CN105595970A - Wearable daily physiological parameter monitoring device - Google Patents
Wearable daily physiological parameter monitoring device Download PDFInfo
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- CN105595970A CN105595970A CN201510688087.0A CN201510688087A CN105595970A CN 105595970 A CN105595970 A CN 105595970A CN 201510688087 A CN201510688087 A CN 201510688087A CN 105595970 A CN105595970 A CN 105595970A
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Abstract
The invention provides a wearable daily physiological parameter monitoring device which comprises a doublet, a sensor component and a monitoring analysis circuit, wherein the doublet is formed by sewing a front part and a back part; the sensor component is positioned at the inner surface of the front part and used for detecting and collecting cardiovascular data of a user in real time; the monitoring analysis circuit is arranged between inner and outer layers of the front part, connected with the sensor component by virtue of a signal wire and used for performing real-time analysis on the collected cardiovascular data and giving out a prompt while discovering abnormal data. By use of the characteristic that the doublet is clung to a human body, the wearable daily physiological parameter monitoring device is capable of realizing continuous monitoring on electrocardio and pulse wave parameters of the user, giving out an alarm to the user and other relevant personnel or organizations and establishing communication contact between the user and the other relevant personnel or organizations while discovering abnormity, meeting the requirements of the user for all-weather multi-parameter monitoring in a daily environment, thereby ensuring that the user suffering from cardiovascular anomalies is rescued in time and daily life of the user is not influenced.
Description
Technical field
The present invention relates to non-invasive monitoring technical field, particularly relate to the daily physiological parameter prison of a kind of WearableSurvey device.
Background technology
Angiocardiopathy is harm countries in the world crowd's epidemic disease, and in Died Patients, major part is doctorOutside institute, there is suddenly acute events, lost valuable earlier detection and treatment and caused death. Heart disease withHypertension belongs at present popular wider angiocardiopathy in crowd, if can be to angiocardiopathyTreatment changes the Real-Time Monitoring in patient's daily life into, imminent cardiovascular disorder is carried out to early warning and carryShow, make it to prepare to respond in time, the POD being caused by this class disease will reduce greatly. Therefore,Be badly in need of a kind of device that can be convenient for carrying, monitor continuously electrocardio and blood pressure, can grasp patient whenever and wherever possibleCardiovascular health situation, thereby find in time the abnormal of physiological parameter.
Although portable 24 hours Electrocardiography instrument can detect patient's electrocardiosignal, its function in real timeSingle, professional very strong, be difficult to recognition, so up to the present, still there is no a suitable product energyEnough real patient families that enters into, enter in routine use. Main cause is: volume is large, lead many, and inspectionSurvey data are single, need medical practitioner operation, and testing result needs medical practitioner to know map analysis, are not suitable for individualPeople user's routine use. Therefore, need one to dress with oneself, detect that data are various can initiatively divideThe monitoring equipment of analysing data solves the problem of its existence.
Summary of the invention
The object of this invention is to provide adaptation Modern human populations health demand a kind of, multi-parameter is right in real timeThe daily physiologic parameter monitoring device of Wearable that user detects.
Object of the present invention can be achieved by the following technical measures: the daily physiologic parameter monitoring device of Wearable,The daily physiologic parameter monitoring device of described Wearable comprises close-fitting upper dress, sensor cluster and monitoring analysis circuit,In described close-fitting vest, dress is made and is formed by anter and rear panel; Described sensor cluster is positioned at the inner surface of described anter,Detect in real time the cardiovascular data that gather user; Described monitoring analysis circuit is placed between described anter ectonexineBe connected with described sensor cluster by holding wire, the cardiovascular data that collect are carried out to real-time analysis, andIn the time noting abnormalities data, make prompting.
Object of the present invention also can be achieved by the following technical measures:
Described anter is made up of inside and outside two-layer high-tension cloth, also comprises elastic insert, its total thickness in its interlayerDegree is greater than the thickness of the described monitoring analysis circuit of flat, and described rear panel adopts single-layer fabric, and with describedAnter forms annular together, and the interior outside of described monitoring analysis circuit all has described elastic insert to cover, andThe outer elastic liner of described monitoring analysis circuit has rectangular in the part that covers described monitoring analysis circuitHole, for the heat radiation of described monitoring analysis circuit.
