CN209003964U - Wearable device - Google Patents

Abstract

A kind of wearable device, comprising: ontology, gas actuator, air bag, sensor and drive control module；Ontology has accommodating box slot；Gas actuator is set in the accommodating box slot of ontology；Air bag is arranged relative to gas actuator, and be connected；Drive control module is set in the accommodating box slot of ontology；Sensor is set on the drive control module, for being connected with the gas actuator；Wherein, drive control module controls gas actuator running, and gas is made to be transmitted to air bag by gas actuator, and air bag inflates bulging with the privileged site of fixing wearing user, through sensor to sense the physiologic information of wearing user, and drive control module is sent to carry out physiologic information record.

Description

Wearable device

Technical field

This case be about a kind of wearable device, it is espespecially a kind of to use piezoelectric actuated gas actuator to sense physiology letter The wearable device of breath.

Background technique

In stressing in the increasingly huge society now of quick and personal pressure, the consciousness for pursuing personal health gradually comes back hair Exhibition, is that can derive the healthy situation for thinking to monitor or inspect regularly itself with common people.In general, tradition is raw for human body The data for managing health and fitness information measure mainly through fixed sphygmomanometer or bulky detecting instrument, these detecting instruments In generally comprise gas pump, gasbag, sensor, gas bleeder valve, the battery ... of motor type and wait elements, the wherein gas pump of motor type It is easy to produce the situation of frictional dissipation, and bulky, the unfavorable regular use after the assembling of multiple element, if so adopting With the gas pump of the motor type of small volume, then its loss rate faster and can will consume more energy.

In order to common people to be convenient for can be regular monitoring itself healthy situation, and keep monitoring device easy to carry, mesh Preceding health monitoring device wearable on the market is growing day by day.But from the point of view of wearable health monitoring device common on the market, It is usually adopted in a manner of optical detection and is detected, however, the precision of the mode of this optical detection is not high, therefore leads often It causes error amount to generate, and can not effectively obtain trust data, in this way, which the correlation that user can not obtain own health is accurate Data, the error be easy to causeing on determining.

Usually, it is intended to sense the physiologic information of a person under test, it will usually as shown in Figure 1, selection such as head 1a, heart portion The positions such as position 1b, wrist 1c or ankle 1d are monitored, multiple position be most easily sensed in human body pulse blood pressure and The position of the information such as heartbeat is can quickly and efficiently recognize the life of person under test through being sensed in multiple position Manage health and fitness information.If, then can be because of it precisely however, as previously mentioned, adopt the wearable health monitoring device with optical detection It spends not high and causes to be difficult to accept and believe its detected next Data Data, but according to the aforementioned general in the streets higher blood of confidence level Depressor or other measuring instruments then again because the volume of multiple instrument is excessively huge, and are unable to reach light, thin, portable Target.

Therefore, above-mentioned known technology missing can be improved by how developing one kind, and personal health monitoring device can be made to reach volume Small, micromation, easy to carry, power saving and the high wearable device of precision, actually problem in the urgent need to address at present.

Utility model content

The main purpose of this case, which is to provide, a kind of uses piezoelectric actuated gas actuator to sense wearing for physiologic information Formula device is worn, by piezoelectric actuated gas actuator by gas transport to air bag, air bag is made to inflate bulging, then penetrate and be set to The physiologic information of the sensor sensing wearing user of its relative position, in order to being had using detecting instrument for solution known technology Volume it is big, be difficult to the missing such as be thinned, portable purpose and power consumption can not be reached, while more solving another known technology The not high problem of the health monitoring device precision of used optical detection.

In order to achieve the above object, a broader state sample implementation of this case is to provide a kind of wearable device, comprising: an ontology, With a banded structure and an accommodating box slot；One gas actuator is set in the accommodating box slot of the ontology；One air bag, phase The gas actuator is set in the accommodating box slot, and is connected with the gas actuator, inflatable bulging is in the band The inner surface of shape structure；One drive control module is set in the accommodating box slot of the ontology；One sensor is set to the drive In dynamic control module, for being connected with the gas actuator；And a transmission module, it is set to the accommodating box slot of the ontology In, and be electrically connected with the drive control module；Whereby, an enabling signal of the transmission module to receive an external device (ED) is used To drive the drive control module to control gas actuator running, gas is made to be transmitted to the air bag by the gas actuator, it should Air bag inflates bulging with the privileged site of fixing wearing user, and all one's life of wearing user is sensed through the sensor Information is managed, and the physiologic information is sent to the drive control module, is finally transferred to the physiologic information through transmission module The external device (ED).

Detailed description of the invention

Fig. 1 show the position view that known person under test measures physiologic information.

Fig. 2A show the diagrammatic cross-section of this case wearable device.

Fig. 2 B show the air bag inflation schematic diagram of this case wearable device.

Fig. 3 show the gas actuator appearance diagram of this case wearable device.

Fig. 4 A show gas actuator decomposition diagram shown in Fig. 3.

Fig. 4 B show gas actuator diagrammatic cross-section shown in Fig. 3

Fig. 5 A to Fig. 5 C is that gas actuator collection shown in Fig. 4 B presses illustrative view.

