphene sensor includes the quick bullet of graphene power being laid on wearable device body
Property body thin film, the quick elastomer thin film of graphene power is provided at both ends with electrode;The electrode is connected by wire and circuit module
Connect;State wire to arrange for serpentine bend, and be fixed on using fixing line on Intelligent worn device body;The fixing line be across
Some groups of the wire left and right sides;And wire can shuttle in fixing line.Using graphene flexible paste chip sensor construction,
The quick elastomer thin film of graphene power is directly attached in Intelligent worn device, enhances the elastic stretching performance of sensor, is improved
The wearing comfort of Intelligent worn device.
As an improvement, also comprising a wireless transport module in the circuit module.For by the data monitored
Externally it is wirelessly transferred.
As an improvement, the circuit module is arranged at the back of the hand.The back of the hand has less feature, by circuit module
It is arranged at the back of the hand, the obstruction to hand exercise is reduced as far as possible.
As an improvement, it is provided with signal amplification circuit and signaling conversion circuit on the circuit module.Signal amplifies
The electric signal that graphene sensor is sent is amplified processing by circuit, and the signal after amplification is converted to number by signaling conversion circuit
Word signal.
As an improvement, it is provided with the display screen being connected with process chip on the Intelligent worn device body.For
The blood pressure and heart rate information monitored is shown, is easy to user's real time inspection.
As a preferred embodiment, the wearable device body is gloves.
It is of the present utility model to be beneficial in that:Pulse and monitoring of blood pressure Intelligent worn device with said structure, are adopted
Made of graphene sensor, have the advantages that light weight, pliability are good, be easy to carry;Using pulse wave measurement blood pressure and the heart
Rate, with high efficiency and accuracy.
Brief description of the drawings
Fig. 1 is positive structure diagram of the present utility model.
Fig. 2 is backsight structural representation of the present utility model.
Fig. 3 is circuit diagram of the present utility model.
Fig. 4 is contact graphene sensor cross section structure diagram.
Fig. 5 is flexible paste chip graphene sensor structural representation.
Fig. 6 is flexible paste chip graphene sensor cross section structure diagram.
Marked in figure:101 middle finger sensors, 102 thumb sensors, 103 wrist sensors, 104 ambient noise sensors,
105 Intelligent worn device bodies, 107 circuit modules, 201 power supplys, 202 wireless transport modules, 203 process chips, 301 flexible electricals
Road plate, 302 grooves, 303 electrodes, the 304 quick elastomer thin films of graphene power, the quick contact of 305 power, 306 wires, 307 fixing lines.
Embodiment
Below in conjunction with the accompanying drawings, the utility model is described in detail.
In order that the purpose of this utility model, technical scheme and advantage are more clearly understood, below in conjunction with accompanying drawing and implementation
Example, the utility model is further elaborated.It should be appreciated that specific embodiment described herein is only to explain
The utility model, is not used to limit the utility model.
As shown in Figures 1 to 6, the utility model includes Intelligent worn device body 105, the Intelligent worn device body
105 be preferably gloves, is provided with some graphene pulse wave sensors for being used to gather pulse wave and for gathering the back of the body
The ambient noise sensor 104 of scape noise;Graphene pulse wave sensor is preferably 6, is separately positioned on the thumb of right-hand man
At finger pulp, middle finger finger pulp and wrist pulse.That is, middle finger sensor 101, thumb sensor 102, wrist sensor 103, background
Noise transducer 104.Ambient noise sensor is at 2, the non-pulse of the left and right wrist that is placed in.
It is additionally provided with Intelligent worn device body 105 and graphene pulse wave sensor and ambient noise sensor
The circuit module 107 of 103 connections, the circuit module 107 includes process chip 203 and the power supply 201 for power supply.Circuit
Module 107 is arranged at the back of the hand.Also comprising a wireless transport module 202 in circuit module 107.Intelligent worn device body
105 also on be provided with the display screen being connected with process chip 203.
Middle finger sensor 101, thumb sensor 102 are flexible paste chip graphene sensor;The flexible paste chip
Graphene sensor includes the quick elastomer thin film 304 of graphene power being laid on wearable device body 105, the graphene power
Quick elastomer thin film 304 is provided at both ends with electrode 303;The electrode 303 is connected by wire 306 with circuit module 107;State and lead
Line 306 is arranged for serpentine bend, and is fixed on using fixing line 307 on Intelligent worn device body 105;The fixing line 307
For across some groups of the left and right sides of wire 306;And wire 306 can shuttle in fixing line 307.
Graphene pulse wave sensor at wrist pulse(Wrist sensor 103)With the ambient noise at the non-pulse of wrist
Sensor 104 is contact graphene sensor;The contact graphene sensor includes flexible PCB 301, described
Groove 302 is provided with flexible PCB 301;Also include laying and the quick elastomer thin film of graphene power on flexible PCB 301
304, the quick elastomer thin film 304 of graphene power covers groove 302;The quick two ends of elastomer thin film 304 of graphene power
It is provided with electrode 303;The electrode 303 is connected with circuit module 107;The quick elastomer thin film 304 of graphene power and human body
The one side of contact sets strong quick contact 305, and the position of the quick contact 305 of power is corresponding with the position of groove 302.
Signal amplification circuit and signaling conversion circuit are provided with circuit module 107.
6 graphene sensors 101 at the thumb finger pulp of right-hand man, middle finger finger pulp and wrist are arranged on to gather simultaneously
Pulse wave, pulse condition is extrapolated according to the shape of the pulse wave of three, and blood pressure and VPV are equivalent.Ambient noise sensor
104 as background noise suppress sensor, can improve the signal to noise ratio of system.