On the high elasticity cloth of chest, outside, outer side waist or the shoulder position of described anter, have than described monitoringThe opening that analysis circuit is large, it has velcro around, opens described velcro and can raise outer high-elasticPower cloth, then raise and cover the outer elastic liner of described monitoring analysis circuit and can touch described holding wirePlug and described monitoring analysis circuit.
Described sensor cluster is flat, is made up of electrocardioelectrode and pulse wave sensor, described electrocardio electricityVery metal material, there is solid conduction silica gel on surface, to improve and the comfortableness of skin contact, described pulseWave sensor is made up of piezoelectric transducer, with the pressure of skin surface trace in perception cardiac pacing and contraction processPower changes, and converts it to the signal of telecommunication and be sent to described monitoring analysis circuit and process
Passage and the embedding of described confession monitoring analysis circuit that described elastic insert inside has the described holding wire of confession to passThe groove entering, described in each, electrocardioelectrode or described pulse wave sensor are by independent described holding wire warpPlug is linked in the corresponding jack of described monitoring analysis circuit.
The color of each plug or mark are different, with the jack of the described monitoring analysis circuit of same color or markCorresponding, can wrong plug when connecting again after ensureing to pull up.
The circuit board that described monitoring analysis circuit is flat, is arranged on the shell that stainless steel thin slice is stamped to formIn, and be placed in chest or shoulder position.
Described monitoring analysis circuit comprise amplifying circuit, microprocessor, memory, warning and sound circuit,Wireless communication module and power module, described amplifying circuit is connected in described sensor cluster, and by described biographyThe cardiovascular data that sensor assembly collects are amplified and are become data signal through A/D change-over circuit, described inMemory is connected in described microprocessor, and stores normal human's cardio-vascular parameters, and described microprocessor connectsIn described amplifying circuit, and after the data signal that described amplifying circuit is transmitted processes, with describedNormal human's cardio-vascular parameters of memory storage contrasts, and Real time identification heart rate, these parameters of blood pressure areNo normal, described warning and sound circuit are connected in described microprocessor, and described wireless communication module is connected inDescribed microprocessor, in the time that described microprocessor monitors arrives abnormal data, described warning and sound circuit are in instituteState under the control of microprocessor and report to the police, described wireless communication module under the control of described microprocessor to base stationSend alarm signal, to user's household or friend and medical personnel's warning, described power supply is connected in instituteState amplifying circuit, described microprocessor, described wireless communication module, described memory and described warning and languageSound circuit is above-mentioned module for power supply.
Described microprocessor is 16-bit monokaryon microprocessor, and described memory adopts 512MB flash memory, described inReport to the police and comprise microphone and the filtering and amplifying circuit that can receive user speech with sound circuit, according to abnormal dataThe order of severity, described warning is sent different warnings and voice message sound from sound circuit, described warning withSound circuit also receives the voice that send base station, carries out two-way call.
On described monitoring analysis circuit, power switch is also set, after unlatching, enters use state, usingIn journey, in the time of brownout, described warning and sound circuit can send low-voltage prompting, and reminding user fills as early as possibleElectricity, shown in cue button is also set on monitoring analysis circuit, in the time there is abnormal alarm, press this buttonStop alarm sound.
The daily physiologic parameter monitoring device of Wearable in the present invention, by the sensor being arranged in close-fitting upper dressAssembly and observation circuit form. It utilizes and in close-fitting vest, loads electrocardio, the pulse of the feature of pasting human body to userWave parameter realizes continuously monitoring, and reports to user and other relevant personnel or mechanism occurring when abnormalWarn and set up communication contact. This device both can have been monitored electrocardio, also can have been monitored pulse wave signal, also can while rootDraw according to both data the real-time pressure value that user is current, flexibility is good, and two kinds of signals can be mutual if desiredVerification, has improved antijamming capability and reliability, has reduced rate of false alarm and rate of failing to report. Wearing in the present inventionThe daily physiologic parameter monitoring device of formula, can data acquisition, processing, storage, analysis, judgement, reportThe functions such as police, communication, transfer of data, meet the demand of user at the round-the-clock multi-parameter monitoring of surroundings,Thereby ensure that it is given treatment in time in the time of Cardiovascular abnormality, and do not affect user's daily life.