Fig. 5 D is gas actuator release illustrative view shown in Fig. 4 B.

Fig. 6 is that this case wearable device is worn on the schematic diagram in the wrist of user.

Fig. 7 is the driving configuration diagram of this case wearable device.

Description of symbols

1a: head

1b: cardia

1c: wrist

1d: ankle

2: wearable device

21: ontology

211: banded structure

212: accommodating box slot

22: gas actuator

22A: minitype gas transmitting device

22B: micro valve device

220: temporary chamber

221: inlet plate

221a: air inlet

221b: confluence round

221c: confluence chamber

222: resonance plate

222a: hollow bore

222b: movable part

222c: fixed part

223: piezoelectric actuated part

223a: suspension board

223b: outline border

223c: bracket

223d: piezoelectric element

223e: gap

223f: protrusion

224a, 224b: insulating trip

225: conductive sheet

226: gas collection plate

226a: gas collection chamber

226b: the first through hole

226c: the second through hole

226d: the first release chamber

226e: first outlet chamber

226f: protrusion structure

227: valve sheet

227a: valve opening

228: exit plate

228a: release through-hole

228b: outlet through hole

228c: connection runner

228d: the second release chamber

228e: second outlet chamber

226f: protrusion structure

288g: position limiting structure

229: outlet

23: air bag

24: sensor

25: drive control module

26: transmission module

27: screen

3: external device (ED)

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 inherently illustrated as being used, and nand architecture is in limitation this case.

It please refers to shown in 2A, 2B figure and Fig. 7, the wearable device 2 of this case is worn needed for it for wearing user The privileged site sensed, and the privileged site be can be as shown in Figure 1, as head 1a, cardia 1b, wrist 1c, foot Wrist 1d or other be intended to the privileged site sensed, be not limited thereto.In this present embodiment, wearable device 2 includes extremely A few ontology 21, at least a gas actuator 22, an air bag 23, at least a sensor 24, an at least drive control module 25 with And an at least transmission module 26, in embodiment below illustrate in ontology 21, gas actuator 22, air bag 23, sensor 24, Drive control module 25, transmission module 26 its quantity use without exception one for example, but not limited to this, ontology 21, gas Actuator 22, air bag 23, sensor 24, drive control module 25, transmission module 26 also can be multiple combinations；Wherein ontology 21 With a banded structure 211 and an accommodating box slot 212；Gas actuator 22, drive control module 25 and transmission module 26 are set It is placed in the accommodating box slot 212 of ontology 21, wherein drive control module 25 is electric with gas actuator 22 and transmission module 26 respectively Connection；Air bag 23 is set to the inner surface of banded structure 211 relative to gas actuator 22, and is connected with gas actuator 22 It is logical；Drive control module 25 is also similarly provided in the accommodating box slot 212 of ontology 21, be can control gas actuator 22 to operate, is made Gas is transmitted to air bag 23 via gas actuator 22, and air bag 23 is made to inflate bulging (as shown in Figure 2 B), is made with compressing wearing The privileged site that user is dressed；And sensor 24 is set on drive control module 25, as sensing wearing user's Physiologic information is used, and multiple physiologic information can be sent in drive control module 25, to be noted down.

Please refer to Fig. 2A, in this present embodiment, the banded structure 211 of wearable device 2 be can be soft or rigid material The endless belt-shaped structure that matter is constituted, may be, for example, silica gel material, plastic cement material, ribbon material, towel material, leather goods material, Metal material or other exercisable relevant materials, are not limited thereto, and are mainly sheathed on wearing user to surround Privileged site on, such as: wrist 1c or ankle 1d, but not limited to this.Certainly, the length of banded structure 211 also not with This is limited, and in some embodiments, banded structure 211 can also be adopted to be constituted with longer ribbon material or towel material Cuff is worn so as to covering in the head 1a of wearing user；It or is that in other embodiments, banded structure 211 also can be It adopts with the auxiliary fixing band of longer plastic cement material, so as to being dressed with monitoring around the chest area for being worn on wearing user The physiologic information of user's cardia 1b.It can adopt as the connection type at 211 both ends of banded structure with the stickup side of devil's felt Formula is by the snap fit that convex-concave is docked or adopts in the form of the common hooking ring of general watchband, and even it also can be Integrally formed cyclic structure etc., connection type are can to appoint Shi Bianhua according to situation is actually applied, and are not limited thereto.

It is please referred to shown in 2A, 2B figure again, in this present embodiment, ontology 21 is the frame structure hollow for a square, this The accommodating box slot 212 of body 21 is located in wherein mainly for gas actuator 22 and drive control module 25, and wearable device 2 more may be used Comprising a screen 27, it is correspondingly arranged in the upper of gas actuator 22, with for showing an information, but not limited to this, in another In a little embodiments, wearable device 2 also can pass through a lid to replace screen 27, to be covered on gas actuator 22.And in In the present embodiment, screen 27 is can be but not be limited to touch control screen, for wearing user can Touch Screen 27 to select to be intended to The information of display, and it may include physiologic information, temporal information, the caller id information ... etc. for dressing user that multiple information, which is, At least one.

