CN209280665U - Health monitoring device - Google Patents

Abstract

A kind of health monitoring device, it mainly include a biological characteristic monitoring modular, a gas-monitoring module, a particulate matter monitoring module, a purification gas module and a control module, the biometric monitor module provides health data information, the gas-monitoring module and the particulate matter monitoring module provide monitoring data information, and the purification gas module provides air cleaning, and health data information and monitoring data information are transmitted to external connection device storage, record and display using the control module.

Description

Health monitoring device

[technical field]

This case is about a kind of health monitoring device, espespecially a kind of health monitoring of portable apparatus combination gas-monitoring function Device.

[background technique]

With the quickening pace of modern life, the increasing of operating pressure, more and more people start to focus on body-building, in this way, Wearable body-building tracing equipment just becomes popular.Many people begin to use this kind of equipment for body-building or for losing weight, these Equipment can recorde workout data, convenient for users to tracking body-building progress, how provide a kind of monitoring health record at any time with oneself Device be the utility model research major subjects.

Though modern can subsidize sport and body-building using the device that monitoring health is noted down at any time above-mentioned with oneself to maintain health Whether body has good air quality environment during exercise so to maintain health, the even more important link watched attentively.Therefore modern Requirement of the people for air quality arround life is more and more paid attention to, such as carbon monoxide, carbon dioxide, volatile organic matter (Volatile Organic Compound, VOC), PM2.5, nitric oxide, sulfur monoxide etc. gas, even in gas The particle contained, can all expose in the environment influences human health, serious or even jeopardize life.Therefore in order to keep fit Go movement outer, it is also necessary to understand context air quality quality, with separate or make the precautionary measures, reaching a kind of can really meet The purpose of fitness campaign, and context air quality how is monitored, it is the project currently paid attention to.

The quality for how confirming air quality, monitored using a kind of gas sensor surrounding environmental gases be it is feasible, If can provide monitoring information immediately again, the people at warning in the environment can prevent or flee from immediately, avoid by environment In gas exposure cause Health Impact and injury, ambient enviroment is monitored using gas sensor can say it is extraordinary Using；And portable apparatus is the outgoing mobile device that can all carry of modern, therefore this case is by biometric monitor module knot It closes gas-monitoring module, particulate matter monitoring module and purification gas module and is embedded at portable apparatus, especially current is portable The development trend of device is light, thin and must have both in high performance situation how to be thinned health monitoring device and group is set In the application in portable apparatus, it is provided with oneself monitoring health record at any time, monitoring ambient air quality and purification is provided Air is the important topic that this case is researched and developed.

[utility model content]

The main purpose of this case is to provide a kind of health monitoring device, provides health data using biometric monitor module Information, and combine gas-monitoring module and particulate matter monitoring module to provide monitoring data information, and mention in conjunction with purification gas module It is transmitted to external connection device storage, record and display for the breathing air of purification, and by multiple monitoring data information, it can It is made instantly available information, to warn the people at informing in the environment, can prevent or flee from immediately, avoid by environment Gas exposure causes Health Impact and injury, reaches with oneself monitoring health record at any time, monitoring ambient air quality And provide purification airequivalent benefit.

The one broad sense state sample implementation of this case is a kind of health monitoring device, includes: an ontology has 3.5mm~4.5mm Length, the width of 3.5mm~4.5mm, the height of 0.6mm~0.8mm, there is a chamber and the ontology to be equipped with one for inside First air inlet, one second air inlet, a gas outlet and one monitoring regional window, respectively with the chamber；One biological characteristic Monitoring modular is set in the chamber of the ontology, and is positioned at the monitoring region the window's position, includes a photoelectric sensor, one Pressure sensor, an impedance transducer, at least a light-emitting component and a health monitoring processor, the photoelectric sensor, the pressure Detection signal is supplied to the health monitoring processor and is converted to after sensor and impedance transducer fitting user's skin histology The output of health data information；One gas-monitoring module, is set in the chamber of the ontology, and be positioned at the ontology this first into Port position, includes a gas sensor and a gas actuator, and gas actuator control gas imports the gas-monitoring mould Inside block, and it is monitored by the gas sensor；One particulate matter monitoring module, is set in the chamber of the ontology, and position Corresponding between first air inlet and the gas outlet, include a particle actuator and a particle sensor, the particle actuator Control gas imports the particulate matter monitoring inside modules, by the partial size of contained suspended particulates in the particle sensor detection gas and dense Degree；One purification gas module, setting are positioned in the chamber of the ontology, and are positioned and corresponded to second air inlet and the gas outlet Between, comprising a purification actuator and a clean unit, purification actuator control gas imports the purification gas inside modules, Make the clean unit purification gas；One control module, setting is positioned in the chamber of the ontology, to control the biometric monitor The starting running of module, the gas-monitoring module, the particulate matter monitoring module and the purification gas module, and the biological characteristic is supervised The health data information and the gas-monitoring module of survey module and the monitoring data information of the particulate matter monitoring module are transmitted Output.

[Detailed description of the invention]

Figure 1A is the stereoscopic schematic diagram of this case health monitoring device.

Figure 1B is the front schematic view of this case health monitoring device.

Fig. 1 C is the front side schematic diagram of this case health monitoring device.

Fig. 1 D is the right side schematic diagram of this case health monitoring device.

Fig. 1 E is the left side schematic diagram of this case health monitoring device.

Fig. 1 F is the schematic bottom view of this case health monitoring device.

Fig. 2 is the diagrammatic cross-section that the A-A hatching of Figure 1B regards.

Fig. 3 is the stereoscopic schematic diagram that this case health monitoring device associated components assemble position.

Fig. 4 A is the gas-monitoring module associated components front appearance schematic diagram of this case health monitoring device.

Fig. 4 B is the gas-monitoring module associated components back appearance schematic diagram of this case health monitoring device.

Fig. 4 C is the gas-monitoring module associated components decomposition diagram of this case health monitoring device.

Fig. 4 D is the gas-monitoring modular gas flow direction stereoscopic schematic diagram of this case health monitoring device.

Fig. 4 E is the gas-monitoring modular gas flow direction partial enlargement diagram of this case health monitoring device.

Fig. 5 A is the decomposition diagram of this case micropump gas-monitoring module.

Fig. 5 B is the decomposition diagram that another angle of this case micropump gas-monitoring module regards.

Fig. 6 A is the diagrammatic cross-section of this case micropump.

Fig. 6 B is the diagrammatic cross-section of this case micropump another preferred embodiment.

Fig. 6 C to Fig. 6 E is the illustrative view of micropump shown in Fig. 6 A.

Fig. 7 is the diagrammatic cross-section of this case particulate matter monitoring module.

Fig. 8 A is the clean unit first embodiment diagrammatic cross-section of this case purification gas module.

Fig. 8 B is the clean unit second embodiment diagrammatic cross-section of this case purification gas module.

Fig. 8 C is the clean unit 3rd embodiment diagrammatic cross-section of this case purification gas module.

Fig. 8 D is the clean unit fourth embodiment diagrammatic cross-section of this case purification gas module.

Fig. 8 E is the 5th embodiment diagrammatic cross-section of clean unit of this case purification gas module.

Fig. 9 show this case bellows micropump associated components decomposition diagram.

Figure 10 A to Figure 10 C show the illustrative view of bellows gas pump shown in Fig. 9.

Figure 11 is the control illustrative view of this case health monitoring device.

Figure 12 is that this case health monitoring device hangs the embodiment schematic diagram being positioned on clothes.

Figure 13 is that this case health monitoring device hangs the embodiment schematic diagram being positioned on trousers.

Figure 14 is the embodiment schematic diagram of this case health monitoring device combination telescopic band.