Brief description of the drawings
Fig. 1 is the entirety composition of a specific embodiment of the daily physiologic parameter monitoring device of Wearable of the present inventionSchematic diagram;
Fig. 2 is that the each several part of a specific embodiment of the daily physiologic parameter monitoring device of Wearable of the present invention dividesCloth schematic diagram;
Fig. 3 is that the monitoring analysis circuit one of the daily physiologic parameter monitoring device of Wearable of the present invention is specifically implementedThe structural representation of example.
Detailed description of the invention
For above and other object of the present invention, feature and advantage can be become apparent, cited below particularly go outGood embodiment, and coordinate appended graphicly, be described in detail below.
If Fig. 1 is to as shown in Fig. 3, it is the structure chart of the daily physiologic parameter monitoring device of Wearable of the present invention.The daily physiologic parameter monitoring device of this Wearable is by being arranged on the sensor cluster 2 and the prison that fill in close-fitting vest in 1Cls analysis circuit 3 forms. By the detection of electrocardio, pulse wave signal being realized to the cardiovascular health to userThe real-time analysis of data.
Wherein in close-fitting vest, fill 1 anter of being made by high-tension cotton cloth 11 and rear panel 12 and form, anter 11 byInside and outside two-layer high-tension cloth is made, and chest, outside or shoulder position opening part have velcro, can before cleaningOpen velcro and raise elastic insert, equipment is taken out, rear panel 12 adopts single-layer fabric, and its function isForm annular together with anter 11, ensure close-fitting realization. After they can be made one or separately makeStitched together again, can be vest or corselet in form. Sensor cluster 2 is by electrocardioelectrode 14 and pulse waveSensor 15 forms, and electrocardioelectrode 14 base materials are metal material, and surface is coated with solid conduction silica gel; Arteries and veinsThe wave sensor 15 of fighting is mainly made up of piezoelectric transducer, for detection of in cardiac pacing and contraction process tracePressure delta data, is connected with monitoring analysis circuit 3 by holding wire 4. Two sensors are all flat,Be fixed on the inner surface that fills 1 anter 11 in close-fitting vest, in close-fitting vest, fill 1 tensile force and make sensor cluster2 keep and skin close contact, have improved reliability and the signal to noise ratio of signals collecting. The table of electrocardioelectrode 14Face is coated with solid conduction silica gel, in ensureing ecg signal acquiring, has avoided again metal electrode and skinThe directly discomfort of contact.
Monitoring analysis circuit 3 is circuit boards of a flat, be arranged on that stainless steel thin slice is stamped to form outsideIn shell, in order to ensure the comfortableness that user's whole day is used and can be placed on chest with reference to user's sleep habitThe position such as portion or shoulder, comprise amplifying circuit 5, microprocessor 6, memory 7, warning and sound circuit 9,Wireless communication module 10 and power supply 8. Each electrocardioelectrode 14, pulse wave sensor 15 and monitoring analysisCircuit 3 is connected by independent holding wire 4, holding wire 4 one end and electrocardioelectrode 14, pulse wave sensor 15Permanent connection, has plug on the other end, can be connected with the jack of monitoring analysis circuit 3. Plug is pulled outGo out, can easily monitoring analysis circuit 3 be taken out from elastic insert 13. Anter 11 is by inside and outside two-layerHigh-tension cloth is made, and these holding wires 4 and monitoring analysis circuit 3 are all embedded in vest anter 11 interlayersElastic insert 13 in, this elastic insert substantially cover close-fitting upper dress anter 11 most areas inOuter both sides, only in edge's attenuation. Outside the position covering monitoring analysis circuit 3 such as anter 11 waists or shoulderFloor height elastic force cloth has oblong openings, dispels the heat for circuit. Opening surrounding has velcro, unties nylonHasp, raises elastic insert 13, then after holding wire 4 is all extracted from jack, can take out band shellMonitoring analysis circuit 3. At this moment in vest only with electrode 14, sensor 15 and holding wire 4, canCraft or machine clean. On the plug of every holding wire 4 and corresponding jack all with different color differentiatings, withAvoid making a mistake when plug is connected to monitoring analysis circuit 2 again.