It is please referred to shown in Fig. 3, Fig. 4 A and Fig. 4 B again, in this present embodiment, gas actuator 22 is transmitted by minitype gas Device 22A and micro valve device 22B common combination form, and wherein minitype gas transmitting device 22A has inlet plate 221, is total to It shakes the structures such as piece 222, piezoelectric actuated part 223, insulating trip 224a, 224b and conductive sheet 225.Piezoelectric actuated part 223 corresponds to altogether Vibration piece 222 and be arranged, and make inlet plate 221, resonance plate 222, piezoelectric actuated part 223, insulating trip 224a, conductive sheet 225 and separately One insulating trip 224b etc. sequentially stacks setting, and piezoelectric actuated part 223 is by a suspension board 223a, an outline border 223b, at least one Bracket 223c and a piezoelectric element 223d assemble jointly.Micro valve device 22B is then by a gas collection plate 226, a valve Sequentially stack assembly forms for door piece 227 and an exit plate 228 etc., and but not limited to this.In this present embodiment, such as Fig. 4 A institute Show, gas collection plate 226 is not only single plate structure, can also have the frame structure of side wall for periphery, and by the periphery institute structure At side wall and the plate common definition of its bottom go out a gas collection chamber 226a, therefore when the gas actuator 22 of this case is completed Afterwards, then its front can be as shown in Figure 3, it is seen that minitype gas transmitting device 22A is the gas collection chamber for being located in gas collection plate 226 In 226a, and stacked with gas collection plate 226, valve sheet 227 and exit plate 228.And the diagrammatic cross-section that it is completed is then visible Release through-hole 228a and outlet 229 in exit plate 228, to connect with air bag 23, release through-hole 228a is then provided with for outlet 229 The gas in micro valve device 22B is discharged, up to the effect of release.By this minitype gas transmitting device 22A and micro- The assembling of type valving 22B is arranged so that gas from least one on the inlet plate 221 of minitype gas transmitting device 22A into Stomata 221a air inlet, and through the actuation of piezoelectric actuated part 223, and flow through multiple pressure chamber and continue to transmit, and then gas can be made Body is in one-way flow in micro valve device 22B, and by acute build up of pressure in being connected with the outlet 229 of micro valve device 22B In air bag 23, and when release need to be carried out, then regulates and controls the output quantity of minitype gas transmitting device 22A, make gas via miniature valve Release through-hole 228a in the exit plate 228 of door gear 22B and be discharged, to carry out release.

Please continue refering to shown in Fig. 4 A and Fig. 4 B, the inlet plate 221 of minitype gas transmitting device 22A have it is integrally formed into Stomata 221a, confluence round 221b and confluence chamber 221c, and it is temporary in confluence chamber 221c supplied gas, in this present embodiment, The quantity of air inlet 221a is 4, and but not limited to this, inlet plate 221 is through, mainly to keep gas suitable from outside device It answers the effect of atmospheric pressure and is flowed into minitype gas transmitting device 22A from air inlet 221a, and converge round 221b and air inlet Hole 221a connection, and be confluence chamber 221c at the center exchange for the round 221b that converges, and converge chamber 221c and confluence round 221b is connected, and can the gas for entering confluence round 221b from air inlet 221a be guided and be converged and is concentrated to confluence chamber whereby 221c transmitting.

Above-mentioned resonance plate 222 is made of a flexible materials, and but not limited to this, and is had on resonance plate 222 Have a hollow bore 222a, corresponding to inlet plate 221 confluence chamber 221c and be arranged so that gas circulate.

Above-mentioned piezoelectric actuated part 223 includes a suspension board 223a, an an outline border 223b, at least bracket 223c and a pressure Electric device 223d, wherein piezoelectric element 223d is attached on suspension board 223a, generates deformation to apply voltage to drive suspension Plate 223a bending vibration, at least a bracket 223c are to be connected between suspension board 223a and outline border 223b to provide resilient support, And in having more an at least gap 223e at least between a bracket 223c, suspension board 223a and outline border 223b, to supplied gas stream It is logical.Outline border 223b is around the outside for being set to suspension board 223a.The piezoelectric actuated part 223 of this case is caused for the piezoelectricity of a spill Moving part, in this present embodiment, suspension board 223a and outline border 223b form non-co-planar structure, and the surface suspension board 223a is lower than outer The upper surface of frame 223b, and the surface of suspension board 223a is also lower than the lower surface of outline border 223b, and piezoelectric actuated part 223 is made to be presented one The dish configuration of central concave；In addition, the spacing of a temporary chamber 220 is maintained between the surface suspension board 223a and resonance plate 222, The spacing of temporary chamber 220 can be adjusted by at least bracket 223c being formed between suspension board 223a and outline border 223b.And in In the present embodiment, the surface of suspension board 223a also can have a protrusion 223f, the top surface of protrusion 223f and the table of outline border 223b Face is non-co-planar, and in this present embodiment, the top surface of suspension board 223a upper convex portion 223f is lower than the upper surface of outline border 223b, is made convex The spacing of a temporary chamber 220 is formed between portion top surface and resonance plate 222, the spacing for keeping in chamber 220 can be by an at least bracket 223c is adjusted.The spacing of above-mentioned temporary chamber 220 will influence the laser propagation effect of minitype gas transmitting device 22A, therefore tie up Holding the spacing of fixed temporary chamber 220, to provide stable efficiency of transmission for minitype gas transmitting device 22A particularly significant.