[specific embodiment]

The some exemplary embodiments for embodying this case features and advantages will describe in detail in the explanation of back segment.It should be understood that This case can have various variations in different aspects, all not depart from the range of this case, and explanation therein and diagram It is illustrated as being used in itself, rather than to limit this case.

It please refers to shown in Figure 1A to Fig. 1 F and Fig. 2, it is mainly biological comprising one that this case provides a kind of health monitoring device 10 Feature monitoring modular 1, a gas-monitoring module 2, a particulate matter monitoring module 3, purification gas module 4 and a control module 5, biology Feature monitoring modular 1, gas-monitoring module 2, particulate matter monitoring module 3, purification gas module 4 and control module 5 can be arranged in In one ontology 7 formed a slim portable apparatus, because surface structure design need to reach user can have hold be not easy to fall and The convenience of carrying need to just be thinned design, the appearance size design tool of such this case ontology 7 on the apparent size of ontology 7 There are a length L, a width W and a height H, and according to current biometric monitor module 1, gas-monitoring module 2, particulate matter monitoring Module 3, purification gas module 4 and control module 5 are configured at optimized configuration design in ontology 7, are by the length L of ontology 7 It is configured to 3.5~4.5mm, length L is that 3.8mm~4.2mm is most preferably, and width W is configured to 3.5~4.5mm, and width W is 3.8mm~4.2mm is best and height H is configured to 0.6~0.8mm, and height H is that 0.65mm~0.75mm is best.Also, There is a chamber 71 inside ontology 7, and be equipped with the first air inlet 72, one second air inlet 73, a gas outlet 74 and a monitoring Regional window 75, wherein the first air inlet 72, the second air inlet 73, gas outlet 74 and monitoring regional window 75 respectively with chamber 71 connections.

It please refers to shown in Fig. 1 F, Fig. 2 and Fig. 3, above-mentioned biometric monitor module 1 is set to the chamber 71 of ontology 7 It is interior, and it is positioned at monitoring 75 position of regional window, it include a photoelectric sensor 11, a pressure sensor 12, an impedance transducer 13, an at least light-emitting component 14 and a health monitoring processor 15.Wherein photoelectric sensor 11 is bonded user's skin histology Afterwards, after being transmitted through skin histology by the light emitted source of light-emitting component 14, the light source being reflected back is received by photoelectric sensor 11, and Generation detection signal is supplied to health monitoring processor 15 and is converted to health data information and exports to control module 5, controls mould The health data information of the biometric monitor module 1 is transmitted output by block 5, and this health data information may include one Heart rate data, an ECG data and a blood pressure data；After pressure sensor 12 is bonded user's skin histology, it is able to generate inspection Survey signal is supplied to health monitoring processor 15 and is converted to health data information and exports to control module 5, and control module 5 should The health data information of biometric monitor module 1 is transmitted output, this health data information is a respiratory rate data； After impedance transducer 13 is bonded user's skin histology, it is able to generate detection signal and is supplied to health monitoring processor 15 and is converted to Health data information is simultaneously exported to control module 5, and control module 5 gives the health data information of the biometric monitor module 1 To transmit output, this health data information is a blood glucose level data.

It is please referred to shown in Fig. 2, Fig. 3 and Fig. 4 A to Fig. 4 E again, above-mentioned gas-monitoring module 2 includes a compartment body 21, a support plate 22, a gas sensor 23 and a gas actuator 24.Wherein compartment body 21 be set to the first of ontology 7 into 72 lower position of port, and inside is distinguished by a partition 211 and forms first compartment 212 and second compartment 213, partition 211 has One notch 214 is interconnected for first compartment 212 and second compartment 213, and first compartment 212 has an opening 215, and second There is compartment 213 venthole 216 and 21 bottom of compartment body to be equipped with an accommodation groove 217, and accommodation groove 217 is worn for support plate 22 It stretches merging wherein to position, to close the bottom of compartment body 21, and support plate 22 is mounted on 21 lower section of compartment body and encapsulates and electricity Property connection gas sensor 23, and gas sensor 23 stretch through opening 215 and setting in first compartment 212, to detect Gas in first compartment 212, but support plate 22 is equipped with a blow vent 221, and such support plate 22 is mounted on 21 lower section of compartment body, Blow vent 221 will correspond to the venthole 216 of second compartment 213, and gas actuator 24 is set in second compartment 213, with It is set to gas sensor 23 in first compartment 212 to completely cut off, enables generated heat source when actuation of gas actuator 24 Hard to bear partition 211 obstructs, and is unlikely to influence the testing result of gas sensor 23, and gas actuator 24 closes second compartment 213 bottom is generated a delivery air-flow by control actuating, imports gas by the first air inlet 72 of ontology 7, and passed through Gas sensor 23 is monitored, then is entered second compartment 213 by notch 214 and passed through venthole 216, and pass through support plate 22 discharge of blow vent 221 is discharged in outside gas-monitoring module 2 by the gas outlet of ontology 7 74.

It is please referred to shown in Fig. 5 A to Fig. 5 B again, above-mentioned gas actuator 24 is a micropump, and micropump is by an influent stream plate 241, a resonance plate 242, a piezoelectric actuator 243, one first insulating trip 244, a conductive sheet 245 and one second insulating trip 246 Sequentially stack composition.Wherein influent stream plate 241 has the confluence chamber of an an at least flow-in hole 241a, at least busbar channel 241b and one 241c, flow-in hole 241a are for importing gas, the corresponding perforation busbar channel 241b of flow-in hole 241a, and busbar channel 241b is flowed to Converge chamber 241c, and the imported gas of flow-in hole 241a is enable to converge into confluence chamber 241c.In this present embodiment, influent stream Hole 241a is identical as the quantity of busbar channel 241b, and the quantity of flow-in hole 241a and busbar channel 241b are respectively 4, not As limit, 4 flow-in hole 241a penetrate through 4 busbar channel 241b respectively, and 4 busbar channel 241b are flowed to confluence chamber Room 241c.

It please refers to shown in Fig. 5 A, Fig. 5 B and Fig. 6 A, above-mentioned resonance plate 242 is connected to influent stream plate 241 by laminating type On, and on resonance plate 242 there is a hollow hole 242a, a movable part 242b and a fixed part 242c, hollow hole 242a to be located at altogether At the center of vibration piece 242, and it is corresponding with the confluence chamber 241c of influent stream plate 241, and movable part 242b is set to hollow hole 242a Around and with the opposite region confluence chamber 241c, and fixed part 242c is set to the outer peripheral edge portion of resonance plate 242 and pastes It is fixed on influent stream plate 241.

Please continue to refer to shown in Fig. 5 A, Fig. 5 B and Fig. 6 A, above-mentioned piezoelectric actuator 243 include a suspension board 243a, One outline border 243b, at least a bracket 243c, a piezoelectric element 243d, at least a gap 243e and a protrusion 243f.Wherein, it suspends Plate 243a is a square kenel, suspension board 243a's so using square, be compared to the design of round suspension board, it is square The structure of shape suspension board 243a obviously has the advantage of power saving, because of the capacity load operated under resonant frequency, consumes function Rate can increase with the rising of frequency, and because obviously more round suspension board is low for the resonant frequency of side length square suspension board 243a, Therefore its opposite consumption power is also significant lower, that is, the suspension board 243a of the used square _type layout of this case, has power saving excellent The benefit of gesture；Outline border 243b is around the outside for being set to suspension board 243a；An at least bracket 243c be connected to suspension board 243a with Between outline border 243b, to provide the support force of resilient support suspension board 243a；And one piezoelectric element 243d have a side length, The side length is less than or equal to a side length of suspension board 243a, and piezoelectric element 243d is attached on a surface of suspension board 243a, To apply voltage to drive suspension board 243a bending vibration；And it is constituted between suspension board 243a, outline border 243b and bracket 243c An at least gap 243e, to for gas to pass through；Protrusion 243f is the table for being set to suspension board 243a and attaching piezoelectric element 243d Opposite another surface in face, protrusion 243f in this present embodiment, can be for by utilizing an etch process system in suspension board 243a It is integrally formed out to protrude from the convex architecture formed on the opposite another surface for attaching the surface of piezoelectric element 243d.