The preferred embodiment of utility model is the foregoing is only, it is all in this reality not to limit the utility model
With any modifications, equivalent substitutions and improvements made within new spirit and principle etc., it should be included in of the present utility model
Within protection domain.
Claims (10)
1. a kind of graphene pulse wave of multiple points monitoring of blood pressure Intelligent worn device, including set for the wearing for being worn on human hands
Standby body, it is characterised in that:Some graphene pulse waves for being used to gather pulse wave are provided with the wearable device body to pass
Sensor and the ambient noise sensor for gathering ambient noise;It is additionally provided with Intelligent worn device body and graphene arteries and veins
Fight wave sensor and the circuit module of ambient noise sensor connection, the circuit module includes process chip and for supplying
The power supply of electricity;The graphene pulse wave sensor is several, is separately positioned on the finger pulp loss and wrist arteries and veins of right-hand man
Fight place.
2. a kind of graphene pulse wave of multiple points monitoring of blood pressure Intelligent worn device according to claim 1, it is characterised in that:
The graphene pulse wave sensor is 6, is separately positioned on the thumb finger pulp of right-hand man, middle finger finger pulp, at wrist pulse.
3. a kind of graphene pulse wave of multiple points monitoring of blood pressure Intelligent worn device according to claim 1, it is characterised in that:
The ambient noise sensor is 2, is placed at the non-pulse of wrist.
4. a kind of graphene pulse wave of multiple points monitoring of blood pressure Intelligent worn device according to claim 1, it is characterised in that:
The ambient noise sensor at graphene pulse wave sensor and the non-pulse of wrist at the wrist pulse is contact stone
Black alkene sensor;The contact graphene sensor includes being provided with groove on flexible PCB, the flexible PCB;Also wrap
The quick elastomer thin film of graphene power laid with flexible PCB is included, the quick elastomer thin film of graphene power covers groove;
The quick elastomer thin film of graphene power is provided at both ends with electrode;The electrode is connected with circuit module;The graphene power is quick
The one side of elastomer thin film and human contact set strong quick contact, and the position of the quick contact of power is corresponding with groove location.
5. a kind of graphene pulse wave of multiple points monitoring of blood pressure Intelligent worn device according to claim 2, it is characterised in that:
The thumb finger pulp, the graphene pulse wave sensor of middle finger finger pulp are flexible paste chip graphene sensor;The flexibility
SMD graphene sensor includes the quick elastomer thin film of graphene power being laid on wearable device body, the graphene power
Quick elastomer thin film is provided at both ends with electrode;The electrode is connected by wire with circuit module;The wire is serpentine bend
Arrangement, and be fixed on using fixing line on Intelligent worn device body;The fixing line is across some of the wire left and right sides
Group;And wire can shuttle in fixing line.
6. a kind of graphene pulse wave of multiple points monitoring of blood pressure Intelligent worn device according to claim 1, it is characterised in that:
Also comprising a wireless transport module in the circuit module.
7. a kind of graphene pulse wave of multiple points monitoring of blood pressure Intelligent worn device according to claim 1, it is characterised in that:
The circuit module is arranged at the back of the hand.
8. a kind of graphene pulse wave of multiple points monitoring of blood pressure Intelligent worn device according to claim 1, it is characterised in that:
Signal amplification circuit and signaling conversion circuit are provided with the circuit module.
9. a kind of graphene pulse wave of multiple points monitoring of blood pressure Intelligent worn device according to claim 1, it is characterised in that:
The display screen being connected with process chip is provided with the Intelligent worn device body.
10. a kind of graphene pulse wave of multiple points monitoring of blood pressure Intelligent worn device according to claim 1, its feature exists
In:The wearable device body is gloves.
Priority Applications (1)
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CN201621092660.8U CN206453762U (en) | 2016-09-29 | 2016-09-29 | A kind of graphene pulse wave of multiple points monitoring of blood pressure Intelligent worn device |
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CN201621092660.8U CN206453762U (en) | 2016-09-29 | 2016-09-29 | A kind of graphene pulse wave of multiple points monitoring of blood pressure Intelligent worn device |
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CN201621092660.8U Withdrawn - After Issue CN206453762U (en) | 2016-09-29 | 2016-09-29 | A kind of graphene pulse wave of multiple points monitoring of blood pressure Intelligent worn device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106343987A (en) * | 2016-09-29 | 2017-01-25 | 中国科学院重庆绿色智能技术研究院 | Graphene multipoint pulse wave blood pressure monitoring intelligent wearing device |
CN108836281A (en) * | 2018-06-28 | 2018-11-20 | 中国科学院微电子研究所 | System for pulse characteristics parameter acquisition |
-
2016
- 2016-09-29 CN CN201621092660.8U patent/CN206453762U/en not_active Withdrawn - After Issue
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106343987A (en) * | 2016-09-29 | 2017-01-25 | 中国科学院重庆绿色智能技术研究院 | Graphene multipoint pulse wave blood pressure monitoring intelligent wearing device |
CN106343987B (en) * | 2016-09-29 | 2018-05-01 | 中国科学院重庆绿色智能技术研究院 | A kind of graphene pulse wave of multiple points monitoring of blood pressure intelligent wearable device |
CN108836281A (en) * | 2018-06-28 | 2018-11-20 | 中国科学院微电子研究所 | System for pulse characteristics parameter acquisition |
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