The suspension board 223a of the piezoelectric actuated part 223 of this case uses impact style, makes it to lower recess, so that piezoelectric actuated The suspension board 223a of part 223 be recessed to be formed a space with resonance plate 222 constitute an adjustable temporary chamber 220 spacing. Through the suspension board 223a of above-mentioned piezoelectric actuated part 223 to be adopted to the structural improvement for being constituted a temporary chamber 220 with shaped depression, institute The spacing of the temporary chamber 220 needed is able to be formed through between the suspension board 223a and outline border 223b for adjusting piezoelectric actuated part 223 Recess distance complete, effectively simplify the structure design for the spacing for adjusting temporary chamber 220, while also reaching simplified system Journey shortens the advantages that processing time.

In addition, please continue refering to shown in Fig. 4 A and Fig. 4 B, in minitype gas transmitting device 22A with more insulating trip 224a, Conductive sheet 225 and another insulating trip 224b are sequentially to be correspondingly arranged under piezoelectric actuated part 223, and its form is generally The form of outline border 223b corresponding to piezoelectric actuated part 223.In some embodiments, insulating trip 224a, 242b are by that can insulate Material is constituted, such as: plastic cement, but not limited to this, with the use to insulate；In other embodiments, conductive sheet 225 by Conductive material is constituted, such as: metal, but not limited to this, with the use conducted.

It please refers to shown in Fig. 4 B, after inlet plate 221, resonance plate 222 are with the piezoelectric actuated sequentially corresponding assembling of part 223, altogether Vibration piece 222 hollow bore 222a be located under the confluence chamber 221c of inlet plate 221, and resonance plate 222 with it is piezoelectric actuated Temporary chamber 220 is more formed between part 223, is configured to temporarily store gas, and temporary chamber 220 is the hollow hole through resonance plate 222 Hole 222a and be connected at the confluence chamber 221c of inlet plate 221, and the two sides of temporary chamber 220 then can be by piezoelectric actuated part Gap 223e between a 223 at least bracket 223c and be connected with the gas collection plate 226 of micro valve device 22B.

It please continue refering to shown in Fig. 5 A to Fig. 5 C, when minitype gas transmitting device 22A actuation, mainly by piezoelectric actuated part 223 are applied voltage and activate, and using bracket 223c as fulcrum, and suspension board 223a is made to carry out the reciprocating vibration of vertical direction. As shown in Figure 5A, when piezoelectric actuated part 223 is applied voltage and activates downward vibration, resonance plate 222 also can with resonance and Carry out vertical reciprocating vibration, that is, resonance plate 222 correspond to the part of the confluence chamber 221c of inlet plate 221 also can be with The part that bending vibration deformation, i.e. resonance plate 222 correspond to the confluence chamber 221c of inlet plate 221 is considered as resonance plate 222 Movable part 222b is so that when piezoelectric actuated part 223 is bent downwardly vibration, the movable part 222b of resonance plate 222 can be because of stream at this time The bringing into of body pushes and drive that piezoelectric actuated part 223 vibrates, and as piezoelectric actuated part 223 is bent downwardly vibration deformation, Then gas is entered by at least air inlet 221a on inlet plate 221, and through confluence round 221b to be pooled to its center Converge the place chamber 221c, then is flowed downwardly into via on resonance plate 222 with the hollow bore 222a that is correspondingly arranged of chamber 221c that converges Into temporary chamber 220, thereafter, due to the drive vibrated by piezoelectric actuated part 223, resonance plate 222 also can with resonance and into The vertical reciprocating vibration of row.Please continue to refer to shown in Fig. 5 B, the piezoelectric actuated lifting upwards of part 223, at this time resonance plate 222 can Dynamic portion 222b is contacted on the protrusion 223f of the piezoelectric actuated part 223 shifted up, makes region other than the 223f of protrusion together Temporary chamber 220 between the fixed part 222c of vibration 222 two sides of piece reduces, and by the deformation of this resonance plate 222, temporary to compress The volume of chamber 220 is deposited, and closes temporary 220 middle flow space of chamber, promotes the gas in it to push and is flowed to two sides, into And flowing is passed through downwards by the gap 223e between an at least bracket 223c for piezoelectric actuated part 223.Again as shown in Figure 5 C, Resonance plate 222 is resonated upwards by the vibration that piezoelectric actuated part 223 is lifted upwards, the movable part 222b of resonance plate 222 also with Upward position is formed, and then flows into the gas to converge in chamber 221c temporary by the hollow bore 222a of resonance plate 222 again In chamber 220, and outflow minitype gas is passed through downwards via the gap 223e between the bracket 223c of piezoelectric actuated part 223 and is passed Defeated device 22A.It is repeated continuously the above actuation step, can be penetrated defeated under after entering gas constantly from air inlet 221a It send, to achieve the purpose that transmit gas.