Please continue to refer to shown in Fig. 5 A, Fig. 5 B and Fig. 6 A, above-mentioned influent stream plate 241, resonance plate 242, piezoelectric actuator 243, the first insulating trip 244, conductive sheet 245 and the second insulating trip 246 sequentially stacked combination, wherein suspension board 243a and resonance It needs to form a cavity space 247 between piece 242, cavity space 247 can be used in except resonance plate 242 and piezoelectric actuator 243 One material of gap filling between frame 243b is formed, such as: conducting resinl, but not limited to this, so that resonance plate 242 and suspension Certain depth can be maintained to form cavity space 247 between plate 243a, and then gas can be guided and more quickly flowed, and because of suspension board 243a and resonance plate 242 keep suitable distance to make the interference reduction that is in contact with each other, and promote noise generation that can be lowered, certainly in implementation In example, also can highly increase by the outline border 243b of piezoelectric actuator 243 reduce resonance plate 242 and piezoelectric actuator 243 it The thickness of the filled conducting resinl in gap between outline border 243b, such micropump overall structure assembling is not because of the filling material of conducting resinl Matter can influence indirectly because of hot pressing temperature and cooling temperature, avoid the filling material of conducting resinl because the factor of expanding with heat and contract with cold influences The practical spacing in rear chamber space 247 is formed, but not limited to this.In addition, cavity space 247 will will affect the biography of micropump Defeated effect, therefore it is particularly significant for maintaining a fixed cavity space 247 to provide stable efficiency of transmission for micropump.

Therefore shown in Fig. 6 B, in other 243 embodiments of piezoelectric actuator, suspension board 243a can be adopted with stamping Make its distance that extends outwardly, the distance that extends outwardly can form in suspension board 243a and outline border 243b by an at least bracket 243c Between adjusted, make both the surface of the protrusion 243f on suspension board 243a and the surface of outline border 243b formed non-co-planar, It is used in assembling for outline border 243b and is coated with a small amount of filling material on surface, such as: conducting resinl makes piezoelectric actuator with hot pressing mode 243 fit in the fixed part 242c of resonance plate 242, so that piezoelectric actuator 243 is able to assemble combination with resonance plate 242, So directly by adopting the suspension board 243a of above-mentioned piezoelectric actuator 243 with the stamping knot for being constituted a cavity space 247 Structure improvement, required cavity space 247 are able to come by adjusting the stamping distance of suspension board 243a of piezoelectric actuator 243 It completes, effectively simplifies the structure design of adjustment cavity space 247, while also reaching simplified processing procedure, shorten processing time etc. Advantage.In addition, the first insulating trip 244, conductive sheet 245 and the second insulating trip 246 are all the slim sheet body of frame-type, sequentially stack In on piezoelectric actuator 243 i.e. group a composition micropump overall structure.

Flowing mode is made in the output that gas transport is provided to understand above-mentioned micropump, please continue to refer to Fig. 6 C to Fig. 6 E institute Show, is please applied after driving voltage referring initially to Fig. 6 C, the piezoelectric element 243d of piezoelectric actuator 243 and generates deformation drive suspension Plate 243a is to bottom offset, and the volume of cavity space 247 is promoted at this time, in foring negative pressure in cavity space 247, just draws confluence Gas in chamber 241c enters in cavity space 247, while resonance plate 242 is influenced to be synchronized downwards by resonance principle Displacement, the related volume for increasing confluence chamber 241c, and because the gas in confluence chamber 241c enters the pass of cavity space 247 System causes to be similarly negative pressure state in confluence chamber 241c, and then by flow-in hole 241a, busbar channel 241b come draw gas Into in confluence chamber 241c；Referring again to Fig. 6 D, piezoelectric element 243d drives suspension board 243a to shift up, compression chamber Space 247 shifts up likewise, resonance plate 242 is suspended plate 243a because of resonance, forces synchronous pushing cavity space 247 Interior gas passes through gap 243e down to be transmitted downwards, to achieve the effect that transmit gas；Fig. 6 E is finally please referred to, suspension board is worked as When 243a homing, for resonance plate 242 still due to inertia to bottom offset, resonance plate 242 at this time will make compression chamber space 247 Interior gas is mobile to gap 243e, and promotes the volume in confluence chamber 241c, allows gas that can constantly pass through influent stream Hole 241a, busbar channel 241b converge in chamber 241c to converge at, by being repeated continuously shown in above-mentioned Fig. 6 C to Fig. 6 E Micropump provide gas transport actuation step, enable micropump make gas continuously from flow-in hole 241a enter influent stream plate 241 and The constituted runner of resonance plate 242 generates barometric gradient, then is transmitted downwards by gap 243e, makes gas flow at high rates, reaches miniature The actuation operation of pump transmission gas output.

Please continue to refer to Fig. 6 A, influent stream plate 241, resonance plate 242, piezoelectric actuator 243, the first insulating trip of micropump 244, conductive sheet 245 and the second insulating trip 246 all can make the volume of micropump by micro electronmechanical face type micro-processing technology processing procedure It reduces, to constitute the micropump of a MEMS.

Please continue to refer to shown in Fig. 4 D and Fig. 4 E, when gas-monitoring module 2 is embedded in the chamber 71 of ontology 7, this The gas flow direction of gas-monitoring module 2 for convenience of description in legend of body 7, hereby gives ontology 7 transparent in legend Change processing, to illustrate, and the first air inlet 72 of ontology 7 corresponds to the first compartment 212 of compartment body 21, and the of ontology 7 One air inlet 72 and 23 the two of gas sensor being located in first compartment 212 be not directly corresponding, that is, the first air inlet 72 is not Located immediately at the top of gas sensor 23, the two mutual dislocation so passes through the control actuation of gas actuator 24, allows second Negative pressure is initially formed in compartment 213, starts to draw the extraneous gas outside ontology 7, and import in first compartment 212, so that first Gas sensor 23 in compartment 212 starts to be monitored the gas for flowing through in its surface, with the gas outside detection body 7 Quality, and gas actuator 24 constantly actuation when, the gas that has monitored will import the by the notch 214 on partition 211 Two compartments 213 are finally discharged except compartment body 21 by the blow vent 221 of venthole 216, support plate 22, unidirectional to constitute one Gas delivery monitoring (such as Fig. 4 D indicates the meaning direction air flow path B).

Above-mentioned gas sensor 23 includes an oxygen sensor, a carbon monoxide transducer, a carbon dioxide sensor At least one or combinations thereof；Alternatively, above-mentioned gas sensor 23 includes a temperature sensor and a humidity sensor One of or combinations thereof；Alternatively, above-mentioned gas sensor 23 includes a volatile organic matter sensor；Or, above-mentioned Gas sensor 23 includes a bacterium sensor, viral one of a sensor and a microbiological sensor or combinations thereof.

As shown in the above description, health monitoring device 10 provided by this case can be supervised at any time using gas-monitoring module 2 User's ambient air quality is surveyed, and is able to quickly and stably introduce gas into gas-monitoring using gas actuator 24 In module 2, not only 23 efficiency of lift gas sensor, further through the first compartment 212 and second compartment 213 of compartment body 21 Design, gas actuator 24 and gas sensor 23 are spaced from each other, enable gas sensor 23 monitor when obstruct reduction The heat source of gas actuator 24 influences, and is unlikely to influence the monitoring accuracy of gas sensor 23, it is further possible to do not filled Other elements in setting influence.Therefore, gas actuator 24 controls gas and imports inside gas-monitoring module 2, and passes through gas Sensor 23 is monitored, and detected monitoring data information is transmitted to control module 5, and control module 5 is by gas-monitoring module 2 Monitoring data information is transmitted output, so by gas-monitoring module 2, can reach make health monitoring device 10 can at any time, The purpose detected everywhere, and can have fast and accurately monitoring effect.