Monitoring analysis circuit 3 receives from electrocardioelectrode 14 and pulse wave sensor 15 by holding wire 4Signal, is amplified the millivolt level signal detecting become numeral letter through A/D change-over circuit by amplifying circuit 5Number to improve the antijamming capability of signal transmission, by 16-bit monokaryon microprocessor 6, digital signal is carried out subsequentlyProcess, itself and the normal human's cardio-vascular parameters being stored in memory 7 are in advance compared, know in real timeWhether the parameters such as other heart rate, blood pressure are normal, and memory 7 adopts 512MB flash memory, report to the police and sound circuit 9Comprise microphone and the filtering and amplifying circuit that can receive user speech. Microprocessor 6 can receive detection in real timeSignal real-time analysis, record, can contrast data, judges active user's Health Status of Cardiovascular System.In the time monitoring abnormal data, microprocessor 6 is controlled to report to the police and is sent immediately chimes of doom with sound circuit 9, makesUser knows own current health in time. According to the order of severity of abnormal data, report to the police and voice electricityDifferent warnings and voice message sound can be sent in road 9. On monitoring analysis circuit 3 devices, power switch is set,After unlatching, enter use state. In use, in the time of brownout, report to the police and can send out with sound circuit 9Go out low-voltage prompting, reminding user charges as early as possible and ensures the normal use of this device. On monitoring analysis circuit 3Cue button can also be set, and in the time there is abnormal alarm, pressing this button can stop alarm sound. For justIn call and monitoring, on monitoring analysis circuit 3, can also, with the auxiliary equipment such as microphone, loudspeaker, connectReceive the voice that send base station, realize bidirectional call function. In abnormal cardiovascular data being detected, micro-Processor 6 is controlled wireless communication module 10 and is sent alarm signal to base station, to user's household or friend withAnd medical personnel report to the police. Power supply 8 is connected in amplifying circuit 5, microprocessor 6, wireless communication module 10, depositsReservoir 7 and warning and sound circuit 9 are above-mentioned module for power supply.
The daily physiologic parameter monitoring device of Wearable of the present invention can be in the situation that does not affect user's normal lifeUnder, user's Health Status of Cardiovascular System is carried out to real-time multi-parameter monitoring, can be initiatively real according to detecting dataTime the health status of analysis user under present case. Accepting relevant professional training without user can use.In the time there is dangerous situation, can send in time alarm user and carry out further preparation.
In this description, the present invention is described with reference to its specific embodiment. But, obviously stillCan make various amendments and conversion and not deviate from the spirit and scope of the present invention. Therefore, description and accompanying drawingBe regarded in an illustrative, rather than a restrictive.
Claims (10)
1. the daily physiologic parameter monitoring device of Wearable, is characterized in that, the daily physiologic parameter monitoring device of described Wearable comprises close-fitting upper dress, sensor cluster and monitoring analysis circuit, and in described close-fitting vest, dress is made and is formed by anter and rear panel; Described sensor cluster is positioned at the inner surface of described anter, detects in real time the cardiovascular data that gather user; Described monitoring analysis circuit is placed between described anter ectonexine and is connected with described sensor cluster by holding wire, the cardiovascular data that collect is carried out to real-time analysis, and make prompting in the time noting abnormalities data.
2. the daily physiologic parameter monitoring device of Wearable according to claim 1, it is characterized in that, described anter is made up of inside and outside two-layer high-tension cloth, in its interlayer, also comprise elastic insert, its gross thickness is greater than the thickness of the described monitoring analysis circuit of flat, described rear panel adopts single-layer fabric, and form annular together with described anter, the interior outside of described monitoring analysis circuit all has described elastic insert to cover, and the outer elastic liner of described monitoring analysis circuit has oblong aperture in the part that covers described monitoring analysis circuit, for the heat radiation of described monitoring analysis circuit.
3. the daily physiologic parameter monitoring device of Wearable according to claim 2, it is characterized in that, on the high elasticity cloth of chest, outside, outer side waist or the shoulder position of described anter, have than the large opening of described monitoring analysis circuit, it has velcro around, open described velcro and can raise outer high-tension cloth, then raise the plug and the described monitoring analysis circuit that cover the outer elastic liner of described monitoring analysis circuit and can touch described holding wire.