Again please refer to shown in Fig. 4 A, Fig. 4 B, the micro valve device 22B of this case is by a gas collection plate 226, a valve sheet 227 and one exit plate 228 etc. sequentially stack assembly form.Gas collection plate 226 has a gas collection chamber 226a of recess formation, one In first release chamber 226d and first outlet chamber 226e and gas collection plate 226 there is the first through hole 226b and second to pass through One end of perforation 226c, the first through hole 226b and the second through hole 226c are connected with gas collection chamber 226a, and the other end is then It is connected respectively with the first release chamber 226d of gas collection plate 226 and first outlet chamber 226e, wherein the first release chamber 226d and first outlet chamber 226e be respectively formed at opposite first through hole 226b and the second through hole 226c, and, Further add a protrusion structure 226f at first outlet chamber 226e, may be, for example, a cylindrical structure, but not as Limit.

Above-mentioned exit plate 228 includes an a release through-hole 228a and outlet through hole 228b, wherein release through-hole 228a, Outlet through hole 228b is through exit plate 228, in exit plate 228 there is the one second release chamber 228d and one second of recess to go out Oral chamber 228e, release through-hole 228a are located at the second release chamber 228d central part, and in the second release chamber 228d and Between two outlet chamber 228e with more one connection runner 228c, to supplied gas circulate, and one end of outlet through hole 228b with Second outlet chamber 228e is connected, and the other end is then connected with outlet 229, and in this present embodiment, outlet 229 is and air bag 23 It is connected.

There is a valve opening 227a, when valve sheet 227 is between gas collection plate 226 and exit plate 228 on above-mentioned valve sheet 227 When positioning assembling, the release through-hole 228a of exit plate 228 corresponds to the first through hole 226b of gas collection plate 226, the second pressure-releasing cavity Room 228d corresponds to the first release chamber 226d of the gas collection plate 226, which corresponds to gas collection plate 226 First outlet chamber 226e, and valve sheet 227 is set between gas collection plate 226 and exit plate 228, obstructs the first release chamber 226d is connected to the second release chamber 228d, and the valve opening 227a of valve sheet 227 is set to the second through hole 226c and the outlet Between through-hole 228b, and valve opening 227a is corresponding with the protrusion structure 226f of first outlet chamber 226e of gas collection plate 226 is located at Setting, by the design of this single valve opening 227a, so that gas can achieve the purpose that one-way flow in response to its pressure difference.

One end release through-hole 228a of above-mentioned exit plate 228 can further add protrusion and a protrusion structure of formation 228f may be, for example, but be not limited to cylindrical structure, to reinforce contradicting valve sheet 227 rapidly and close release through-hole 228a, And achieve the effect that prestressing conflict effect is fully sealed；And exit plate 228 has more an at least position limiting structure 228g, with For the present embodiment, it and is an annular block structure that position limiting structure 228g, which is set in the second release chamber 228d, but not with This is limited, and predominantly when micro valve device 22B carries out collection pressure operation, is provided with the use of Auxiliary support valve sheet 227, to prevent Only valve sheet 227 collapses, and can make valve sheet 227 can more quickly opening and closing of fault.

When micro valve device 22B collection presses actuation, it is main as shown in Figure 5 A to FIG. 5 C shown in, be can in response to from Pressure provided by the gas that minitype gas transmitting device 22A is transmitted downwards, and or when extraneous atmospheric pressure is greater than and goes out When the internal pressure of the air bags 23 of 229 connection of mouth, then gas can be from the collection in the gas collection plate 226 of minitype gas transmitting device 22A Gas chamber 226a flowed downwardly into respectively through the first through hole 226b and the second through hole 226c the first release chamber 226d and In first outlet chamber 226e, at this point, downward gas pressure makes flexible valve sheet 227 be bent downwardly deformation and then makes first The volume of release chamber 226d increases, and it is downward smooth and be resisted against and unload so that valve sheet 227 is corresponded to the place the first through hole 226b The end of through-hole 228a is pressed, and then the release through-hole 228a of exit plate 228 can be closed, therefore in the gas in the second release chamber 228d Body will not be flowed out from release through-hole 228a.Certainly, the present embodiment can add a protrusion structure using the end release through-hole 228a The design of 228f to reinforce contradicting valve sheet 227 rapidly and close release through-hole 228a, and reaches prestressing conflict effect The effect being fully sealed, while and through the position limiting structure 228g on the periphery release through-hole 228a is located on, with Auxiliary support valve Piece 227, so that it will not generate to collapse.On the other hand, since gas is to flow downwardly into first outlet from the second through hole 226c In chamber 226e, and the valve sheet 227 corresponded at first outlet chamber 226e is also bent downwardly deformation, so that its is corresponding Valve opening 227a is opened downwards, and gas then can flow into second outlet chamber 228e via valve opening 227a from first outlet chamber 226e In, and outlet 229 and the air bag 23 that is connected with outlet 229 are flow to by outlet through hole 228b, whereby to collect to air bag 23 The actuation of pressure.