Please referred to shown in Fig. 7 again, health monitoring device 10 provided by this case with more one monitoring gas in particle it is micro- Grain monitoring modular 3, particulate matter monitoring module 3 are set in the chamber 71 of ontology 7, and particulate matter monitoring module 3 includes a vent entrance openings 31, an aeration vent 32, a particulate matter monitoring pedestal 33, one carrying partition 34, a laser emitter 35, a particle actuator 36 and One particle sensor 37, wherein the second air inlet 73 of the corresponding ontology 7 of vent entrance openings 31, the corresponding ontology 7 of aeration vent 32 go out Port 74 obtains gas and is entered inside particulate matter monitoring module 3 by vent entrance openings 31, and is discharged by aeration vent 32, and particle is supervised It surveys pedestal 33 and carrying partition 34 is set to inside particulate matter monitoring module 3, so that 3 inner space of particulate matter monitoring module is by carrying Partition 34 defines a first compartment 38 and second compartment 39, and carries partition 34 with a communication port 341, to be connected to first Compartment 38 and second compartment 39 and second compartment 39 are connected to aeration vent 32, and particulate matter monitoring pedestal 33 is adjacent to carrying Partition 34, and be placed in first compartment 38, and there is particulate matter monitoring pedestal 33 a bearing slot 331, one to monitor channel 332, one Beam channel 333 and an accommodation chamber 334, wherein bearing slot 331 directly vertically corresponds to vent entrance openings 31, and monitoring channel 332 is set It is placed in 331 lower section of bearing slot, and is connected to the communication port 341 of carrying partition 34, and accommodation chamber 334 is set to monitoring channel 332 Side, and beam channel 333 be connected to accommodation chamber 334 and monitoring channel 332 between, and beam channel 333 directly vertically across Channel 332 is monitored, by vent entrance openings 31, bearing slot 331, monitoring channel 332, communication port inside such particulate matter monitoring module 3 341, aeration vent 32 constitutes a gas passage for being unidirectionally sent export gas, i.e., such as the path of Fig. 7 arrow direction.Also, Above-mentioned laser emitter 35 is set in accommodation chamber 334, and 36 framework of particle actuator is in bearing slot 331, and it is logical to be located at monitoring The one end in road 332 and particle sensor 37 are electrically connected at carrying partition 34, and are located at the other end in monitoring channel 332.

It is above-mentioned to illustrate for the characteristics of particulate matter monitoring module 3, and particle actuator 36 is used as gas transport, can be a kind of miniature Pump configuration, the structure of micropump and makees flowing mode such as above-mentioned explanation, and just it will not go into details herein.

It is imported inside particulate matter monitoring module 3 it can be seen from the above, particle actuator 36 controls gas, such laser emitter 35 The laser beam emitted is irradiated into beam channel 333, and beam channel 333 guides laser beam and exposes to monitoring channel 332 In, to irradiate to suspended particulates contained in the gas in monitoring channel 332, and suspended particulates will generate after being irradiated by light beam Multiple luminous points are projeced into 37 surface of particle sensor and are received, and particle sensor 37 is made to sense the partial size of suspended particulates and dense Degree, the monitoring data information sensed are transmitted to control module 5, and control module 5 believes the monitoring data of particulate matter monitoring module 3 Breath is transmitted output.

Also, the monitoring channel 332 of particulate matter monitoring module 3 directly vertically corresponds to vent entrance openings 31, obtain monitoring channel 332 With direct air guide, air-flow importing is not influenced, and 36 framework of particle actuator is in bearing slot 331, it is outer to vent entrance openings 31 external Gas delivery sucking, and detected by particle sensor 37, it is so able to accelerate in gas importing monitoring channel 332, mention Rise the efficiency of particle sensor 37.The particle sensor 37 of the present embodiment is PM2.5 sensor.

It is please referred to shown in Fig. 3 and Fig. 8 A to Fig. 8 E again, the provided health monitoring device 10 of this case has more purification gas Purification gas module 4, purification gas module 4 is set in the chamber 71 of ontology 7, goes out comprising an air guide entrance 41, an air guide Mouthfuls 42 and one air guide channel 43, one purify actuator 44 and a clean unit 45, air guide entrance 41 correspond to the second of ontology 7 into Port 73, air guide outlet 42 correspond to the gas outlet 74 of ontology 7, and air guide channel 43 is set to air guide entrance 41 and air guide outlet 42 Between, and purify actuator 44 and be set in air guide channel 43, it is imported in air guide channel 43 with controlling gas, and clean unit 45 setting in air guide channel 43.

Above-mentioned clean unit 45 can be a kind of filter screen unit, include multiple strainer 45a, the present embodiment as shown in Figure 8 A It is installed respectively for two strainer 45a and keeps a spacing in air guide channel 43, passed the gas through the purification control of actuator 44 and lead By contained chemical fumes, bacterium, dirt particle and pollen in two strainer 45a adsorbed gases in gas channel 43, to reach purification gas Effect, wherein strainer 45a can be electrostatic strainer, active carbon filter net or efficient filter (HEPA).

Above-mentioned clean unit 45 can be a kind of photocatalyst unit, as shown in Figure 8 B, ultraviolet comprising a photocatalyst 45b and one Line lamp 45c, installs keep a spacing in air guide channel 43 respectively, passes the gas through the purification control of actuator 44 and imports air guide channel In 43, and photocatalyst 45b is able to convert light energy into chemical energy by ultraviolet radiator 45c irradiation, for decomposing the nocuousness in gas It gas and carries out disinfection sterilization to gas, to reach the effect of purification gas, when certain clean unit 45 is a kind of photocatalyst unit It can also cooperate strainer 45a in air guide channel 43, to reinforce the effect of purification gas, wherein strainer 45a can be electrostatic strainer, work Property carbon strainer or efficient filter (HEPA).

Above-mentioned clean unit 45 can be that a kind of optical plasma unit includes one nanometer of light pipe 45d, set as shown in Figure 8 C If in air guide channel 43, passing the gas through the purification control of actuator 44 and importing in air guide channel 43, shone by nanometer light pipe 45d It penetrates, is able to the ion of oxygen molecule and water-molecule dissociation at tool high oxidative optical plasma with destruction organic molecule in gas Air-flow resolves into water and dioxy for the gas molecules such as volatile formaldehyde, toluene, volatile organic gases (VOC) are contained in gas Change carbon, to reach the effect of purification gas, certain clean unit 45 can also cooperate strainer 45a leading when being a kind of optical plasma unit In gas channel 43, to reinforce the effect of purification gas, wherein strainer 45a can be electrostatic strainer, active carbon filter net or efficient filter (HEPA)。

Above-mentioned clean unit 45 can be a kind of anion unit, as in fig. 8d, comprising an at least electrode wires 45e, extremely A few collecting plate 45f and booster power device a 45g, each electrode wires 45e, each collecting plate 45f are installed in air guide channel 43, and Booster power device 45g, which is set in purification gas module 4, provides each electrode wires 45e electrion, and each collecting plate 45f has Negative electrical charge passes the gas through the purification control of actuator 44 and imports in air guide channel 43, by each electrode wires 45e electrion, Make particles contained positively charged in gas, and is further attached on negatively charged each collecting plate 45f, to reach purification gas Effect, certain clean unit 45 be a kind of anion unit when can also cooperate strainer 45a in air guide channel 43, with reinforce The effect of purification gas, wherein strainer 45a can be electrostatic strainer, active carbon filter net or efficient filter (HEPA).