4. the daily physiologic parameter monitoring device of Wearable according to claim 3, it is characterized in that, described sensor cluster is flat, formed by electrocardioelectrode and pulse wave sensor, described electrocardioelectrode is metal material, there is solid conduction silica gel on surface, comfortableness with raising with skin contact, described pulse wave sensor is made up of piezoelectric transducer, change with the pressure of skin surface trace in perception cardiac pacing and contraction process, and convert it to the signal of telecommunication and be sent to described monitoring analysis circuit and process.
5. the daily physiologic parameter monitoring device of Wearable according to claim 4, it is characterized in that, there are the passage and the described groove embedding for monitoring analysis circuit that pass for described holding wire in described elastic insert inside, and described in each, electrocardioelectrode or described pulse wave sensor are linked in the corresponding jack of described monitoring analysis circuit through plug by independent described holding wire.
6. the daily physiologic parameter monitoring device of Wearable according to claim 5, is characterized in that, the color of each plug or mark are different, corresponding with the jack of the described monitoring analysis circuit of same color or mark, can wrong plug when connecting after ensureing to pull up again.
7. according to the daily physiologic parameter monitoring device of Wearable described in claim 1 or 2 or 4 or 6, it is characterized in that the circuit board that described monitoring analysis circuit is flat is arranged in the shell that stainless steel thin slice is stamped to form, and is placed in chest or shoulder position.
8. according to the daily physiologic parameter monitoring device of the Wearable described in claim 1 or 7, it is characterized in that, described monitoring analysis circuit comprises amplifying circuit, microprocessor, memory, report to the police and sound circuit, wireless communication module and power module, described amplifying circuit is connected in described sensor cluster, and the cardiovascular data that described sensor cluster is collected are amplified and become data signal through A/D change-over circuit, described memory is connected in described microprocessor, and store normal human's cardio-vascular parameters, described microprocessor is connected in described amplifying circuit, and after the data signal that described amplifying circuit is transmitted processes, contrast with normal human's cardio-vascular parameters of described memory storage, Real time identification heart rate, whether these parameters of blood pressure are normal, described warning and sound circuit are connected in described microprocessor, described wireless communication module is connected in described microprocessor, in the time that described microprocessor monitors arrives abnormal data, described warning and sound circuit are reported to the police under the control of described microprocessor, described wireless communication module sends alarm signal to base station under the control of described microprocessor, to user's household or friend and medical personnel's warning, described power supply is connected in described amplifying circuit, described microprocessor, described wireless communication module, described memory and described warning and sound circuit, for above-mentioned module for power supply.
9. the daily physiologic parameter monitoring device of Wearable according to claim 8, it is characterized in that, described microprocessor is 16-bit monokaryon microprocessor, described memory adopts 512MB flash memory, described warning and sound circuit comprise microphone and the filtering and amplifying circuit that can receive user speech, and according to the order of severity of abnormal data, described warning is sent different warnings and voice message sound from sound circuit, described warning and sound circuit also receive the voice that send base station, carry out two-way call.
10. the daily physiologic parameter monitoring device of Wearable according to claim 8 or claim 9, it is characterized in that, on described monitoring analysis circuit, power switch is also set, after unlatching, enter use state, in use, in the time of brownout, described warning and sound circuit can send low-voltage prompting, and reminding user charges as early as possible, shown in cue button is also set on monitoring analysis circuit, in the time there is abnormal alarm, pressing this button can stop alarm sound.
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CN108309279A (en) * | 2018-02-10 | 2018-07-24 | 安徽工程大学 | A kind of wearable electrocardiograph monitoring device |
CN108852346A (en) * | 2018-08-17 | 2018-11-23 | 青岛光电医疗科技有限公司 | A kind of personal multi-parameter monitoring device fixed and connected by Integrated electrode/sensor |
CN108903918A (en) * | 2018-08-17 | 2018-11-30 | 青岛光电医疗科技有限公司 | A kind of Integrated electrode/sensor and its personal monitor of connection |
CN109171686A (en) * | 2018-09-27 | 2019-01-11 | 长春奥普光电技术股份有限公司 | A kind of wearable Medical Devices of intelligence and Portable household real-time monitoring system |
CN113057651A (en) * | 2019-12-30 | 2021-07-02 | 石家庄以岭药业股份有限公司 | Data sending method and device, data acquisition device and storage medium |
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Application publication date: 20160525 |