It please continue refering to shown in Fig. 5 D, when micro valve device 22B carries out release, being can be by regulation minitype gas biography The gas transport amount of defeated device 22A makes in gas no longer input set gas chamber 226a, or works as and connect air bag 23 with outlet 229 When internal pressure is greater than extraneous atmospheric pressure, then micro valve device 22B can be made to carry out release.At this point, gas will from and go out The outlet through hole 228b of 229 connection of mouth are input in second outlet chamber 228e, so that the volume of second outlet chamber 228e is swollen It is swollen, and then flexible valve sheet 227 is promoted to be bent upwards deformation, and upwards it is smooth, be resisted against on gas collection plate 226, therefore valve sheet 227 valve opening 227a can be closed because being resisted against gas collection plate 226.Certainly, in the present embodiment, using first outlet chamber 226e The design for adding a protrusion structure 226f, is bent upwards deformation for flexible valve sheet 227 and more rapidly contradicts, make valve opening 227a more The closed state that prestressing conflict effect attaches sealing completely is easily reached, therefore, when being in original state, valve sheet 227 Valve opening 227a can be close to be resisted against protrusion structure 226f and close, the gas in second outlet chamber 228e will not adverse current extremely In first outlet chamber 226e, to achieve the effect that preferably to prevent gas from leaking outside.And the gas in second outlet chamber 228e Body is can to flow in the second release chamber 228d via connection runner 228c, and then expand the volume of the second release chamber 228d , and the valve sheet 227 corresponding to the second release chamber 228d is made equally to be bent upwards deformation, not due to valve sheet 227 at this time It supports and is closed in the end release through-hole 228a, therefore release through-hole 228a, that is, in the open state, i.e. in the second release chamber 228d Gas row release operation can be flowed outwardly by release through-hole 228a.Certainly, the present embodiment, using the end release through-hole 228a The protrusion structure 228f that adds or through the position limiting structure 228g being set in the second release chamber 228d, allows flexible valve Door piece 227 is bent upwards deformation more rapidly, more advantageous to be detached from the state for closing release through-hole 228a.In this way, can be unidirectional by this Release operation the gas part in the air bag 23 connecting with outlet 229 is discharged and is depressured, or be completely exhausted out and complete to unload Press operation.

It is please referred to shown in Fig. 2 B again, in this present embodiment, banded structure 211 can more have relative to the inner surface of ontology 21 Hold receipts portion (not shown), does not receive the air bag 23 to hold, and the appearance receipts portion is connected with the accommodating box slot 212 of ontology 21, but not As limit, therefore then the schematic side view of wearable device 2 can be as shown in Figure 2 A when 22 non-actuation of gas actuator, Only visible banded structure 211 and ontology 21, without can be appreciated that appearance closes at the air bag 23 in appearance receipts portion, however, working as gas actuator 22 After being driven actuation, gas can be sent in air bag 23 by the outlet end of gas actuator 22, inflate air bag 23 and outward bulge It is swollen, i.e., as shown in Figure 2 B.Also, as shown in fig. 6, worn when 2 sets of wearable device of this case when in the wrist for dressing user, when When the control driving gas actuator 22 of drive control module 25 operates, gas can be transmitted to by gas actuator 22 by its outlet end Air bag 23, the wrist inside for making air bag 23 inflate bulging with fixing wearing user, is set to drive control mould at this point, penetrating again The air pressure change of the direct sense gasses actuator 22 of sensor 24 on block 25 and the physiologic information for calculating wearing user, then are borrowed By drive control module 25 to carry out physiologic information record.And in this present embodiment, physiologic information is for pulse blood pressure and the heart The data such as jump ..., but not limited to this.

It is please referred to shown in Fig. 7 again, transmission module 26 and drive control module 25 are electrically connected, and can externally be filled with an outside 3 connections are set, in this present embodiment, external device (ED) 3 is can pass through and transmits an enabling signal to transmission module 26, transmission module 26 receives After enabling signal, drives drive control module 25 to start to control 22 actuation of gas actuator, to inflate to air bag 23, make sensor 24 start to detect the physiologic information of user, then the physiologic information of the wearing user measured is sent in external device (ED) 3, To carry out further analysis statistics, the physiological health situation of user is dressed so as to knowing more about, so the position set by it It is not limited thereto, is that can appoint Shi Bianhua according to situation is actually applied.In some embodiments, transmission module 26 is to be Wire transmission module, such as comprising USB, mini-USB or micro-USB, but not limited to this；And in other embodiments In, transmission module 26 also can be wireless transport module, may be, for example, Wi-Fi module, bluetooth module, radio frequency identification module (Radio Frequency Identification, RFID) or near field communication module Near Field Communication, NFC), but be also not limited；And transmission module 26 more can be simultaneously comprising wired transmission module and wireless Transmission module, and its data transmission kenel is can to appoint Shi Bianhua according to situation is actually applied, it is all will to be stored in drive control The physiologic information of wearing user in module 25 is sent to the state sample implementation of external device (ED) 3 in the protection scope of this case, It does not repeat separately.Again in this present embodiment, external device (ED) 3 is can be but not be limited to cloud system, portable apparatus, computer system System ... etc., multiple external device (ED) 3 are mainly the physiology letter for dressing user for receiving the wearable device 2 of this case and being transmitted Breath, and can pass through a program to be further analyzed comparison to multiple information, so as to knowing more about the life of wearing user Manage healthy situation.