Above-mentioned clean unit 45 can be a kind of plasma-based ion unit, as illustrated in fig. 8e, comprising an electric field upper protecting network 45h, One absorption strainer 45i, a high voltage discharge electrode 45j, an electric field lower protecting network 45k and a booster power device 45g, are wherein protected on electric field Net 45h, absorption strainer 45i, high voltage discharge electrode 45j and electric field lower protecting network 45k are installed in air guide channel 43, and absorption strainer 45i, High voltage discharge electrode 45j is folded between electric field upper protecting network 45h, electric field lower protecting network 45k, and booster power device 45g is set to purification High voltage discharge electrode 45j electrion is provided in gas module 4, to generate the high pressure plasma-based column for having plasma-based ion, keeps gas logical It crosses the control of purification actuator 44 to import in air guide channel 43, institute's oxygen-containing molecules and hydrone electricity in gas is made by plasma-based ion From generation cation (H⁺) and anion (O₂ ^-), and the substance that hydrone is attached with around ion is attached to the table of virus and bacterium After face, under the action of chemical reaction, the active oxygen (hydroxyl, OH yl) of strong oxidizing property can be converted to, thus seize virus and The hydrogen of bacterial surface protein is decomposed (oxygenolysis), and to reach the effect of purification gas, certain clean unit 45 is one It can also cooperate strainer 45a in air guide channel 43 when kind of anion unit, to reinforce the effect of purification gas, wherein strainer 45a It can be electrostatic strainer, active carbon filter net or efficient filter (HEPA).

It is above-mentioned to illustrate for the characteristics of purification gas module 4, and actuator 44 is purified as gas transport, it can be a kind of miniature Pump configuration, the structure of micropump and makees flowing mode such as above-mentioned explanation, and just it will not go into details herein.

Certainly, this case gas actuator 24, particle actuator 36 and purification actuator 44 are in addition to that can be above-mentioned miniature Outside pump configuration, it also may respectively be the structure of a bellows micropump 20 and implement gas transport as flowing mode.Please refer to figure 9, Figure 10 A to Figure 10 C, bellows micropump 20 include the fumarole piece 201 sequentially stacked, chamber frame 202, actuation body 203, Insulating frame 204 and conductive frame 205；Fumarole piece 201 contains multiple connector 201a, a suspension piece 201b and one The flexible vibration of hollow bore 201c, suspension piece 201b, multiple connector 201a are adjacent to the periphery of suspension piece 201b, this implementation Example in, its quantity of connector 201a be 4, be adjacent to 4 corners of suspension piece 201b respectively, but not this to be limited；Hollow hole Hole 201c is formed in the center of suspension piece 201b；The carrying of chamber frame 202 is stacked and placed on suspension piece 201b；Actuation body 203 Carrying is stacked and placed in chamber frame 202, and contains a piezoelectricity support plate 203a, adjustment a sounding board 203b, a piezoelectric board 203c, Wherein, piezoelectricity support plate 203a carrying is stacked and placed in chamber frame 202, and adjustment sounding board 203b carrying is stacked and placed on piezoelectricity support plate 203a On, piezoelectric board 203c carrying is stacked and placed on adjustment sounding board 203b, for deformation occurs after application voltage to drive piezoelectricity support plate 203a and adjustment sounding board 203b carry out reciprocating bending vibration；Insulating frame 204 is then the pressure that carrying is stacked and placed on actuation body 203 On electric support plate 203a, conductive frame 205 carrying be stacked and placed on Insulating frame 204, wherein actuation body 203, chamber frame 202 and A resonator chamber 206 is formed between suspension piece 201b.

Figure 10 A to Figure 10 C is please referred to again, is 20 illustrative view of bellows micropump of this case.Please referring initially to Fig. 9 and Figure 10 A, bellows micropump 20 are fixedly installed by multiple connector 201a, and an air-flow chamber is formed on 201 bottom of fumarole piece 207；Referring again to Figure 10 B, when applying a voltage to the piezoelectric board 203c of actuation body 203, piezoelectric board 203c is opened because of piezoelectric effect Begin to generate deformation and synchronous drive adjustment sounding board 203b and piezoelectricity support plate 203a, at this point, fumarole piece 201 can be because of Helmholtz Resonance (Helmholtz resonance) principle is driven together so that actuation body 203 moves up, due to actuation body 203 to Upper displacement, so that the volume of the air-flow chamber 207 of 201 bottom surface of fumarole piece increases, air pressure inside forms negative pressure, in bellows Gas outside micropump 20 will enter air-flow chamber 207 by the gap of the connector 201a of fumarole piece 201 because of barometric gradient And carry out collection pressure；Figure 10 C is finally please referred to, gas constantly enters in air-flow chamber 207, makes the air pressure in air-flow chamber 207 Positive pressure is formed, at this point, actuation body 203 is moved down by voltage driving, by the volume of compressed air stream chamber 207, and pushes gas Gas in chamber 207 is flowed, so that gas is entered 20 rear profile of bellows micropump and pushes discharge, realize the transport flow of gas.

The bellows micropump 20 of certain this case can also be the MEMS produced by way of micro electronmechanical processing procedure Gas pump, wherein fumarole piece 201, chamber frame 202, actuation body 203, Insulating frame 204 and conductive frame 205 can all lead to It crosses face type micro-processing technology to be made, to reduce the volume of bellows micropump 20.

It is please referred to shown in Fig. 3 and Figure 11 again, this case health monitoring device 10 further includes a power supply module 6, provides storage Electric energy and output electric energy are deposited, power supply module 6 can be a battery module, provide power output to biometric monitor module 1, gas The electrical running of monitoring modular 2, particulate matter monitoring module 3, purification gas module 4 and control module 5, and power supply module 6 is had Line transmission receives the supplied electric energy of an external powering device 8 and is stored, that is, can use a USB, a mini-USB, one Micro-USB at least one wire transmission interface connection external powering device 8 and power supply module 6 between with storage and it is defeated Electric energy out, alternatively, power supply module 6 is stored with the supplied electric energy of one external powering device of radio transceiver 8, also With using a wireless charging element wireless transmission interface connection external powering device 8 and power supply module 6 between with storage and it is defeated Electric energy out, and external powering device 8 can be at least one of a charger and mobile power source.

It is please referred to shown in Fig. 3 and Figure 11 again, control module 5 includes that a microprocessor 51, a communicator 52 and a whole world are fixed Position system element 53.Wherein communicator 52 includes an an Internet of Things communication element 52a and data communication element 52b, Internet of Things Netcom The health data information and gas-monitoring module 2 and particulate matter monitoring module 3 of news element 52a reception biometric monitor module 1 Monitoring data information, and transmit and send multiple information to an outside connection device storage, record and display, and Internet of Things Netcom News element 52a sends the narrowband Internet of things device of signal to transmit with narrow frequency telecommunication technology.And this external connection dress It sets and passes through networking relay station 9b comprising a networking relay station 9b and a cloud data processing equipment 9c, Internet of Things communication element 52a Multiple information is transmitted again to be stored, noted down and shown to cloud data processing equipment 9c；And data communication element 52b is received The health data information and gas-monitoring module 2 of biometric monitor module 1 and the monitoring data letter of the particulate matter monitoring module 3 Breath, and transmit the multiple information of transmission to outside connection device storage record and show, and data communication element 52b passes through cable modem It interrogates transmission interface and sends multiple information, and this wire communication transmission interface is a USB, a mini-USB, a micro-USB At least one, alternatively, data communication element 52b sends the information by wireless communication transmission interface, and this channel radio News transmission interface be a Wi-Fi module, a bluetooth module, a radio frequency identification module and a near field communication module at least One of them and data communication element 52b are transmitted and are sent multiple information to outside connection device, this external connection device packet Link device 9a containing a mobile communication, mobile communication connection device 9a receives the data communication element transmission and sends multiple information It stored, noted down and is shown, and mobile communication connection device 9a can be for mobile phone, smartwatch, Intelligent bracelet at least within One of；Alternatively, data communication element 52b transmission, which sends multiple information, links device to outside, this external connection device includes One mobile communication links device 9a, an a networking relay station 9b and cloud data processing equipment 9c, and mobile communication links device 9a Multiple information is received, multiple information is retransmited and transfers to cloud data processing equipment 9c by the relay station 9b that networks and stored up Deposit, note down and show, and this mobile communication connection device 9a can for mobile phone, laptop, tablet computer at least within it One.