It please continue refering to Fig. 7 and referring concurrently to Fig. 2 B, as shown, when the wearable device 2 of this case is sensed, mainly It is to make gas actuator 22 will to control and drive this to adopt with piezoelectric actuated gas actuator 22 through drive control module 25 Gas transport makes air bag 23 inflate bulging to oppress the specific position that wearing user is dressed, at this point, penetrating again to air bag 23 Sensor 24 dresses the physiologic information of user to sense, and in some embodiments, screen 27 is can to directly display it to be sensed The physiologic information arrived, in other embodiments, more permeable transmission module 26 is outer the physiologic information sensed to be sent to Part device 3, further to be parsed.

In conclusion wearable device provided by this case, enabling signal mainly is transmitted to transmitting mould by external device (ED) Block, transmission module drives drive control module to start to control piezoelectric actuated gas actuator again, to deliver the gas to air bag In, then through sensor to sense the physiologic information of wearing user, and multiple physiologic information is resent to drive control Module, and be further transmitted through transmission module and multiple physiologic information is transmitted to external device (ED) or this is directly displayed by screen In addition to this multiple physiologic informations, the effect of can reach accurately measuring whereby, can more make wearable device reach small in size, again The effect of amount is light, convenient for user's carrying and energy saving.Therefore, this case wearing using piezoelectric actuated gas actuator Formula device, great value of industrial utilization are worn, whence is filed an application in accordance with the law.

Even if the utility model has been described in detail by above-described embodiment and can apply craftsman's think of by being familiar with this those skilled in the art times and be Modification as all, it is so neither de- as attached claim is intended to Protector.

Claims (21)

1. a kind of wearable device characterized by comprising

One ontology has a banded structure and an accommodating box slot；

One gas actuator is set in the accommodating box slot of the ontology；

One air bag is set in the accommodating box slot relative to the gas actuator, and is connected with the gas actuator, can fill The enraged swollen inner surface in the banded structure；

One drive control module is set in the accommodating box slot of the ontology；

One sensor is set on the drive control module, for being connected with the gas actuator；And

One transmission module is set in the accommodating box slot of the ontology, and be electrically connected with the drive control module；

Whereby, an enabling signal of the transmission module to receive an external device (ED), to drive the drive control module to control Gas actuator running, makes gas be transmitted to the air bag by the gas actuator, and air bag inflation bulging is made with fixing wearing The privileged site of user, and through the sensor to sense the physiologic information of wearing user, and the physiologic information is passed It send to the drive control module, the physiologic information is finally transferred to the external device (ED) through the transmission module.

2. wearable device as described in claim 1, which is characterized in that the gas actuator includes minitype gas transmission dress It sets and a micro valve device, when gas is transmitted in the micro valve device from the minitype gas transmitting device, the miniature valve Door gear is connected with the air bag, to carry out collection pressure or release operation to the air bag.

3. wearable device as claimed in claim 2, which is characterized in that the minitype gas transmitting device, comprising:

One inlet plate has an at least air inlet, at least one confluence round and a confluence chamber, and an at least air inlet is for importing One end of gas, at least one confluence round is connected to an at least air inlet, the other end and the confluence chamber, to lead The gas for entering an at least air inlet converges into the confluence chamber；

One resonance plate has a hollow bore, the confluence chamber of the corresponding inlet plate；

One piezoelectric actuated part includes a suspension board, an outline border, at least a bracket and a piezoelectric element；The outline border is around setting In the periphery of the suspension board, at least a bracket is connected between the suspension board and the outline border for this, to provide resilient support The suspension board, and there is a gap between an at least bracket, the suspension board and the outline border, and the piezoelectric element is attached at this and hangs On kickboard surface；

Wherein, which is stacked on the outline border of the piezoelectric actuated part, which is stacked on the resonance plate, and this is total Shaking between piece and the piezoelectric actuated part has a chamber spacing to form a temporary chamber, which is applied voltage drive When dynamic, gas is imported by an at least air inlet for the inlet plate, is collected to the confluence chamber through at least one confluence round, then The hollow bore of the resonance plate is flowed through to enter in the temporary storage cavity room, then is transmitted downwards and is held by the gap of the piezoelectric actuated part Continuous delivery gas.

4. wearable device as claimed in claim 3, which is characterized in that the suspension plate surface is formed as non-with the outline border surface It is coplanar, and make to keep the chamber spacing between the suspension plate surface and the resonance plate.

5. wearable device as claimed in claim 3, which is characterized in that the chamber spacing is by an at least stent forming in this It is adjusted between suspension board and the outline border.

6. wearable device as claimed in claim 3, which is characterized in that the suspension plate surface has a protrusion, protrusion top Face and the outline border surface are non-co-planar.

7. wearable device as claimed in claim 3, which is characterized in that the minitype gas transmitting device further includes at least one absolutely Embolium and a conductive sheet, and an at least insulating trip and the conductive sheet are sequentially arranged under the piezoelectric actuated part.

8. wearable device as claimed in claim 3, which is characterized in that the micro valve device includes:

One gas collection plate, the gas collection plate go out with one first through hole, one second through hole, one first release chamber and one first Oral chamber, first through hole are connected with the first release chamber, which is connected with the first outlet chamber, The first outlet chamber has a protrusion structure；

One valve sheet has a valve opening, and position corresponds to the protrusion structure of the gas collection plate；And

One exit plate includes a release through-hole, an outlet through hole, one second release chamber and a second outlet chamber, this is unloaded Pressure through-hole is located at the centre of the second release chamber, which has a protrusion structure, the outlet through hole with The second outlet chamber is connected, and has a connection runner between the second release chamber and the second outlet chamber；

Wherein, sequentially corresponding stack is arranged and is located on the gas collection plate for the valve sheet and the exit plate, and this of the exit plate unloads Through-hole is pressed to correspond to first through hole of the gas collection plate, the second release chamber of the exit plate corresponds to being somebody's turn to do for the gas collection plate First release chamber, the first outlet chamber of the second outlet chamber of the exit plate corresponding to the gas collection plate, and the valve Piece is set between the gas collection plate and the exit plate, is connected with obstructing the first release chamber with the second release chamber, and The valve opening is located between second through hole and the outlet through hole, is formed with the protrusion structure by gas flow optimized and the gas collection plate It is separate, and gas is made to be directed through the valve opening and carry out collection pressure operation by importing in the outlet through hole.

9. wearable device as claimed in claim 8, which is characterized in that a row of the outlet through hole of the micro valve device Gas is controlled the valve sheet out, so that the protrusion structure of the valve opening and the gas collection plate is contradicted and is closed, enables the outlet logical Hole and the first release chamber and the first outlet chamber make the discharge gas enter one second via the connection runner and unload It presses in chamber, and the valve sheet is promoted not contradict with the protrusion structure of the exit plate and open the release through-hole, allow the discharge Gas is flowed out by the release through-hole carries out release operation.

10. wearable device as claimed in claim 8, which is characterized in that the gas collection plate surface has more a gas collection chamber, and The gas collection chamber is connected with first through hole and second through hole.

11. wearable device as claimed in claim 10, which is characterized in that the first release chamber of the gas collection plate and this One outlet chamber is respectively formed at opposite first through hole and second through hole.

12. wearable device as claimed in claim 9, which is characterized in that the exit plate of the micro valve device includes extremely A few position limiting structure, an at least position limiting structure are set in the second pressure-releasing cavity room.

13. wearable device as claimed in claim 8, which is characterized in that the gas collection plate, the piezoelectric actuated part, the resonance plate And sequentially positioning is arranged in corresponding stack to the inlet plate, when the piezoelectric actuated part being made to be applied voltage driving, gas is by the inlet plate An at least air inlet import, through this at least one confluence round be collected to the confluence chamber, pass through the remittance of the resonance plate Chamber is flowed, to enter in the temporary storage cavity room, then is transmitted downwards by the gap between an at least bracket for the piezoelectric actuated part To the gas collection plate, with lasting pushing out gas.

14. wearable device as described in claim 1, which is characterized in that the transmission module is a wireless transport module.

15. wearable device as claimed in claim 14, which is characterized in that the wireless transport module is a Wi-Fi module, one One of bluetooth module, a radio frequency identification module and a near field communication module.

16. wearable device as described in claim 1, which is characterized in that the transmission module is a wire transmission module.

17. wearable device as claimed in claim 16, which is characterized in that the wire transmission module is a USB, a mini- One of USB, a micro-USB.

18. wearable device as described in claim 1, which is characterized in that the external device (ED) is a cloud system, one portable One of device, a computer system or combinations thereof.

19. wearable device as described in claim 1, which is characterized in that the wearable device further includes a screen, so as to aobvious Show an information.

20. wearable device as claimed in claim 19, which is characterized in that the information includes the physiology letter of wearing user Breath, a temporal information, a caller id information etc. at least one.

21. a kind of wearable device characterized by comprising

An at least ontology has an at least banded structure and an at least accommodating box slot；

An at least gas actuator is set in the accommodating box slot of the ontology；

An at least air bag is set in the accommodating box slot relative to the gas actuator, and is connected with the gas actuator, Inflatable bulging is in the inner surface of the banded structure；

An at least drive control module is set in the accommodating box slot of the ontology；

An at least sensor is set on the drive control module, for being connected with the gas actuator；And

An at least transmission module is set in the accommodating box slot of the ontology, and be electrically connected with the drive control module；

Whereby, an at least enabling signal of the transmission module to receive an at least external device (ED), to drive the drive control Module controls gas actuator running, and gas is made to be transmitted to the air bag by the gas actuator, which inflates bulging with solid Surely at least privileged site of user is dressed, and senses at least physiologic information of wearing user through the sensor, And the physiologic information is sent to the drive control module, finally the physiologic information is transferred to outside this through the transmission module Device.