Also, above-mentioned mobile communication connection device 9a can link a notification processing system 9d, mobile communication links device 9a The monitoring data information for receiving gas-monitoring module 2 and particulate matter monitoring module 3 is able to notification information warning, with transmission notification police Show information to notification processing system 9d, to start air quality notification mechanism, this air quality notification mechanism provides use for one Person carries out the protection notification of wearing mask and air quality notification mechanism is one to provide instant air quality map to using Person, and prompting should carry out avoiding separate measure.

Above-mentioned mobile communication connection device 9a can also link a notification processing unit 9e, and mobile communication connection device 9a connects The monitoring data information for receiving gas-monitoring module 2 and the particulate matter monitoring module 3 is able to notification information warning, with transmission notification police Show information to processing unit 9e is notified to, to start air quality processing, notification processing unit 9e can be an at least intelligent appliance, and Intelligent appliance can be an air cleaner, a dehumidifier, an exhaust fan, an electrically operated gate, a motorized window, an automated cleaning machine People, an air conditioner ... etc., but not limited to this, improves air quality by the actuation simultaneously of one or more intelligent appliances, Such as: while electrically operated gate, motorized window being closed, and starting air cleaner to improve suspended particulates or thin suspended particulates etc., it borrows By the starting of notification processing unit 9e, the air quality around user can be improved in time, and work as user's surrounding air After quality improving, after notification processing unit 9e receives the air quality information of logical mobile communication connection device 9a, it can stop at once Only actuation.

In addition, the health monitoring device 10 of this case also can further include a display (not shown), control module 5 is transmitted The health data information and gas-monitoring module 2 of biometric monitor module 1 and the monitoring data letter of particulate matter monitoring module 3 Thus display is shown breath.

Certainly, the health monitoring device 10 of this case can be coupled to formation one on clothes in specific implementation and have with oneself at any time The intelligent clothing of the function of the record of monitoring health, monitoring ambient air quality and offer purification air is good for as shown in figure 12 Health monitoring device 10 can be hung to be implemented on one clothes 101 of positioning, and health monitoring device 10 as shown in figure 13 can hang one trousers of positioning Implement on son 102.Alternatively, health monitoring device 10 can directly be worn on user and form one and have with oneself that monitoring is strong at any time The device of the function of Kang Jilu, monitoring ambient air quality and offer purification air, as shown in figure 14, health monitoring device 10 combine a telescopic band 103, are implemented with being worn on user.

In conclusion this case provides a kind of health monitoring device, health data is provided using biometric monitor module Information, and combine gas-monitoring module and particulate matter monitoring module to provide monitoring data information, and mention in conjunction with purification gas module It is breathed for air cleaning, and multiple information is transmitted to external connection device storage, record and display, letter can be made instantly available Breath can prevent or flee from immediately to make the people at warning informing in the environment, avoid causing by the gas exposure in environment Health Impact and injury reach with oneself monitoring health record at any time, monitor ambient air quality and provide purification and is empty The benefits such as gas.

This case appointed as person familiar with the technology apply craftsman think and be it is all as modify, it is so neither de- such as attached claim Be intended to Protector.

[symbol description]

1: biometric monitor module

10: health monitoring device

101: clothes

102: trousers

103: telescopic band

11: photoelectric sensor

12: pressure sensor

13: impedance transducer

14: light-emitting component

15: health monitoring processor

2: gas-monitoring module

20: bellows micropump

201: fumarole piece

201a: connector

201b: suspension piece

201c: hollow bore

202: chamber frame

203: actuation body

203a: piezoelectricity support plate

203b: adjustment sounding board

203c: piezoelectric board

204: Insulating frame

205: conductive frame

206: resonator chamber

21: compartment body

211: partition

212: first compartment

213: second compartment

214: notch

215: opening

216: venthole

217: accommodation groove

22: support plate

221: blow vent

23: gas sensor

24: gas actuator

241: influent stream plate

241a: flow-in hole

241b: busbar channel

241c: confluence chamber

242: resonance plate

242a: hollow hole

242b: movable part

242c: fixed part

243: piezoelectric actuator

243a: suspension board

243b: outline border

243c: bracket

243d: piezoelectric element

243e: gap

243f: protrusion

244: the first insulating trips

245: conductive sheet

246: the second insulating trips

247: cavity space

3: particulate matter monitoring module

31: vent entrance openings

32: aeration vent

33: particulate matter monitoring pedestal

331: bearing slot

332: monitoring channel

333: beam channel

334: accommodation chamber

34: carrying partition

341: communication port

35: laser emitter

36: particle actuator

37: particle sensor

38: first compartment

39: second compartment

4: purification gas module

41: air guide entrance

42: air guide outlet

43: air guide channel

44: purification actuator

45: clean unit

45a: strainer

45b: photocatalyst

45c: ultraviolet radiator

45d: nanometer light pipe

45e: electrode wires

45f: collecting plate

45g: booster power device

45h: electric field upper protecting network

45i: absorption strainer

45j: high voltage discharge electrode

45k: electric field lower protecting network

5: control module

51: microprocessor

52: communicator

52a: Internet of Things communication element

52b: data communication element

53: global positioning system element

6: power supply module

7: ontology

71: chamber

72: the first air inlets

73: the second air inlets

74: gas outlet

75: monitoring regional window

8: external powering device

9a: mobile communication links device

9b: networking relay station

9c: cloud data processing equipment

9d: notification processing system

9e: notification processing unit

L: length

W: width

H: height

A-A: tangent line

B: air flow path.

Claims (47)

1. a kind of health monitoring device, characterized by comprising:

One ontology, the length with 3.5mm~4.5mm, the width of 3.5mm~4.5mm, the height of 0.6mm~0.8mm are internal It is equipped with one first air inlet, one second air inlet, a gas outlet and a monitoring regional window with a chamber and the ontology, First air inlet, second air inlet, the gas outlet and the monitoring regional window respectively with the chamber；

One biological characteristic monitoring modular, is set in the chamber of the ontology, and is positioned at the monitoring region the window's position, includes One photoelectric sensor, a pressure sensor, an impedance transducer, at least a light-emitting component and a health monitoring processor, the light Electric transducer, the pressure sensor and the impedance transducer are bonded user's skin histology, generate a detection signal and are supplied to this Health monitoring processor is converted to the health data information and exports；

One gas-monitoring module, is set in the chamber of the ontology, and is positioned at the first air inlet position of the ontology, packet Containing a gas sensor and a gas actuator, gas actuator control gas imports the gas-monitoring inside modules, and passes through It crosses the gas sensor to be monitored, to generate a gas-monitoring data information；

One particulate matter monitoring module, is set in the chamber of the ontology, and positions and correspond to first air inlet and the gas outlet Between, it include a particle actuator and a particle sensor, particle actuator control gas imports in the particulate matter monitoring module Portion, the partial size and concentration of contained suspended particulates in the particle sensor detection gas, to generate a particulate matter monitoring data information；

One purification gas module, setting are positioned in the chamber of the ontology, and are positioned and corresponded to second air inlet and should go out It is logical comprising a purification actuator and a clean unit, and comprising an air guide entrance, air guide outlet and an air guide between port Road, the air guide channel are set between the air guide entrance and air guide outlet, which includes multiple strainers, multiple filter Net is arranged at intervals in the air guide channel, and purification actuator control gas imports the purification gas inside modules, makes the purification Purification unit gas；And

One control module, setting is positioned in the chamber of the ontology, to control the biometric monitor module, the gas-monitoring The starting of module, the particulate matter monitoring module and the purification gas module operates, and by the health data information, the gas-monitoring number It is believed that breath and particulate matter monitoring data information are transmitted and are exported.

2. health monitoring device as described in claim 1, which is characterized in that the gas-monitoring module include a compartment body and One support plate, which is arranged the first air inlet position for being positioned at the ontology, and distinguishes inside by a partition and form one First compartment and a second compartment, the partition have a notch, are interconnected for the first compartment and the second compartment, and this One compartment has an opening, which has a venthole, and the support plate is mounted below the compartment body and encapsulate and It is electrically connected the gas sensor, and the support plate is equipped with a blow vent, corresponding to the venthole of the second compartment, and the gas Body sensor stretches through the opening and setting in the first compartment, which is mounted in the second compartment, and sets The gas sensor isolation being placed in the first compartment, controls gas with the gas actuator and is imported by first air inlet, And passed through the gas sensor and be monitored, then the second compartment is entered by the notch and passes through the venthole, and is passed through The blow vent discharge of the support plate is crossed in outside the gas-monitoring module, and is discharged by the gas outlet of the ontology.

3. health monitoring device as described in claim 1, which is characterized in that the gas sensor include an oxygen sensor, One of one carbon monoxide transducer and a carbon dioxide sensor or combinations thereof.

4. health monitoring device as described in claim 1, which is characterized in that the gas sensor include a temperature sensor and One of one humidity sensor or combinations thereof.

5. health monitoring device as described in claim 1, which is characterized in that the gas sensor includes a volatile organic matter Sensor.

6. health monitoring device as described in claim 1, which is characterized in that the gas sensor include a bacterium sensor, One viral one of sensor and a microbiological sensor or combinations thereof.

7. health monitoring device as described in claim 1, which is characterized in that the particulate matter monitoring module include ventilate into Mouth, an aeration vent, a carrying partition, a particulate matter monitoring pedestal and a laser emitter, vent entrance openings correspondence are positioned at this The second air inlet position of ontology, and the aeration vent then corresponds to the gas outlet position of the ontology, and the particulate matter monitoring Module interior space defines a first compartment and a second compartment by the carrying partition, and the carrying partition has a connection Mouthful, to be connected to the first compartment and the second compartment, and the first compartment is connected to the vent entrance openings, and the second compartment is logical with this Gas outlet, but the particulate matter monitoring pedestal is adjacent to the carrying partition, and is placed in the first compartment, has a bearing Slot, a monitoring channel, a beam channel and an accommodation chamber, the bearing slot directly vertically correspond to the vent entrance openings, and the particle Actuator is set to the bearing slot position and is set to monitoring channel side accommodating in the one end in the monitoring channel and the accommodation chamber Position the laser emitter, and the beam channel be connected between the accommodation chamber and the monitoring channel, and directly vertically across The monitoring channel guides the emitted laser beam of the laser emitter and exposes in the monitoring channel and the particle sensor It is set to the other end in the monitoring channel, entered in the bearing slot with particle actuator control gas by the vent entrance openings and is led Enter in the monitoring channel, and irradiated by the emitted laser beam of the laser emitter, is passed with projecting luminous point to the particle in gas The partial size and concentration of contained suspended particulates in sensor surfaces detection gas, after monitoring gas and by the aeration vent by this The gas outlet of body is discharged.

8. health monitoring device as described in claim 1, which is characterized in that the particle sensor is PM2.5 sensor.

9. health monitoring device as described in claim 1, which is characterized in that the purification gas module is adjacent to the particulate matter monitoring Module, corresponding the second air inlet position for navigating to the ontology of the air guide entrance, and air guide outlet corresponds to the ontology The gas outlet position and the purification actuator and the clean unit are setting in the air guide channel, with the purification actuator control Gas processed is entered by second air inlet of the ontology and is imported in the air guide channel, makes net by the clean unit by gas Change, then the gas outlet discharge by the ontology is exported by the air guide.

10. health monitoring device as described in claim 1, which is characterized in that the gas actuator, is somebody's turn to do at the particle actuator Purifying actuator is respectively a micropump, which includes:

One influent stream plate has an at least flow-in hole, at least a busbar channel and a confluence chamber, and wherein the flow-in hole is for importing gas Body, the flow-in hole is corresponding to penetrate through the busbar channel, and the busbar channel is flowed to the confluence chamber, makes the imported gas of the flow-in hole Body is able to converge into the confluence chamber；

One resonance plate is engaged on the influent stream plate, has a hollow hole, a movable part and a fixed part, which is located at should At resonance plate center, and corresponding with the confluence chamber of the influent stream plate, and the movable part is set to around the hollow hole and with this The opposite region of confluence chamber, and the fixed part is set to the outer peripheral edge portion of the resonance plate and is posted solid on the influent stream plate；With And

One piezoelectric actuator fits on the resonance plate；

Wherein, between the resonance plate and the piezoelectric actuator there is a cavity space to make when so that the piezoelectric actuator being driven Gas is imported by the flow-in hole of the influent stream plate, is collected in the confluence chamber through the busbar channel, is passed through the resonance plate The hollow hole generates resonance transfer gas by the movable part of the piezoelectric actuator and the resonance plate.

11. health monitoring device as claimed in claim 10, which is characterized in that the piezoelectric actuator includes:

One suspension board has a square kenel, flexible vibration；

One outline border, around the outside for being set to the suspension board；

An at least bracket is connected between the suspension board and the outline border, to provide suspension board resilient support；And

One piezoelectric element has a side length, which is less than or equal to a side length of the suspension board, and the piezoelectric element is attached at On one surface of the suspension board, to apply voltage to drive the suspension board bending vibration.

12. health monitoring device as claimed in claim 10, which is characterized in that the micropump further includes one first insulation Piece, a conductive sheet and one second insulating trip, wherein the influent stream plate, the resonance plate, the piezoelectric actuator, first insulating trip, should Conductive sheet and second insulating trip are sequentially stacked in conjunction with setting.

13. health monitoring device as claimed in claim 11, which is characterized in that the suspension board includes a protrusion, is set to this Suspension board attaches opposite another surface on the surface of the piezoelectric element.

14. health monitoring device as claimed in claim 13, which is characterized in that the protrusion be with etch process produce one at Shape protrudes from the convex architecture on opposite another surface on the surface that the suspension board attaches the piezoelectric element.

15. health monitoring device as claimed in claim 10, which is characterized in that the piezoelectric actuator includes:

One suspension board has a square kenel, flexible vibration；

One outline border, around the outside for being set to the suspension board；

An at least bracket, joint forming is between the suspension board and the outline border, to provide suspension board resilient support, and keeps this outstanding One surface of kickboard and a surface of the outline border are formed as non-co-planar structure, and make a surface and the resonance plate of the suspension board Keep a cavity space；And

One piezoelectric element has a side length, which is less than or equal to a side length of the suspension board, and the piezoelectric element is attached at On one surface of the suspension board, to apply voltage to drive the suspension board bending vibration.

16. health monitoring device as described in claim 1, which is characterized in that the gas actuator, is somebody's turn to do at the particle actuator Purifying actuator is respectively a bellows micropump, which includes:

One fumarole piece, includes multiple connectors, a suspension piece and a hollow bore, and the flexible vibration of suspension piece is multiple Connector is adjacent to the suspension piece periphery, and the hollow bore is formed in the center of the suspension piece, the bellows micropump It is fixedly installed by multiple connector, multiple connector, which provides, flexibly supports the suspension piece, and between the fumarole piece bottom An air-flow chamber is formed, and forms an at least gap between multiple connector and the suspension piece；

One chamber frame, carrying are stacked and placed on the suspension on piece；

One actuation body, carrying are stacked and placed in the chamber frame, generate reciprocally bending vibration to receive voltage；

One Insulating frame, carrying are stacked and placed in the actuation body；And

One conductive frame, carrying is folded to be set on the Insulating frame；

Wherein, a resonator chamber is formed between the actuation body, the chamber frame and the suspension piece, by driving the actuation body with band It moves the fumarole piece and generates resonance, so that the suspension piece of the fumarole piece is generated reciprocally vibration displacement, to cause the gas Enter the air-flow chamber by an at least gap to be then exhausted from, realizes the transport flow of the gas.

17. health monitoring device as claimed in claim 16, which is characterized in that the actuation body includes:

One piezoelectricity support plate, carrying are stacked and placed in the chamber frame；

One adjustment sounding board, carrying are stacked and placed on the piezoelectricity support plate；And

One piezoelectric board, carrying are stacked and placed on the adjustment sounding board, and the piezoelectricity support plate and the adjustment is driven to resonate to receive voltage Plate generates reciprocally bending vibration.

18. health monitoring device as described in claim 1, which is characterized in that the gas actuator, is somebody's turn to do at the particle actuator Purifying actuator is respectively a MEMS gas pump.

19. health monitoring device as described in claim 1, which is characterized in that further include a power supply module, provide storage And one electric energy of output, the power output to the biometric monitor module, the particulate matter monitoring module, are somebody's turn to do at the gas-monitoring module Purification gas module and the control module are electrically operated for it.

20. health monitoring device as claimed in claim 19, which is characterized in that the power supply module is received outside one with wire transmission The electric energy that portion's power supply unit is supplied is stored.

21. health monitoring device as claimed in claim 19, which is characterized in that the power supply module with radio transceiver one outside The electric energy that portion's power supply unit is supplied is stored.

22. health monitoring device as described in claim 1, which is characterized in that the control module is led to comprising a microprocessor, one Believe device and a global positioning system element, wherein the communicator includes an Internet of Things communication element and a data communication element.

23. health monitoring device as claimed in claim 22, which is characterized in that the Internet of Things communication element receives the health number It is believed that breath, the gas-monitoring data information and the particulate matter monitoring data information, and transmit and send the health data information, the gas Monitoring data information and the particulate matter monitoring data information to an outside connection device storage, record and are shown.

24. health monitoring device as claimed in claim 23, which is characterized in that the Internet of Things communication element is wireless with narrow frequency Electric mechanics of communication transmits the narrowband Internet of things device for sending signal.

25. health monitoring device as claimed in claim 23, which is characterized in that it includes a networking relaying that the outside, which links device, Stand and a cloud data processing equipment, the Internet of Things communication element by the networking relay station transmit again the health data information, The gas-monitoring data information and the particulate matter monitoring data information to a cloud data processing equipment are stored, noted down and are shown Show.

26. health monitoring device as claimed in claim 22, which is characterized in that the data communication element receives the biological characteristic The health data information, the gas-monitoring data information and particulate matter monitoring data information of monitoring modular, and transmitting transmission should Health data information, the gas-monitoring data information and the particulate matter monitoring data information to an outside connection device are stored, are noted down And display.

27. health monitoring device as claimed in claim 26, which is characterized in that the data communication element passes through a wire communication Transmission interface sends the health data information, the gas-monitoring data information and the particulate matter monitoring data information, the wire communication Transmission interface is at least one of a USB, a mini-USB, a micro-USB.

28. health monitoring device as claimed in claim 26, which is characterized in that the data communication element passes through a wireless telecommunications Transmission interface sends the health data information, the gas-monitoring data information and the particulate matter monitoring data information, the wireless telecommunications Transmission interface be a Wi-Fi module, a bluetooth module, a radio frequency identification module and a near field communication module at least within One of.

29. health monitoring device as claimed in claim 26, which is characterized in that it includes a mobile communication that the outside, which links device, Link device, mobile communication connection device receives the data communication element transmission and sends the health data information, gas prison Measured data information and the particulate matter monitoring data information are stored, noted down and are shown.

30. health monitoring device as claimed in claim 29, which is characterized in that the mobile communication link device be a mobile phone, At least one of one smartwatch, an Intelligent bracelet.

31. health monitoring device as claimed in claim 26, which is characterized in that it includes a mobile communication that the outside, which links device, Link device, a networking relay station and a cloud data processing equipment, mobile communication connection device receives health data letter Breath, the gas-monitoring data information and the particulate matter monitoring data information, then the health data information, the gas-monitoring data are believed Breath and the particulate matter monitoring data information by the networking relay station transfer to the cloud data processing equipment stored, note down and Display.

32. health monitoring device as claimed in claim 31, which is characterized in that the mobile communication link device be a mobile phone, At least one of one laptop, a tablet computer.

33. the health monitoring device as described in claim 29 or 31, which is characterized in that the mobile communication links device connection one It is notified to processing system, mobile communication connection device receives the gas-monitoring data information and the particulate matter monitoring data information obtains With one notification information warning of transmission to the notification processing system, to start air quality notification mechanism.

34. the health monitoring device as described in claim 29 or 31, which is characterized in that the mobile communication links device connection one It is notified to processing unit, mobile communication connection device receives the gas-monitoring data information and the particulate matter monitoring data information obtains With one notification information warning of transmission to the notification processing unit, to start air quality processing.

35. health monitoring device as described in claim 1, which is characterized in that further include a display, the control module Transmit the health data information, the gas-monitoring data information and the particulate matter monitoring data information of the biometric monitor module It is shown by the display.

36. health monitoring device as described in claim 1, which is characterized in that the photoelectric sensor is bonded user's skin group After knitting, the light source which returns is transmitted through by the light emitted source of the light-emitting component and is connect by the photoelectric sensor Receive, and generate detection signal be supplied to the health monitoring processor be converted to the health data information output.

37. health monitoring device as claimed in claim 36, which is characterized in that the health data information is a heart rate data.

38. health monitoring device as claimed in claim 36, which is characterized in that the health data information is an electrocardiogram number According to.

39. health monitoring device as claimed in claim 36, which is characterized in that the health data information is blood pressure data.

40. health monitoring device as described in claim 1, which is characterized in that the pressure sensor is bonded user's skin group After knitting, which is supplied to generation detection signal and is converted to health data information output, the health data Information is a respiratory rate data.

41. health monitoring device as described in claim 1, which is characterized in that the impedance transducer is bonded user's skin group After knitting, which is supplied to generation detection signal and is converted to health data information output, the health data Information is a blood glucose level data.

42. health monitoring device as described in claim 1, which is characterized in that the length of the ontology is that 3.8mm~4.2mm is Most preferably.

43. health monitoring device as described in claim 1, which is characterized in that the width of the ontology is that 3.8mm~4.2mm is Most preferably.

44. health monitoring device as described in claim 1, which is characterized in that the height of the ontology is 0.65mm~0.75mm It is best.

45. health monitoring device as described in claim 1, which is characterized in that the health monitoring device can hang one clothing of positioning Implement on clothes.

46. health monitoring device as described in claim 1, which is characterized in that the health monitoring device can hang one trousers of positioning Implement on son.

47. health monitoring device as described in claim 1, which is characterized in that the health monitoring device combines a telescopic band, with It is worn on user and implements.